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Shukla, AK and Banerjee, A and Jalajakshi, A and Ravikumar, MK (2013) 12 V / kilo-Farad Range Lead-Carbon Hybrid Ultracapacitors and Their Envisaged Applications. In: ECS 3D Symposium on Corrosion, Passivity, and Energy - In Honor of Digby D. Macdonald, OCT 07-12, 2012, Honolulu, HI, pp. 367-376.
Banerjee, A and Ravikumar, MK and Jalajakshi, A and Gaffoor, SA and Shukla, AK (2012) A 12 V Substrate-Integrated PbO2-Activated Carbon Asymmetric Hybrid Ultracapacitor with Silica-Gel-Based Inorganic-Polymer Electrolyte. In: Symposium on Lead-Acid Batteries and Capacitors, New Designs, and New Applications held during the 220th Meeting of the Electrochemical-Society (ECS), , OCT 09-14, 2011, Boston, MA, , pp. 101-113.
Martha, SK and Hariprakash, B and Gaffoor, SA and Trivedi, DC and Shukla, AK (2006) A low-cost lead-acid battery with high specific-energy. In: International Conference on Recent Developments in Metal Oxides and Related Materials,, Jan 09-11, 2006, Bangalore, India, pp. 93-98.
Thangadurai, V and Shukla, AK and Gopalakrishnan, J and Joubert, O and Brohan, L and Tournoux, M (2000) X-ray powder diffraction study of $LiLnTiO_4$ (Ln=La, Nd): a lithium-ion conductor. In: European Powder Diffraction. Sixth European Powder Diffraction Conference. EPDIC 6, Aug 22-Aug 25 1998, Budapest, Hungary, pp. 965-970.
Funke, K and Kantimm, T and Maue, T and Zurwellen, D and Shukla, AK (1990) Hopping and non-hopping localized ionic motion: β-AgI and β-Ag3SI. In: 7TH INTERNATIONAL CONF ON SOLID STATE IONICS, NOV 05-11, 1989, HAKONE, JAPAN.
Ali, Mahmood and Markandaya, M and Girimaji, SC and Shukla, AK and Sachhidanand, S and Kumar, A (2004) Genetic variation in the TSC1 and TSC2 genes in 24 TSC families from India. In: 54th Annual meeting of the American Society of Human Genetics, October 28-30, Toronto, Canada, 2424/T-438.
Ali, Mahmood and Markandaya, M and Girimaji, SC and Shukla, AK and Sacchidanand, S and Kumar, Arun (2003) Mutational analysis of the TSC2 gene in 23 TSC families from India. In: 53rd Annual Meeting of the American Society of Human Genetics, November 4-8, Convention Center, Los Angeles, U.S.A, p. 2219.
Rathod, S and Yadav, SP and Ravikumar, MK and Jaiswal, N and Patil, S and Shukla, AK (2023) Effect of anionic, cationic and non-ionic surfactants with NaF as binary additives on the performance of soluble lead redox flow battery. In: Electrochimica Acta, 441 .
Shittu, E and Suman, R and Ravikumar, MK and Shukla, AK and Zhao, G and Patil, S and Baker, J (2022) Life cycle assessment of soluble lead redox flow battery. In: Journal of Cleaner Production, 337 .
Sharma, S and Rathod, S and Prakash Yadav, S and Chakraborty, A and Shukla, AK and Aetukuri, N and Patil, S (2021) Electrochemical Evaluation of Diketopyrrolopyrrole Derivatives for Nonaqueous Redox Flow Batteries. In: Chemistry - A European Journal, 27 (47). pp. 12172-12180.
Rathod, S and Ravikumar, MK and Jaiswal, N and Patil, S and Shukla, AK (2021) Extending cycle life of the soluble lead redox flow battery with an auxiliary gas-diffusion electrode: a proof-of-concept study. In: Ionics, 27 (8). pp. 3403-3414.
Klionsky, DJ and Abdel-Aziz, AK and Abdelfatah, S and Abdellatif, M and Abdoli, A and Abel, S and Abeliovich, H and Abildgaard, MH and Abudu, YP and Acevedo-Arozena, A and Adamopoulos, IE and Adeli, K and Adolph, TE and Adornetto, A and Aflaki, E and Agam, G and Agarwal, A and Aggarwal, BB and Agnello, M and Agostinis, P and Agrewala, JN and Agrotis, A and Aguilar, PV and Ahmad, ST and Ahmed, ZM and Ahumada-Castro, U and Aits, S and Aizawa, S and Akkoc, Y and Akoumianaki, T and Akpinar, HA and Al-Abd, AM and Al-Akra, L and Al-Gharaibeh, A and Alaoui-Jamali, MA and Alberti, S and Alcocer-Gómez, E and Alessandri, C and Ali, M and Alim Al-Bari, MA and Aliwaini, S and Alizadeh, J and Almacellas, E and Almasan, A and Alonso, A and Alonso, GD and Altan-Bonnet, N and Altieri, DC and Ã�lvarez, Ã�MC and Alves, S and Alves da Costa, C and Alzaharna, MM and Amadio, M and Amantini, C and Amaral, C and Ambrosio, S and Amer, AO and Ammanathan, V and An, Z and Andersen, SU and Andrabi, SA and Andrade-Silva, M and Andres, AM and Angelini, S and Ann, D and Anozie, UC and Ansari, MY and Antas, P and Antebi, A and Antón, Z and Anwar, T and Apetoh, L and Apostolova, N and Araki, T and Araki, Y and Arasaki, K and Araújo, WL and Araya, J and Arden, C and Arévalo, M-A and Arguelles, S and Arias, E and Arikkath, J and Arimoto, H and Ariosa, AR and Armstrong-James, D and Arnauné-Pelloquin, L and Aroca, A and Arroyo, DS and Arsov, I and Artero, R and Asaro, DML and Aschner, M and Ashrafizadeh, M and Ashur-Fabian, O and Atanasov, AG and Au, AK and Auberger, P and Auner, HW and Aurelian, L and Autelli, R and Avagliano, L and Ã�valos, Y and Aveic, S and Aveleira, CA and Avin-Wittenberg, T and Aydin, Y and Ayton, S and Ayyadevara, S and Azzopardi, M and Baba, M and Backer, JM and Backues, SK and Bae, D-H and Bae, O-N and Bae, SH and Baehrecke, EH and Baek, A and Baek, S-H and Baek, SH and Bagetta, G and Bagniewska-Zadworna, A and Bai, H and Bai, J and Bai, X and Bai, Y and Bairagi, N and Baksi, S and Balbi, T and Baldari, CT and Balduini, W and Ballabio, A and Ballester, M and Balazadeh, S and Balzan, R and Bandopadhyay, R and Banerjee, S and Banerjee, S and Bánréti, Ã� and Bao, Y and Baptista, MS and Baracca, A and Barbati, C and Bargiela, A and BarilÃ, D and Barlow, PG and Barmada, SJ and Barreiro, E and Barreto, GE and Bartek, J and Bartel, B and Bartolome, A and Barve, GR and Basagoudanavar, SH and Bassham, DC and Bast, Jr and Basu, A and Batoko, H and Batten, I and Baulieu, EE and Baumgarner, BL and Bayry, J and Beale, R and Beau, I and Beaumatin, F and Bechara, LRG and Beck, Jr and Beers, MF and Begun, J and Behrends, C and Behrens, GMN and Bei, R and Bejarano, E and Bel, S and Behl, C and Belaid, A and Belgareh-Touzé, N and Bellarosa, C and Belleudi, F and Belló Pérez, M and Bello-Morales, R and Beltran, JSDO and Beltran, S and Benbrook, DM and Bendorius, M and Benitez, BA and Benito-Cuesta, I and Bensalem, J and Berchtold, MW and Berezowska, S and Bergamaschi, D and Bergami, M and Bergmann, A and Berliocchi, L and Berlioz-Torrent, C and Bernard, A and Berthoux, L and Besirli, CG and Besteiro, S and Betin, VM and Beyaert, R and Bezbradica, JS and Bhaskar, K and Bhatia-Kissova, I and Bhattacharya, R and Bhattacharya, S and Bhattacharyya, S and Bhuiyan, MS and Bhutia, SK and Bi, L and Bi, X and Biden, TJ and Bijian, K and Billes, VA and Binart, N and Bincoletto, C and Birgisdottir, AB and Bjorkoy, G and Blanco, G and Blas-Garcia, A and Blasiak, J and Blomgran, R and Blomgren, K and Blum, JS and Boada-Romero, E and Boban, M and Boesze-Battaglia, K and Boeuf, P and Boland, B and Bomont, P and Bonaldo, P and Bonam, SR and Bonfili, L and Bonifacino, JS and Boone, BA and Bootman, MD and Bordi, M and Borner, C and Bornhauser, BC and Borthakur, G and Bosch, J and Bose, S and Botana, LM and Botas, J and Boulanger, CM and Boulton, ME and Bourdenx, M and Bourgeois, B and Bourke, NM and Bousquet, G and Boya, P and Bozhkov, PV and Bozi, LHM and Bozkurt, TO and Brackney, DE and Brandts, CH and Braun, RJ and Braus, GH and Bravo-Sagua, R and Bravo-San Pedro, JM and Brest, P and Bringer, M-A and Briones-Herrera, A and Broaddus, VC and Brodersen, P and Brodsky, JL and Brody, SL and Bronson, PG and Bronstein, JM and Brown, CN and Brown, RE and Brum, PC and Brumell, JH and Brunetti-Pierri, N and Bruno, D and Bryson-Richardson, RJ and Bucci, C and Buchrieser, C and Bueno, M and Buitrago-Molina, LE and Buraschi, S and Buch, S and Buchan, JR and Buckingham, EM and Budak, H and Budini, M and Bultynck, G and Burada, F and Burgoyne, JR and Burón, MI and Bustos, V and Büttner, S and Butturini, E and Byrd, A and Cabas, I and Cabrera-Benitez, S and Cadwell, K and Cai, J and Cai, L and Cai, Q and Cairó, M and Calbet, JA and Caldwell, GA and Caldwell, KA and Call, JA and Calvani, R and Calvo, AC and Calvo-Rubio Barrera, M and Camara, NOS and Camonis, JH and Camougrand, N and Campanella, M and Campbell, EM and Campbell-Valois, F-X and Campello, S and Campesi, I and Campos, JC and Camuzard, O and Cancino, J and Candido de Almeida, D and Canesi, L and Caniggia, I and Canonico, B and CantÃ, C and Cao, B and Caraglia, M and Caramés, B and Carchman, EH and Cardenal-Muñoz, E and Cardenas, C and Cardenas, L and Cardoso, SM and Carew, JS and Carle, GF and Carleton, G and Carloni, S and Carmona-Gutierrez, D and Carneiro, LA and Carnevali, O and Carosi, JM and Carra, S and Carrier, A and Carrier, L and Carroll, B and Carter, AB and Carvalho, AN and Casanova, M and Casas, C and Casas, J and Cassioli, C and Castillo, EF and Castillo, K and Castillo-Lluva, S and Castoldi, F and Castori, M and Castro, AF and Castro-Caldas, M and Castro-Hernandez, J and Castro-Obregon, S and Catz, SD and Cavadas, C and Cavaliere, F and Cavallini, G and Cavinato, M and Cayuela, ML and Cebollada Rica, P and Cecarini, V and Cecconi, F and Cechowska-Pasko, M and Cenci, S and Ceperuelo-Mallafré, V and Cerqueira, JJ and Cerutti, JM and Cervia, D and Cetintas, VB and Cetrullo, S and Chae, H-J and Chagin, AS and Chai, C-Y and Chakrabarti, G and Chakrabarti, O and Chakraborty, T and Chakraborty, T and Chami, M and Chamilos, G and Chan, DW and Chan, EYW and Chan, ED and Chan, HYE and Chan, HH and Chan, H and Chan, MTV and Chan, YS and Chandra, PK and Chang, C-P and Chang, C and Chang, H-C and Chang, K and Chao, J and Chapman, T and Charlet-Berguerand, N and Chatterjee, S and Chaube, SK and Chaudhary, A and Chauhan, S and Chaum, E and Checler, F and Cheetham, ME and Chen, C-S and Chen, G-C and Chen, J-F and Chen, LL and Chen, L and Chen, L and Chen, M and Chen, M-K and Chen, N and Chen, Q and Chen, R-H and Chen, S and Chen, W and Chen, W and Chen, X-M and Chen, X-W and Chen, X and Chen, Y and Chen, Y-G and Chen, Y and Chen, Y and Chen, Y-J and Chen, Y-Q and Chen, ZS and Chen, Z and Chen, Z-H and Chen, ZJ and Chen, Z and Cheng, H and Cheng, J and Cheng, S-Y and Cheng, W and Cheng, X and Cheng, X-T and Cheng, Y and Cheng, Z and Chen, Z and Cheong, H and Cheong, JK and Chernyak, BV and Cherry, S and Cheung, CFR and Cheung, CHA and Cheung, K-H and Chevet, E and Chi, RJ and Chiang, AKS and Chiaradonna, F and Chiarelli, R and Chiariello, M and Chica, N and Chiocca, S and Chiong, M and Chiou, S-H and Chiramel, AI and Chiurchiù, V and Cho, D-H and Choe, S-K and Choi, AMK and Choi, ME and Choudhury, KR and Chow, NS and Chu, CT and Chua, JP and Chua, JJE and Chung, H and Chung, KP and Chung, S and Chung, S-H and Chung, Y-L and Cianfanelli, V and Ciechomska, IA and Cifuentes, M and Cinque, L and Cirak, S and Cirone, M and Clague, MJ and Clarke, R and Clementi, E and Coccia, EM and Codogno, P and Cohen, E and Cohen, MM and Colasanti, T and Colasuonno, F and Colbert, RA and Colell, A and Ä�oliÄ�, M and Coll, NS and Collins, MO and Colombo, MI and Colón-Ramos, DA and Combaret, L and Comincini, S and Cominetti, MR and Consiglio, A and Conte, A and Conti, F and Contu, VR and Cookson, MR and Coombs, KM and Coppens, I and Corasaniti, MT and Corkery, DP and Cordes, N and Cortese, K and Costa, MDC and Costantino, S and Costelli, P and Coto-Montes, A and Crack, PJ and Crespo, JL and Criollo, A and Crippa, V and Cristofani, R and Csizmadia, T and Cuadrado, A and Cui, B and Cui, J and Cui, Y and Cui, Y and Culetto, E and Cumino, AC and Cybulsky, AV and Czaja, MJ and Czuczwar, SJ and Dâ��Adamo, S and Dâ��Amelio, M and Dâ��Arcangelo, D and Dâ��Lugos, AC and Dâ��Orazi, G and da Silva, JA and Dafsari, HS and Dagda, RK and Dagdas, Y and Daglia, M and Dai, X and Dai, Y and Dai, Y and Dal Col, J and Dalhaimer, P and Dalla Valle, L and Dallenga, T and Dalmasso, G and Damme, M and Dando, I and Dantuma, NP and Darling, AL and Das, H and Dasarathy, S and Dasari, SK and Dash, S and Daumke, O and Dauphinee, AN and Davies, JS and Dávila, VA and Davis, RJ and Davis, T and Dayalan Naidu, S and De Amicis, F and De Bosscher, K and De Felice, F and De Franceschi, L and De Leonibus, C and de Mattos Barbosa, MG and De Meyer, GRY and De Milito, A and De Nunzio, C and De Palma, C and De Santi, M and De Virgilio, C and De Zio, D and Debnath, J and DeBosch, BJ and Decuypere, J-P and Deehan, MA and Deflorian, G and DeGregori, J and Dehay, B and Del Rio, G and Delaney, JR and Delbridge, LMD and Delorme-Axford, E and Delpino, MV and Demarchi, F and Dembitz, V and Demers, ND and Deng, H and Deng, Z and Dengjel, J and Dent, P and Denton, D and DePamphilis, ML and Der, CJ and Deretic, V and Descoteaux, A and Devis, L and Devkota, S and Devuyst, O and Dewson, G and Dharmasivam, M and Dhiman, R and di Bernardo, D and Di Cristina, M and Di Domenico, F and Di Fazio, P and Di Fonzo, A and Di Guardo, G and Di Guglielmo, GM and Di Leo, L and Di Malta, C and Di Nardo, A and Di Rienzo, M and Di Sano, F and Diallinas, G and Diao, J and Diaz-Araya, G and DÃaz-Laviada, I and Dickinson, JM and Diederich, M and Dieudé, M and Dikic, I and Ding, S and Ding, W-X and Dini, L and DiniÄ�, J and Dinic, M and Dinkova-Kostova, AT and Dionne, MS and Distler, JHW and Diwan, A and Dixon, IMC and Djavaheri-Mergny, M and Dobrinski, I and Dobrovinskaya, O and Dobrowolski, R and Dobson, RCJ and Ä�okiÄ�, J and Dokmeci Emre, S and Donadelli, M and Dong, B and Dong, X and Dong, Z and Dorn II, GW and Dotsch, V and Dou, H and Dou, J and Dowaidar, M and Dridi, S and Drucker, L and Du, A and Du, C and Du, G and Du, H-N and Du, L-L and du Toit, A and Duan, S-B and Duan, X and Duarte, SP and Dubrovska, A and Dunlop, EA and Dupont, N and Durán, RV and Dwarakanath, BS and Dyshlovoy, SA and Ebrahimi-Fakhari, D and Eckhart, L and Edelstein, CL and Efferth, T and Eftekharpour, E and Eichinger, L and Eid, N and Eisenberg, T and Eissa, NT and Eissa, S and Ejarque, M and El Andaloussi, A and El-Hage, N and El-Naggar, S and Eleuteri, AM and El-Shafey, ES and Elgendy, M and Eliopoulos, AG and Elizalde, MM and Elks, PM and Elsasser, H-P and Elsherbiny, ES and Emerling, BM and Emre, NCT and Eng, CH and Engedal, N and Engelbrecht, A-M and Engelsen, AST and Enserink, JM and Escalante, R and Esclatine, A and Escobar-Henriques, M and Eskelinen, E-L and Espert, L and Eusebio, M-O and Fabrias, G and Fabrizi, C and Facchiano, A and Facchiano, F and Fadeel, B and Fader, C and Faesen, AC and Fairlie, WD and Falcó, A and Falkenburger, BH and Fan, D and Fan, J and Fan, Y and Fang, EF and Fang, Y and Fang, Y and Fanto, M and Farfel-Becker, T and Faure, M and Fazeli, G and Fedele, AO and Feldman, AM and Feng, D and Feng, J and Feng, L and Feng, Y and Feng, Y and Feng, W and Fenz Araujo, T and Ferguson, TA and Fernández, Ã�F and Fernandez-Checa, JC and Fernández-Veledo, S and Fernie, AR and Ferrante, Jr and Ferraresi, A and Ferrari, MF and Ferreira, JCB and Ferro-Novick, S and Figueras, A and Filadi, R and Filigheddu, N and Filippi-Chiela, E and Filomeni, G and Fimia, GM and Fineschi, V and Finetti, F and Finkbeiner, S and Fisher, EA and Fisher, PB and Flamigni, F and Fliesler, SJ and Flo, TH and Florance, I and Florey, O and Florio, T and Fodor, E and Follo, C and Fon, EA and Forlino, A and Fornai, F and Fortini, P and Fracassi, A and Fraldi, A and Franco, B and Franco, R and Franconi, F and Frankel, LB and Friedman, SL and Fröhlich, LF and Frühbeck, G and Fuentes, JM and Fujiki, Y and Fujita, N and Fujiwara, Y and Fukuda, M and Fulda, S and Furic, L and Furuya, N and Fusco, C and Gack, MU and Gaffke, L and Galadari, S and Galasso, A and Galindo, MF and Gallolu Kankanamalage, S and Galluzzi, L and Galy, V and Gammoh, N and Gan, B and Ganley, IG and Gao, F and Gao, H and Gao, M and Gao, P and Gao, S-J and Gao, W and Gao, X and Garcera, A and Garcia, MN and Garcia, VE and GarcÃa-Del Portillo, F and Garcia-Escudero, V and Garcia-Garcia, A and Garcia-Macia, M and GarcÃa-Moreno, D and Garcia-Ruiz, C and GarcÃa-Sanz, P and Garg, AD and Gargini, R and Garofalo, T and Garry, RF and Gassen, NC and Gatica, D and Ge, L and Ge, W and Geiss-Friedlander, R and Gelfi, C and Genschik, P and Gentle, IE and Gerbino, V and Gerhardt, C and Germain, K and Germain, M and Gewirtz, DA and Ghasemipour Afshar, E and Ghavami, S and Ghigo, A and Ghosh, M and Giamas, G and Giampietri, C and Giatromanolaki, A and Gibson, GE and Gibson, SB and Ginet, V and Giniger, E and Giorgi, C and Girao, H and Girardin, SE and Giridharan, M and Giuliano, S and Giulivi, C and Giuriato, S and Giustiniani, J and Gluschko, A and Goder, V and Goginashvili, A and Golab, J and Goldstone, DC and Golebiewska, A and Gomes, LR and Gomez, R and Gómez-Sánchez, R and Gomez-Puerto, MC and Gomez-Sintes, R and Gong, Q and Goni, FM and González-Gallego, J and Gonzalez-Hernandez, T and Gonzalez-Polo, RA and Gonzalez-Reyes, JA and González-RodrÃguez, P and Goping, IS and Gorbatyuk, MS and Gorbunov, NV and Görgülü, K and Gorojod, RM and Gorski, SM and Goruppi, S and Gotor, C and Gottlieb, RA and Gozes, I and Gozuacik, D and Graef, M and Gräler, MH and Granatiero, V and Grasso, D and Gray, JP and Green, DR and Greenhough, A and Gregory, SL and Griffin, EF and Grinstaff, MW and Gros, F and Grose, C and Gross, AS and Gruber, F and Grumati, P and Grune, T and Gu, X and Guan, J-L and Guardia, CM and Guda, K and Guerra, F and Guerri, C and Guha, P and Guillén, C and Gujar, S and Gukovskaya, A and Gukovsky, I and Gunst, J and Günther, A and Guntur, AR and Guo, C and Guo, C and Guo, H and Guo, L-W and Guo, M and Gupta, P and Gupta, SK and Gupta, S and Gupta, VB and Gupta, V and Gustafsson, AB and Gutterman, DD and HB, R and Haapasalo, A and Haber, JE and HaÄ�, A and Hadano, S and Hafrén, AJ and Haidar, M and Hall, BS and Halldén, G and Hamacher-Brady, A and Hamann, A and Hamasaki, M and Han, W and Hansen, M and Hanson, PI and Hao, Z and Harada, M and Harhaji-Trajkovic, L and Hariharan, N and Haroon, N and Harris, J and Hasegawa, T and Hasima Nagoor, N and Haspel, JA and Haucke, V and Hawkins, WD and Hay, BA and Haynes, CM and Hayrabedyan, SB and Hays, TS and He, C and He, Q and He, R-R and He, Y-W and He, Y-Y and Heakal, Y and Heberle, AM and Hejtmancik, JF and Helgason, GV and Henkel, V and Herb, M and Hergovich, A and Herman-Antosiewicz, A and Hernández, A and Hernandez, C and Hernandez-Diaz, S and Hernandez-Gea, V and Herpin, A and Herreros, J and Hervás, JH and Hesselson, D and Hetz, C and Heussler, VT and Higuchi, Y and Hilfiker, S and Hill, JA and Hlavacek, WS and Ho, EA and Ho, IHT and Ho, PW-L and Ho, S-L and Ho, WY and Hobbs, GA and Hochstrasser, M and Hoet, PHM and Hofius, D and Hofman, P and Höhn, A and Holmberg, CI and Hombrebueno, JR and Yi-Ren Hong, C-WH and Hooper, LV and Hoppe, T and Horos, R and Hoshida, Y and Hsin, I-L and Hsu, H-Y and Hu, B and Hu, D and Hu, L-F and Hu, MC and Hu, R and Hu, W and Hu, Y-C and Hu, Z-W and Hua, F and Hua, J and Hua, Y and Huan, C and Huang, C and Huang, C and Huang, C and Huang, C and Huang, H and Huang, K and Huang, MLH and Huang, R and Huang, S and Huang, T and Huang, X and Huang, YJ and Huber, TB and Hubert, V and Hubner, CA and Hughes, SM and Hughes, WE and Humbert, M and Hummer, G and Hurley, JH and Hussain, S and Hussain, S and Hussey, PJ and Hutabarat, M and Hwang, H-Y and Hwang, S and Ieni, A and Ikeda, F and Imagawa, Y and Imai, Y and Imbriano, C and Imoto, M and Inman, DM and Inoki, K and Iovanna, J and Iozzo, RV and Ippolito, G and Irazoqui, JE and Iribarren, P and Ishaq, M and Ishikawa, M and Ishimwe, N and Isidoro, C and Ismail, N and Issazadeh-Navikas, S and Itakura, E and Ito, D and Ivankovic, D and Ivanova, S and Iyer, AKV and Izquierdo, JM and Izumi, M and Jäättelä, M and Jabir, MS and Jackson, WT and Jacobo-Herrera, N and Jacomin, A-C and Jacquin, E and Jadiya, P and Jaeschke, H and Jagannath, C and Jakobi, AJ and Jakobsson, J and Janji, B and Jansen-Dürr, P and Jansson, PJ and Jantsch, J and Januszewski, S and Jassey, A and Jean, S and Jeltsch-David, H and Jendelova, P and Jenny, A and Jensen, TE and Jessen, N and Jewell, JL and Ji, J and Jia, L and Jia, R and Jiang, L and Jiang, Q and Jiang, R and Jiang, T and Jiang, X and Jiang, Y and Jimenez-Sanchez, M and Jin, E-J and Jin, F and Jin, H and Jin, L and Jin, L and Jin, M and Jin, S and Jo, E-K and Joffre, C and Johansen, T and Johnson, GVW and Johnston, SA and Jokitalo, E and Jolly, MK and Joosten, LAB and Jordan, J and Joseph, B and Ju, D and Ju, J-S and Ju, J and Juárez, E and Judith, D and Juhász, G and Jun, Y and Jung, CH and Jung, S-C and Jung, YK and Jungbluth, H and Jungverdorben, J and Just, S and Kaarniranta, K and Kaasik, A and Kabuta, T and Kaganovich, D and Kahana, A and Kain, R and Kajimura, S and Kalamvoki, M and Kalia, M and Kalinowski, DS and Kaludercic, N and Kalvari, I and Kaminska, J and Kaminskyy, VO and Kanamori, H and Kanasaki, K and Kang, C and Kang, R and Kang, SS and Kaniyappan, S and Kanki, T and Kanneganti, T-D and Kanthasamy, AG and Kanthasamy, A and Kantorow, M and Kapuy, O and Karamouzis, MV and Karim, MR and Karmakar, P and Katare, RG and Kato, M and Kaufmann, SHE and Kauppinen, A and Kaushal, GP and Kaushik, S and Kawasaki, K and Kazan, K and Ke, P-Y and Keating, DJ and Keber, U and Kehrl, JH and Keller, KE and Keller, CW and Kemper, JK and Kenific, CM and Kepp, O and Kermorgant, S and Kern, A and Ketteler, R and Keulers, TG and Khalfin, B and Khalil, H and Khambu, B and Khan, SY and Khandelwal, VKM and Khandia, R and Kho, W and Khobrekar, NV and Khuansuwan, S and Khundadze, M and Killackey, SA and Kim, D and Kim, DR and Kim, D-H and Kim, D-E and Kim, EY and Kim, E-K and Kim, H-R and Kim, H-S and Kim, Hyung-Ryong and Kim, JH and Kim, JK and Kim, J-H and Kim, J and Kim, JH and Kim, KI and Kim, PK and Kim, S-J and Kimball, SR and Kimchi, A and Kimmelman, AC and Kimura, T and King, MA and Kinghorn, KJ and Kinsey, CG and Kirkin, V and Kirshenbaum, LA and Kiselev, SL and Kishi, S and Kitamoto, K and Kitaoka, Y and Kitazato, K and Kitsis, RN and Kittler, JT and Kjaerulff, O and Klein, PS and Klopstock, T and Klucken, J and Knævelsrud, H and Knorr, RL and Ko, BCB and Ko, F and Ko, J-L and Kobayashi, H and Kobayashi, S and Koch, I and Koch, JC and Koenig, U and Kögel, D and Koh, YH and Koike, M and Kohlwein, SD and Kocaturk, NM and Komatsu, M and König, J and Kono, T and Kopp, BT and Korcsmaros, T and Korkmaz, G and Korolchuk, VI and Korsnes, MS and Koskela, A and Kota, J and Kotake, Y and Kotler, ML and Kou, Y and Koukourakis, MI and Koustas, E and Kovacs, AL and Kovács, T and Koya, D and Kozako, T and Kraft, C and Krainc, D and Krämer, H and Krasnodembskaya, AD and Kretz-Remy, C and Kroemer, G and Ktistakis, NT and Kuchitsu, K and Kuenen, S and Kuerschner, L and Kukar, T and Kumar, A and Kumar, A and Kumar, D and Kumar, D and Kumar, S and Kume, S and Kumsta, C and Kundu, CN and Kundu, M and Kunnumakkara, AB and Kurgan, L and Kutateladze, TG and Kutlu, O and Kwak, S and Kwon, HJ and Kwon, TK and Kwon, YT and Kyrmizi, I and La Spada, A and Labonté, P and Ladoire, S and Laface, I and Lafont, F and Lagace, DC and Lahiri, V and Lai, Z and Laird, AS and Lakkaraju, A and Lamark, T and Lan, S-H and Landajuela, A and Lane, DJR and Lane, JD and Lang, CH and Lange, C and Langel, Ã� and Langer, R and Lapaquette, P and Laporte, J and LaRusso, NF and Lastres-Becker, I and Lau, WCY and Laurie, GW and Lavandero, S and Law, BYK and Law, HK-W and Layfield, R and Le, W and Le Stunff, H and Leary, AY and Lebrun, J-J and Leck, LYW and Leduc-Gaudet, J-P and Lee, C and Lee, C-P and Lee, D-H and Lee, EB and Lee, EF and Lee, GM and Lee, H-J and Lee, HK and Lee, JM and Lee, JS and Lee, J-A and Lee, J-Y and Lee, JH and Lee, M and Lee, MG and Lee, MJ and Lee, M-S and Lee, SY and Lee, S-J and Lee, SY and Lee, SB and Lee, WH and Lee, Y-R and Lee, Y-H and Lee, Y and Lefebvre, C and Legouis, R and Lei, YL and Lei, Y and Leikin, S and Leitinger, G and Lemus, L and Leng, S and Lenoir, O and Lenz, G and Lenz, HJ and Lenzi, P and León, Y and Leopoldino, AM and Leschczyk, C and Leskelä, S and Letellier, E and Leung, C-T and Leung, PS and Leventhal, JS and Levine, B and Lewis, PA and Ley, K and Li, B and Li, D-Q and Li, J and Li, J and Li, J and Li, K and Li, L and Li, M and Li, M and Li, M and Li, M and Li, M and Li, P-L and Li, M-Q and Li, Q and Li, S and Li, T and Li, W and Li, W and Li, X and Li, Y-P and Li, Y and Li, Z and Li, Z and Li, Z and Lian, J and Liang, C and Liang, Q and Liang, W and Liang, Y and Liang, Y and Liao, G and Liao, L and Liao, M and Liao, Y-F and Librizzi, M and Lie, PPY and Lilly, MA and Lim, HJ and Lima, TRR and Limana, F and Lin, C and Lin, C-W and Lin, D-S and Lin, F-C and Lin, JD and Lin, KM and Lin, K-H and Lin, L-T and Lin, P-H and Lin, Q and Lin, S and Lin, S-J and Lin, W and Lin, X and Lin, Y-X and Lin, Y-S and Linden, R and Lindner, P and Ling, S-C and Lingor, P and Linnemann, AK and Liou, Y-C and Lipinski, MM and LipovÅ¡ek, S and Lira, VA and Lisiak, N and Liton, PB and Liu, C and Liu, C-H and Liu, C-F and Liu, CH and Liu, F and Liu, H and Liu, H-S and Liu, H-F and Liu, H and Liu, J and Liu, J and Liu, J and Liu, L and Liu, L and Liu, M and Liu, Q and Liu, W and Liu, W and Liu, X-H and Liu, X and Liu, X and Liu, X and Liu, X and Liu, Y and Liu, Y and Liu, Y and Liu, Y and Liu, Y and Livingston, JA and Lizard, G and Lizcano, JM and Ljubojevic-Holzer, S and LLeonart, ME and Llobet-Navà s, D and Llorente, A and Lo, CH and Lobato-Márquez, D and Long, Q and Long, YC and Loos, B and Loos, JA and López, MG and López-Doménech, G and López-Guerrero, JA and López-Jiménez, AT and López-Pérez, Ã� and López-Valero, I and Lorenowicz, MJ and Lorente, M and Lorincz, P and Lossi, L and Lotersztajn, S and Lovat, PE and Lovell, JF and Lovy, A and LÅ�w, P and Lu, G and Lu, H and Lu, J-H and Lu, J-J and Lu, M and Lu, S and Luciani, A and Lucocq, JM and Ludovico, P and Luftig, MA and Luhr, M and Luis-Ravelo, D and Lum, JJ and Luna-Dulcey, L and Lund, AH and Lund, VK and Lünemann, JD and Lüningschrör, P and Luo, H and Luo, R and Luo, S and Luo, Z and Luparello, C and Lüscher, B and Luu, L and Lyakhovich, A and Lyamzaev, KG and Lystad, AH and Lytvynchuk, L and Ma, AC and Ma, C and Ma, M and Ma, N-F and Ma, Q-H and Ma, X and Ma, Y and Ma, Z and MacDougald, OA and Macian, F and MacIntosh, GC and MacKeigan, JP and Macleod, KF and Maday, S and Madeo, F and Madesh, M and Madl, T and Madrigal-Matute, J and Maeda, A and Maejima, Y and Magarinos, M and Mahavadi, P and Maiani, E and Maiese, K and Maiti, P and Maiuri, MC and Majello, B and Major, MB and Makareeva, E and Malik, F and Mallilankaraman, K and Malorni, W and Maloyan, A and Mammadova, N and Man, GCW and Manai, F and Mancias, JD and Mandelkow, E-M and Mandell, MA and Manfredi, AA and Manjili, MH and Manjithaya, R and Manque, P and Manshian, BB and Manzano, R and Manzoni, C and Mao, K and Marchese, C and Marchetti, S and Marconi, AM and Marcucci, F and Mardente, S and Mareninova, OA and Margeta, M and Mari, M and Marinelli, S and Marinelli, O and Mariño, G and Mariotto, S and Marshall, RS and Marten, MR and Martens, S and Martin, APJ and Martin, KR and Martin, S and Martin, S and MartÃn-Segura, A and MartÃn-Acebes, MA and Martin-Burriel, I and Martin-Rincon, M and Martin-Sanz, P and Martina, JA and Martinet, W and Martinez, A and Martinez, A and Martinez, J and Martinez Velazquez, M and Martinez-Lopez, N and Martinez-Vicente, M and Martins, DO and Martins, JO and Martins, WK and Martins-Marques, T and Marzetti, E and Masaldan, S and Masclaux-Daubresse, C and Mashek, DG and Massa, V and Massieu, L and Masson, GR and Masuelli, L and Masyuk, AI and Masyuk, TV and Matarrese, P and Matheu, A and Matoba, S and Matsuzaki, S and Mattar, P and Matte, A and Mattoscio, D and Mauriz, JL and Mauthe, M and Mauvezin, C and Maverakis, E and Maycotte, P and Mayer, J and Mazzoccoli, G and Mazzoni, C and Mazzulli, JR and McCarty, N and McDonald, C and McGill, MR and McKenna, SL and McLaughlin, B and McLoughlin, F and McNiven, MA and McWilliams, TG and Mechta-Grigoriou, F and Medeiros, TC and Medina, DL and Megeney, LA and Megyeri, K and Mehrpour, M and Mehta, JL and Meijer, AJ and Meijer, AH and Mejlvang, J and Meléndez, A and Melk, A and Memisoglu, G and Mendes, AF and Meng, D and Meng, F and Meng, T and Menna-Barreto, R and Menon, MB and Mercer, C and Mercier, AE and Mergny, J-L and Merighi, A and Merkley, SD and Merla, G and Meske, V and Mestre, AC and Metur, SP and Meyer, C and Meyer, H and Mi, W and Mialet-Perez, J and Miao, J and Micale, L and Miki, Y and Milan, E and Milczarek, M and Miller, DL and Miller, SI and Miller, S and Millward, SW and Milosevic, I and Minina, EA and Mirzaei, H and Mirzaei, HR and Mirzaei, M and Mishra, A and Mishra, N and Mishra, PK and Misirkic Marjanovic, M and Misasi, R and Misra, A and Misso, G and Mitchell, C and Mitou, G and Miura, T and Miyamoto, S and Miyazaki, M and Miyazaki, M and Miyazaki, T and Miyazawa, K and Mizushima, N and Mogensen, TH and Mograbi, B and Mohammadinejad, R and Mohamud, Y and Mohanty, A and Mohapatra, S and Möhlmann, T and Mohmmed, A and Moles, A and Moley, KH and Molinari, M and Mollace, V and Møller, AB and Mollereau, B and Mollinedo, F and Montagna, C and Monteiro, MJ and Montella, A and Montes, LR and Montico, B and Mony, VK and Monzio Compagnoni, G and Moore, MN and Moosavi, MA and Mora, AL and Mora, M and Morales-Alamo, D and Moratalla, R and Moreira, PI and Morelli, E and Moreno, S and Moreno-Blas, D and Moresi, V and Morga, B and Morgan, AH and Morin, F and Morishita, H and Moritz, OL and Moriyama, M and Moriyasu, Y and Morleo, M and Morselli, E and Moruno-Manchon, JF and Moscat, J and Mostowy, S and Motori, E and Moura, AF and Moustaid-Moussa, N and Mrakovcic, M and Muciño-Hernández, G and Mukherjee, A and Mukhopadhyay, S and Mulcahy Levy, JM and Mulero, V and Muller, S and Münch, C and Munjal, A and Munoz-Canoves, P and Muñoz-Galdeano, T and Münz, C and Murakawa, T and Muratori, C and Murphy, BM and Murphy, JP and Murthy, A and Myöhänen, TT and Mysorekar, IU and Mytych, J and Nabavi, SM and Nabissi, M and Nagy, P and Nah, J and Nahimana, A and Nakagawa, I and Nakamura, K and Nakatogawa, H and Nandi, SS and Nanjundan, M and Nanni, M and Napolitano, G and Nardacci, R and Narita, M and Nassif, M and Nathan, I and Natsumeda, M and Naude, RJ and Naumann, C and Naveiras, O and Navid, F and Nawrocki, ST and Nazarko, TY and Nazio, F and Negoita, F and Neill, T and Neisch, AL and Neri, LM and Netea, MG and Neubert, P and Neufeld, TP and Neumann, D and Neutzner, A and Newton, PT and Ney, PA and Nezis, IP and Ng, CCW and Ng, TB and Nguyen, HTT and Nguyen, LT and Ni, H-M and Nà Cheallaigh, C and Ni, Z and Nicolao, MC and Nicoli, F and Nieto-Diaz, M and Nilsson, P and Ning, S and Niranjan, R and Nishimune, H and Niso-Santano, M and Nixon, RA and Nobili, A and Nobrega, C and Noda, T and Nogueira-Recalde, U and Nolan, TM and Nombela, I and Novak, I and Novoa, B and Nozawa, T and Nukina, N and Nussbaum-Krammer, C and Nylandsted, J and Oâ��Donovan, TR and Oâ��Leary, SM and Oâ��Rourke, EJ and Oâ��Sullivan, MP and Oâ��Sullivan, TE and Oddo, S and Oehme, I and Ogawa, M and Ogier-Denis, E and Ogmundsdottir, MH and Ogretmen, B and Oh, GT and Oh, S-H and Oh, YJ and Ohama, T and Ohashi, Y and Ohmuraya, M and Oikonomou, V and Ojha, R and Okamoto, K and Okazawa, H and Oku, M and Oliván, S and Oliveira, JMA and Ollmann, M and Olzmann, JA and Omari, S and Omary, MB and Ã�nal, G and Ondrej, M and Ong, S-B and Ong, S-G and Onnis, A and Orellana, JA and Orellana-Muñoz, S and Ortega-Villaizan, MDM and Ortiz-Gonzalez, XR and Ortona, E and Osiewacz, HD and Osman, A-HK and Osta, R and Otegui, MS and Otsu, K and Ott, C and Ottobrini, L and Ou, J-HJ and Outeiro, TF and Oynebraten, I and Ozturk, M and Pagès, G and Pahari, S and Pajares, M and Pajvani, UB and Pal, R and Paladino, S and Pallet, N and Palmieri, M and Palmisano, G and Palumbo, C and Pampaloni, F and Pan, L and Pan, Q and Pan, W and Pan, X and Panasyuk, G and Pandey, R and Pandey, UB and Pandya, V and Paneni, F and Pang, SY and Panzarini, E and Papademetrio, DL and Papaleo, E and Papinski, D and Papp, D and Park, EC and Park, HT and Park, J-M and Park, J-I and Park, JT and Park, J and Park, SC and Park, S-Y and Parola, AH and Parys, JB and Pasquier, A and Pasquier, B and Passos, JF and Pastore, N and Patel, HH and Patschan, D and Pattingre, S and Pedraza-Alva, G and Pedraza-Chaverri, J and Pedrozo, Z and Pei, G and Pei, J and Peled-Zehavi, H and Pellegrini, JM and Pelletier, J and Peñalva, MA and Peng, D and Peng, Y and Penna, F and Pennuto, M and Pentimalli, F and Pereira, CMF and Pereira, GJS and Pereira, LC and Pereira de Almeida, L and Perera, ND and Pérez-Lara, Ã� and Perez-Oliva, AB and Pérez-Pérez, ME and Periyasamy, P and Perl, A and Perrotta, C and Perrotta, I and Pestell, RG and Petersen, M and Petrache, I and Petrovski, G and Pfirrmann, T and Pfister, AS and Philips, JA and Pi, H and Picca, A and Pickrell, AM and Picot, S and Pierantoni, GM and Pierdominici, M and Pierre, P and Pierrefite-Carle, V and Pierzynowska, K and Pietrocola, F and Pietruczuk, M and Pignata, C and Pimentel-Muiños, FX and Pinar, M and Pinheiro, RO and Pinkas-Kramarski, R and Pinton, P and Pircs, K and Piya, S and Pizzo, P and Plantinga, TS and Platta, HW and Plaza-Zabala, A and Plomann, M and Plotnikov, EY and Plun-Favreau, H and Pluta, R and Pocock, R and Pöggeler, S and Pohl, C and Poirot, M and Poletti, A and Ponpuak, M and Popelka, H and Popova, B and Porta, H and Porte Alcon, S and Portilla-Fernandez, E and Post, M and Potts, MB and Poulton, J and Powers, T and Prahlad, V and Prajsnar, TK and Praticò, D and Prencipe, R and Priault, M and Proikas-Cezanne, T and Promponas, VJ and Proud, CG and Puertollano, R and Puglielli, L and Pulinilkunnil, T and Puri, D and Puri, R and Puyal, J and Qi, X and Qi, Y and Qian, W and Qiang, L and Qiu, Y and Quadrilatero, J and Quarleri, J and Raben, N and Rabinowich, H and Ragona, D and Ragusa, MJ and Rahimi, N and Rahmati, M and Raia, V and Raimundo, N and Rajasekaran, N-S and Ramachandra Rao, S and Rami, A and RamÃrez-Pardo, I and Ramsden, DB and Randow, F and Rangarajan, PN and Ranieri, D and Rao, H and Rao, L and Rao, R and Rathore, S and Ratnayaka, JA and Ratovitski, EA and Ravanan, P and Ravegnini, G and Ray, SK and Razani, B and Rebecca, V and Reggiori, F and Régnier-Vigouroux, A and Reichert, AS and Reigada, D and Reiling, JH and Rein, T and Reipert, S and Rekha, RS and Ren, H and Ren, J and Ren, W and Renault, T and Renga, G and Reue, K and Rewitz, K and Ribeiro de Andrade Ramos, B and Riazuddin, SA and Ribeiro-Rodrigues, TM and Ricci, J-E and Ricci, R and Riccio, V and Richardson, DR and Rikihisa, Y and Risbud, MV and Risueño, RM and Ritis, K and Rizza, S and Rizzuto, R and Roberts, HC and Roberts, LD and Robinson, KJ and Roccheri, MC and Rocchi, S and Rodney, GG and Rodrigues, T and Rodrigues Silva, VR and Rodriguez, A and Rodriguez-Barrueco, R and Rodriguez-Henche, N and Rodriguez-Rocha, H and Roelofs, J and Rogers, RS and Rogov, VV and Rojo, AI and Rolka, K and Romanello, V and Romani, L and Romano, A and Romano, PS and Romeo-Guitart, D and Romero, LC and Romero, M and Roney, JC and Rongo, C and Roperto, S and Rosenfeldt, MT and Rosenstiel, P and Rosenwald, AG and Roth, KA and Roth, L and Roth, S and Rouschop, KMA and Roussel, BD and Roux, S and Rovere-Querini, P and Roy, A and Rozieres, A and Ruano, D and Rubinsztein, DC and Rubtsova, MP and Ruckdeschel, K and Ruckenstuhl, C and Rudolf, E and Rudolf, R and Ruggieri, A and Ruparelia, AA and Rusmini, P and Russell, RR and Russo, GL and Russo, M and Russo, R and Ryabaya, OO and Ryan, KM and Ryu, K-Y and Sabater-Arcis, M and Sachdev, U and Sacher, M and Sachse, C and Sadhu, A and Sadoshima, J and Safren, N and Saftig, P and Sagona, AP and Sahay, G and Sahebkar, A and Sahin, M and Sahin, O and Sahni, S and Saito, N and Saito, S and Saito, T and Sakai, R and Sakai, Y and Sakamaki, J-I and Saksela, K and Salazar, G and Salazar-Degracia, A and Salekdeh, GH and Saluja, AK and Sampaio-Marques, B and Sanchez, MC and Sanchez-Alcazar, JA and Sanchez-Vera, V and Sancho-Shimizu, V and Sanderson, JT and Sandri, M and Santaguida, S and Santambrogio, L and Santana, MM and Santoni, G and Sanz, A and Sanz, P and Saran, S and Sardiello, M and Sargeant, TJ and Sarin, A and Sarkar, C and Sarkar, S and Sarrias, M-R and Sarkar, S and Sarmah, DT and Sarparanta, J and Sathyanarayan, A and Sathyanarayanan, R and Scaglione, KM and Scatozza, F and Schaefer, L and Schafer, ZT and Schaible, UE and Schapira, AHV and Scharl, M and Schatzl, HM and Schein, CH and Scheper, W and Scheuring, D and Schiaffino, MV and Schiappacassi, M and Schindl, R and Schlattner, U and Schmidt, O and Schmitt, R and Schmidt, SD and Schmitz, I and Schmukler, E and Schneider, A and Schneider, BE and Schober, R and Schoijet, AC and Schott, MB and Schramm, M and Schröder, B and Schuh, K and Schüller, C and Schulze, RJ and Schürmanns, L and Schwamborn, JC and Schwarten, M and Scialo, F and Sciarretta, S and Scott, MJ and Scotto, KW and Scovassi, AI and Scrima, A and Scrivo, A and Sebastian, D and Sebti, S and Sedej, S and Segatori, L and Segev, N and Seglen, PO and Seiliez, I and Seki, E and Selleck, SB and Sellke, FW and Selsby, JT and Sendtner, M and Senturk, S and Seranova, E and Sergi, C and Serra-Moreno, R and Sesaki, H and Settembre, C and Setty, SRG and Sgarbi, G and Sha, O and Shacka, JJ and Shah, JA and Shang, D and Shao, C and Shao, F and Sharbati, S and Sharkey, LM and Sharma, D and Sharma, G and Sharma, K and Sharma, P and Sharma, S and Shen, H-M and Shen, H and Shen, J and Shen, M and Shen, W and Shen, Z and Sheng, R and Sheng, Z and Sheng, Z-H and Shi, J and Shi, X and Shi, Y-H and Shiba-Fukushima, K and Shieh, J-J and Shimada, Y and Shimizu, S and Shimozawa, M and Shintani, T and Shoemaker, CJ and Shojaei, S and Shoji, I and Shravage, BV and Shridhar, V and Shu, C-W and Shu, H-B and Shui, K and Shukla, AK and Shutt, TE and Sica, V and Siddiqui, A and Sierra, A and Sierra-Torre, V and Signorelli, S and Sil, P and Silva, BJDA and Silva, JD and Silva-Pavez, E and Silvente-Poirot, S and Simmonds, RE and Simon, AK and Simon, H-U and Simons, M and Singh, A and Singh, LP and Singh, R and Singh, SV and Singh, SK and Singh, SB and Singh, S and Singh, SP and Sinha, D and Sinha, RA and Sinha, S and Sirko, A and Sirohi, K and Sivridis, EL and Skendros, P and Skirycz, A and Slaninová, I and Smaili, SS and Smertenko, A and Smith, MD and Soenen, SJ and Sohn, EJ and Sok, SPM and Solaini, G and Soldati, T and Soleimanpour, SA and Soler, RM and Solovchenko, A and Somarelli, JA and Sonawane, A and Song, F and Song, HK and Song, J-X and Song, K and Song, Z and Soria, LR and Sorice, M and Soukas, AA and Soukup, S-F and Sousa, D and Sousa, N and Spagnuolo, PA and Spector, SA and Srinivas Bharath, MM and St Clair, D and Stagni, V and Staiano, L and Stalnecker, CA and Stankov, MV and Stathopulos, PB and Stefan, K and Stefan, SM and Stefanis, L and Steffan, JS and Steinkasserer, A and Stenmark, H and Sterneckert, J and Stevens, C and Stoka, V and Storch, S and Stork, B and Strappazzon, F and Strohecker, AM and Stupack, DG and Su, H and Su, L-Y and Su, L and Suarez-Fontes, AM and Subauste, CS and Subbian, S and Subirada, PV and Sudhandiran, G and Sue, CM and Sui, X and Summers, C and Sun, G and Sun, J and Sun, K and Sun, M-X and Sun, Q and Sun, Y and Sun, Z and Sunahara, KKS and Sundberg, E and Susztak, K and Sutovsky, P and Suzuki, H and Sweeney, G and Symons, JD and Sze, SCW and Szewczyk, NJ and TabÄ�cka-Å�onczynska, A and Tabolacci, C and Tacke, F and Taegtmeyer, H and Tafani, M and Tagaya, M and Tai, H and Tait, SWG and Takahashi, Y and Takats, S and Talwar, P and Tam, C and Tam, SY and Tampellini, D and Tamura, A and Tan, CT and Tan, E-K and Tan, Y-Q and Tanaka, M and Tanaka, M and Tang, D and Tang, J and Tang, T-S and Tanida, I and Tao, Z and Taouis, M and Tatenhorst, L and Tavernarakis, N and Taylor, A and Taylor, GA and Taylor, JM and Tchetina, E and Tee, AR and Tegeder, I and Teis, D and Teixeira, N and Teixeira-Clerc, F and Tekirdag, KA and Tencomnao, T and Tenreiro, S and Tepikin, AV and Testillano, PS and Tettamanti, G and Tharaux, P-L and Thedieck, K and Thekkinghat, AA and Thellung, S and Thinwa, JW and Thirumalaikumar, VP and Thomas, SM and Thomes, PG and Thorburn, A and Thukral, L and Thum, T and Thumm, M and Tian, L and Tichy, A and Till, A and Timmerman, V and Titorenko, VI and Todi, SV and Todorova, K and Toivonen, JM and Tomaipitinca, L and Tomar, D and Tomas-Zapico, C and TomiÄ�, S and Tong, BC-K and Tong, C and Tong, X and Tooze, SA and Torgersen, ML and Torii, S and Torres-López, L and Torriglia, A and Towers, CG and Towns, R and Toyokuni, S and Trajkovic, V and Tramontano, D and Tran, Q-G and Travassos, LH and Trelford, CB and Tremel, S and Trougakos, IP and Tsao, BP and Tschan, MP and Tse, H-F and Tse, TF and Tsugawa, H and Tsvetkov, AS and Tumbarello, DA and Tumtas, Y and Tuñón, MJ and Turcotte, S and Turk, B and Turk, V and Turner, BJ and Tuxworth, RI and Tyler, JK and Tyutereva, EV and Uchiyama, Y and Ugun-Klusek, A and Uhlig, HH and UÅ�amek-KozioÅ�, M and Ulasov, IV and Umekawa, M and Ungermann, C and Unno, R and Urbe, S and Uribe-Carretero, E and Ã�stün, S and Uversky, VN and Vaccari, T and Vaccaro, MI and Vahsen, BF and Vakifahmetoglu-Norberg, H and Valdor, R and Valente, MJ and Valko, A and Vallee, RB and Valverde, AM and Van den Berghe, G and van der Veen, S and Van Kaer, L and van Loosdregt, J and van Wijk, SJL and Vandenberghe, W and Vanhorebeek, I and Vannier-Santos, MA and Vannini, N and Vanrell, MC and Vantaggiato, C and Varano, G and Varela-Nieto, I and Varga, M and Vasconcelos, MH and Vats, S and Vavvas, DG and Vega-Naredo, I and Vega-Rubin-de-Celis, S and Velasco, G and Velázquez, AP and Vellai, T and Vellenga, E and Velotti, F and Verdier, M and Verginis, P and Vergne, I and Verkade, P and Verma, M and Verstreken, P and Vervliet, T and Vervoorts, J and Vessoni, AT and Victor, VM and Vidal, M and Vidoni, C and Vieira, OV and Vierstra, RD and Viganó, S and Vihinen, H and Vijayan, V and Vila, M and Vilar, M and Villalba, JM and Villalobo, A and Villarejo-Zori, B and Villarroya, F and Villarroya, J and Vincent, O and Vindis, C and Viret, C and Viscomi, MT and Visnjic, D and Vitale, I and Vocadlo, DJ and Voitsekhovskaja, OV and Volonté, C and Volta, M and Vomero, M and Von Haefen, C and Vooijs, MA and Voos, W and Vucicevic, L and Wade-Martins, R and Waguri, S and Waite, KA and Wakatsuki, S and Walker, DW and Walker, MJ and Walker, SA and Walter, J and Wandosell, FG and Wang, B and Wang, C-Y and Wang, C and Wang, C and Wang, C and Wang, C-Y and Wang, D and Wang, F and Wang, F and Wang, F and Wang, G and Wang, H and Wang, H and Wang, H and Wang, H-G and Wang, J and Wang, J and Wang, J and Wang, J and Wang, K and Wang, L and Wang, L and Wang, MH and Wang, M and Wang, N and Wang, P and Wang, P and Wang, P and Wang, P and Wang, QJ and Wang, Q and Wang, QK and Wang, QA and Wang, W-T and Wang, W and Wang, X and Wang, X and Wang, Y and Wang, Y and Wang, Y and Wang, Y-Y and Wang, Y and Wang, Y and Wang, Y and Wang, Y and Wang, Z and Wang, Z and Wang, Z and Warnes, G and Warnsmann, V and Watada, H and Watanabe, E and Watchon, M and WawrzyÅ�ska, A and Weaver, TE and Wegrzyn, G and Wehman, AM and Wei, H and Wei, L and Wei, T and Wei, Y and Weiergräber, OH and Weihl, CC and Weindl, G and Weiskirchen, R and Wells, A and Wen, RH and Wen, X and Werner, A and Weykopf, B and Wheatley, SP and Whitton, JL and Whitworth, AJ and Wiktorska, K and Wildenberg, ME and Wileman, T and Wilkinson, S and Willbold, D and Williams, B and Williams, RSB and Williams, RL and Williamson, PR and Wilson, RA and Winner, B and Winsor, NJ and Witkin, SS and Wodrich, H and Woehlbier, U and Wollert, T and Wong, E and Wong, JH and Wong, RW and Wong, VKW and Wong, WW-L and Wu, A-G and Wu, C and Wu, J and Wu, J and Wu, KK and Wu, M and Wu, S-Y and Wu, S and Wu, S-Y and Wu, S and Wu, WKK and Wu, X and Wu, X and Wu, Y-W and Wu, Y and Xavier, RJ and Xia, H and Xia, L and Xia, Z and Xiang, G and Xiang, J and Xiang, M and Xiang, W and Xiao, B and Xiao, G and Xiao, H and Xiao, H-T and Xiao, J and Xiao, L and Xiao, S and Xiao, Y and Xie, B and Xie, C-M and Xie, M and Xie, Y and Xie, Z and Xie, Z and Xilouri, M and Xu, C and Xu, E and Xu, H and Xu, J and Xu, J and Xu, L and Xu, WW and Xu, X and Xue, Y and Yakhine-Diop, SMS and Yamaguchi, M and Yamaguchi, O and Yamamoto, A and Yamashina, S and Yan, S and Yan, S-J and Yan, Z and Yanagi, Y and Yang, C and Yang, D-S and Yang, H and Yang, H-T and Yang, H and Yang, J-M and Yang, J and Yang, J and Yang, L and Yang, L and Yang, M and Yang, P-M and Yang, Q and Yang, S and Yang, S and Yang, S-F and Yang, W and Yang, WY and Yang, X and Yang, X and Yang, Y and Yang, Y and Yao, H and Yao, S and Yao, X and Yao, Y-G and Yao, Y-M and Yasui, T and Yazdankhah, M and Yen, PM and Yi, C and Yin, X-M and Yin, Y and Yin, Z and Yin, Z and Ying, M and Ying, Z and Yip, CK and Yiu, SPT and Yoo, YH and Yoshida, K and Yoshii, SR and Yoshimori, T and Yousefi, B and Yu, B and Yu, H and Yu, J and Yu, J and Yu, L and Yu, M-L and Yu, S-W and Yu, VC and Yu, WH and Yu, Z and Yu, Z and Yuan, J and Yuan, L-Q and Yuan, S and Yuan, S-SF and Yuan, Y and Yuan, Z and Yue, J and Yue, Z and Yun, J and Yung, RL and Zacks, DN and Zaffagnini, G and Zambelli, VO and Zanella, I and Zang, QS and Zanivan, S and Zappavigna, S and Zaragoza, P and Zarbalis, KS and Zarebkohan, A and Zarrouk, A and Zeitlin, SO and Zeng, J and Zeng, J-D and Žerovnik, E and Zhan, L and Zhang, B and Zhang, DD and Zhang, H and Zhang, H and Zhang, H and Zhang, H and Zhang, H and Zhang, H and Zhang, H and Zhang, H-L and Zhang, J and Zhang, J and Zhang, J-P and Zhang, KYB and Zhang, LW and Zhang, L and Zhang, L and Zhang, L and Zhang, L and Zhang, M and Zhang, P and Zhang, S and Zhang, W and Zhang, X and Zhang, X-W and Zhang, X and Zhang, X and Zhang, X and Zhang, X and Zhang, XD and Zhang, Y and Zhang, Y and Zhang, Y and Zhang, Y-D and Zhang, Y and Zhang, Y-Y and Zhang, Y and Zhang, Z and Zhang, Z and Zhang, Z and Zhang, Z and Zhang, Z and Zhang, Z and Zhao, H and Zhao, L and Zhao, S and Zhao, T and Zhao, X-F and Zhao, Y and Zhao, Y and Zhao, Y and Zhao, Y and Zheng, G and Zheng, K and Zheng, L and Zheng, S and Zheng, X-L and Zheng, Y and Zheng, Z-G and Zhivotovsky, B and Zhong, Q and Zhou, A and Zhou, B and Zhou, C and Zhou, G and Zhou, H and Zhou, H and Zhou, H and Zhou, J and Zhou, J and Zhou, J and Zhou, J and Zhou, K and Zhou, R and Zhou, X-J and Zhou, Y and Zhou, Y and Zhou, Y and Zhou, Z-Y and Zhou, Z and Zhu, B and Zhu, C and Zhu, G-Q and Zhu, H and Zhu, H and Zhu, H and Zhu, W-G and Zhu, Y and Zhu, Y and Zhuang, H and Zhuang, X and Zientara-Rytter, K and Zimmermann, CM and Ziviani, E and Zoladek, T and Zong, W-X and Zorov, DB and Zorzano, A and Zou, W and Zou, Z and Zou, Z and Zuryn, S and Zwerschke, W and Brand-Saberi, B and Dong, XC and Kenchappa, CS and Li, Z and Lin, Y and Oshima, S and Rong, Y and Sluimer, JC and Stallings, CL and Tong, C-K (2021) Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)1. In: Autophagy, 17 (1). pp. 1-382.
Suman, R and Yadav, SP and Ravikumar, MK and Patil, S and Shukla, AK (2021) Developing Shunt-Current Minimized Soluble-Lead-Redox-Flow-Batteries. In: Journal of the Electrochemical Society, 168 (12).
Mahendru, G and Shukla, AK and Patnaik, LM (2020) A metaheuristic based approach for threshold optimization for spectrum sensing in cognitive radio networks. In: Recent Patents on Engineering, 14 (4). pp. 579-587.
Sarma, DD and Shukla, AK (2018) Building better batteries: A travel back in time. In: ACS Energy Letters, 3 (11). pp. 2841-2845.
Ravikumar, MK and Rajan, Sundar A and Sampath, S and Priolkar, KR and Shukla, AK (2015) In Situ Crystallographic Probing on Ameliorating Effect of Sulfide Additives and Carbon Grafting in Iron Electrodes. In: JOURNAL OF THE ELECTROCHEMICAL SOCIETY, 162 (12). A2339-A2350.
Banerjee, A and Shukla, AK (2015) Performance comparison for 12 V lead-carbon hybrid ultracapacitors with substrate-integrated and conventional pasted positive plates. In: IONICS, 21 (1). pp. 201-212.
Banerjee, A and Srinivasan, R and Shukla, AK (2015) Series-connected substrate-integrated lead-carbon hybrid ultracapacitors with voltage-management circuit. In: BULLETIN OF MATERIALS SCIENCE, 38 (1). pp. 129-133.
Banerjee, A and Shukla, AK (2015) Studies on 12 V substrate-integrated lead-carbon hybrid ultracapacitors. In: JOURNAL OF CHEMICAL SCIENCES, 127 (5). pp. 967-977.
Banerjee, A and Srinivasan, R and Shukla, AK (2014) Design of substrate-integrated lead-carbon hybrid ultracapacitor and experimental validation. In: ECS Electrochemistry Letters, 3 (1). A1-A3.
Chari, VR and Aravamuthan, SR and Shukla, AK (2014) Iron-carbon hybrid capacitor: A proof-of-concept study. In: BULLETIN OF MATERIALS SCIENCE, 37 (6). pp. 1515-1518.
Selvaganesh, Vinod S and Sridhar, P and Pitchumani, S and Shukla, AK (2014) Pristine and graphitized-MWCNTs as durable cathode-catalyst supports for PEFCs. In: JOURNAL OF SOLID STATE ELECTROCHEMISTRY, 18 (5). pp. 1291-1305.
Nishanth, KG and Sridhar, P and Pitchumani, S and Shukla, AK (2013) Pt-Ru decorated self-assembled TiO2-carbon hybrid nanostructure for enhanced methanol electrooxidation. In: Bulletin of Materials Science, 36 (3). pp. 353-359.
Tintula, KK and Jalajakshi, A and Sahu, AK and Pitchumani, S and Sridhar, P and Shukla, AK (2013) Durability of Pt/C and Pt/MC-PEDOT catalysts under simulated start-stop cycles in polymer electrolyte fuel cells. In: Fuel Cells, 13 (2). pp. 158-166.
Banerjee, A and Saha, D and Row, Guru TN and Shukla, AK (2013) A soluble-lead redox flow battery with corrugated graphite sheet and reticulated vitreous carbon as positive and negative current collectors. In: Bulletin of Materials Science, 36 (1). pp. 163-170.
Selvaganesh, Vinod S and Sridhar, P and Pitchumani, S and Shukla, AK (2013) A Durable Graphitic-Carbon Support for Pt and Pt3Co Cathode Catalysts in Polymer Electrolyte Fuel Cells. In: JOURNAL OF THE ELECTROCHEMICAL SOCIETY, 160 (1). F49-F59.
Banerjee, A and Kumar, Suresh P and Shukla, AK (2013) Influence of binder solvent on carbon-layer structure in electrical-double-layer capacitors. In: JOURNAL OF CHEMICAL SCIENCES, 125 (5). pp. 1177-1183.
Shukla, AK and Kumar, Prem T (2013) Lithium Economy: Will It Get the Electric Traction? In: JOURNAL OF PHYSICAL CHEMISTRY LETTERS, 4 (3). pp. 551-555.
Meenakshi, S and Sahu, AK and Bhat, SD and Sridhar, P and Pitchumani, S and Shukla, AK (2013) Mesostructured-aluminosilicate-Nafion hybrid membranes for direct methanol fuel cells. In: ELECTROCHIMICA ACTA, 89 . pp. 35-44.
Shukla, AK and Kumar, Prem T (2013) Nanostructured electrode materials for electrochemical energy storage and conversion. In: WILEY INTERDISCIPLINARY REVIEWS-ENERGY AND ENVIRONMENT, 2 (1). pp. 14-30.
Banerjee, A and Ravikumar, MK and Jalajakshi, A and Kumar, Suresh P and Gaffoor, SA and Shukla, AK (2012) Substrate integrated Lead-Carbon hybrid ultracapacitor with flooded, absorbent glass mat and silica-gel electrolyte configurations. In: Journal of Chemical Sciences, 124 (4). pp. 747-762.
Meenakshi, S and Bhat, SD and Sahu, AK and Sridhar, P and Pitchumani, S and Shukla, AK (2012) Chitosan-polyvinyl alcohol-sulfonated polyethersulfone mixed-matrix membranes as methanol-barrier electrolytes for DMFCs. In: Journal of Applied Polymer Science, 124 (1, SI). E73-E82.
Nishanth, KG and Sridhar, P and Pitchumani, S and Shukla, AK (2012) Durable Transition-Metal-Carbide-Supported Pt-Ru Anodes for Direct Methanol Fuel Cells. In: Fuel Cells, 12 (1). pp. 146-152.
Selvaganesh, Vinod S and Selvarani, G and Sridhar, P and Pitchumani, S and Shukla, AK (2012) A Durable RuO2-Carbon-Supported Pt Catalyst for PEFCs: A Cause and Effect Study. In: JOURNAL OF THE ELECTROCHEMICAL SOCIETY, 159 (5). B463-B470.
Shukla, AK and Banerjee, A and Ravikumar, MK and Jalajakshi, A (2012) Electrochemical capacitors: Technical challenges and prognosis for future markets. In: ELECTROCHIMICA ACTA, 84 (SI). pp. 165-173.
Sahu, AK and Jalajakshi, A and Pitchumani, S and Sridhar, P and Shukla, AK (2012) Endurance of Nafion-composite membranes in PEFCs operating at elevated temperature under low relative-humidity. In: JOURNAL OF CHEMICAL SCIENCES, 124 (2). pp. 529-536.
Sahu, AK and Meenakshi, S and Bhat, SD and Shahid, A and Sridhar, P and Pitchumani, S and Shukla, AK (2012) Meso-Structured Silica-Nafion Hybrid Membranes for Direct Methanol Fuel Cells. In: JOURNAL OF THE ELECTROCHEMICAL SOCIETY, 159 (11). F702-F710.
Sathiya, M and Hemalatha, K and Ramesha, K and Shukla, AK and Prakash, AS (2011) Nitrates-melt synthesized LiNi0.8Co0.2O2 and its performance as cathode in Li-ion cells. In: BULLETIN OF MATERIALS SCIENCE, 34 (7). pp. 1693-1698.
Ramachandran, Rajalakshmi and Sathiya, M and Ramesha, K and Prakash, AS and Madras, Giridhar and Shukla, AK (2011) Photocatalytic properties of KBiO(3) and LiBiO(3) with tunnel structures. In: Journal of Chemical Sciences, 123 (4). pp. 517-524.
Selvaganesh, Vinod S and Selvarani, G and Sridhar, P and Pitchumani, S and Shukla, AK (2011) Graphitic Carbon as Durable Cathode-Catalyst Support for PEFCs. In: Fuel Cells, 11 (3). pp. 372-384.
Manokaran, A and Vijayakumar, R and Thomman, TN and Sridhar, P and Pitchumani, S and Shukla, AK (2011) A self-supported 40W direct methanol fuel cell system. In: Journal of Chemical Sciences, 123 (3). pp. 343-347.
Selvarani, G and Maheswari, S and Sridhar, P and Pitchumani, S and Shukla, AK (2011) A PEFC With Pt-TiO2/C as Oxygen-Reduction Catalyst. In: Journal of Fuel Cell Science and Technology, 8 (2).
Selvarani, G and Selvaganesh, Vinod S and Sridhar, P and Pitchumani, S and Shukla, AK (2011) Pt-Au/C cathode with enhanced oxygen-reduction activity in PEFCs. In: Bulletin of Materials Science, 34 (2). pp. 337-346.
Ramesha, K and Prakash, AS and Sathiya, M and Madras, Giridhar and Shukla, AK (2011) Synthesis and photocatalytic properties of AgLi1/3Ru2/3]O-2: A new delafossite oxide. In: Materials Science and Engineering B, 176 (2). pp. 141-146.
Mohanapriya, S and Sahu, AK and Bhat, SD and Pitchumani, S and Sridhar, P and George, C and Chandrakumar, N and Shukla, AK (2011) Bio-Composite Membrane Electrolytes for Direct Methanol Fuel Cells. In: Journal of the Electrochemical Society, 158 (11). B1319-B1328.
Nishanth, KG and Sridhar, P and Pitchumani, S and Shukla, AK (2011) A DMFC with Methanol-Tolerant-Carbon-Supported-Pt-Pd-Alloy Cathode. In: Journal of the Electrochemical Society, 158 (8). B871-B876.
Manokaran, A and Jalajakshi, A and Sahu, AK and Sridhar, P and Pitchumani, S and Shukla, AK (2011) Design and development of a self-supported polymer electrolyte fuel cell system with anodic dead-end operation. In: Proceedings of the Institution of Mechanical Engineers - Part A: Journal of Power and Energy, 225 (A2, Sp). pp. 175-182.
Selvaganesh, Vinod S and Selvarani, G and Sridhar, P and Pitchumani, S and Shukla, AK (2011) Durable electrocatalytic-activity of Pt-Au/C cathode in PEMFCs. In: PCCP: Physical Chemistry Chemical Physics, 13 (27). pp. 12623-12634.
Alwin, S and Bhat, SD and Sahu, AK and Jalajakshi, A and Sridhar, P and Pitchumani, S and Shukla, AK (2011) Modified-Pore-Filled-PVDF-Membrane Electrolytes for Direct Methanol Fuel Cells. In: Journal of the Electrochemical Society, 158 (2). B91-B98.
Ramesha, K and Prakash, AS and Sathiya, M and Madras, Giridhar and Shukla, AK (2011) Synthesis of new (Bi, La)(3)MSb(2)O(11) phases (M = Cr, Mn, Fe) with KSbO(3)-type structure and their magnetic and photocatalytic properties. In: Bulletin of Materials Science, 34 (2). pp. 271-277.
Sathiya, M and Prakash, AS and Ramesha, K and Tarascon, JM and Shukla, AK (2011) V(2)O(5)-Anchored Carbon Nanotubes for Enhanced Electrochemical Energy Storage. In: Journal of the American Chemical Society, 133 (40). pp. 16291-16299.
Prakash, AS and Manikandan, P and Ramesha, K and Sathiya, M and Tarascon, JM and Shukla, AK (2010) Solution-Combustion Synthesized Nanocrystalline Li4Ti5O12 As High-Rate Performance Li-Ion Battery Anode. In: Chemistry of Materials, 22 (9). pp. 2857-283.
Tintula, KK and Pitchumani, S and Sridhar, P and Shukla, AK (2010) PEDOT-PSSA as an alternative support for Pt electrodes in PEFCs. In: Bulletin of Materials Science, 33 (2). pp. 157-163.
Tintula, KK and Pitchumani, S and Sridhar, P and Shukla, AK (2010) PEDOT-PSSA as an alternative support for Pt electrodes in PEFCs. In: Bulletin of Materials Science, 33 (2). pp. 157-163.
Selvaganesh, SV and Selvarani, G and Sridhar, P and Pitchumani, S and Shukla, AK (2010) A Durable PEFC with Carbon-Supported Pt-TiO2 Cathode: A Cause and Effect Study. In: Journal of the Electrochemical Society, 157 (7). B1000 -B1007.
Kiran, V and Ravikumar, T and Kalyanasundaram, NT and Krishnamurty, S and Shukla, AK and Sampath, S (2010) Electro-Oxidation of Borohydride on Rhodium, Iridium, and Rhodium-Iridium Bimetallic Nanoparticles with Implications to Direct Borohydride Fuel Cells. In: Journal of the Electrochemical Society, 157 (8). B1201-B1208.
Tintula, KK and Sahu, AK and Shahid, A and Pitchumani, S and Sridhar, P and Shukla, AK (2010) Mesoporous Carbon and Poly(3,4-ethylenedioxythiophene) Composite as Catalyst Support for Polymer Electrolyte Fuel Cells. In: Journal of the Electrochemical Society, 157 (11). B1679-B1685.
Bhat, SD and Sahu, AK and Jalajakshi, A and Pitchumani, S and Sridhar, P and George, C and Banerjee, A and Chandrakumar, N and Shukla, AK (2010) PVA-SSA-HPA Mixed-Matrix-Membrane Electrolytes for DMFCs. In: Journal of the Electrochemical Society, 157 (10). B1403-B1412.
Mohanapriya, S and Bhat, SD and Sahu, AK and Manokaran, A and Vijayakumar, R and Pitchumani, S and Sridhar, P and Shukla, AK (2010) Sodium-alginate-based proton-exchange membranes as electrolytes for DMFCs. In: Energy & Environmental Science, 3 (11). pp. 1746-1756.
Sahu, AK and Bhat, SD and Pitchumani, S and Sridhar, P and Vimalan, V and George, C and Chandrakumar, N and Shukla, AK (2009) Novel organic-inorganic composite polymer-electrolyte membranes for DMFCs. In: Journal of Membrane Science, 345 (1-2). pp. 305-314.
Ravikumar, MK and Niranjana, E and Sundar Rajan, A and Banerjee, A and Gaffoor, SA and Shukla, AK (2009) Electrical-energy storage in hybrid ultracapacitors. In: Journal of the Indian Institute of Science, 89 (4). pp. 455-463.
Sathiya, M and Prakash, AS and Ramesha, K and Shukla, AK (2009) Rapid synthetic routes to prepare LiNi1/3Mn1/3Co1/3O2 as a high voltage, high-capacity Li-ion battery cathode material. In: Materials Research Bulletin, 44 (10). pp. 1990-1994.
Bhat, SD and Sahu, AK and George, C and Pitchumani, S and Sridhar, P and Chandrakumar, N and Singh, KK and Krishna, N and Shukla, AK (2009) Mordenite-incorporated PVA-PSSA membranes as electrolytes for DMFCs. In: Journal of Membrane Science, 340 (1-2). pp. 73-83.
Sampath, S and Choudhury, NA and Shukla, AK (2009) Hydrogel membrane electrolyte for electrochemical capacitors. In: Proceedings of the Indian Academy of Sciences - Chemical Sciences, 121 (5). pp. 727-734.
Choudhury, NA and Prashant, SK and Pitchumani, S and Sridhar, P and Shukla, AK (2009) Poly (vinyl alcohol) hydrogel membrane as electrolyte for direct borohydride fuel cells. In: Proceedings of the Indian Academy of Sciences - Chemical Sciences, 121 (5). pp. 647-654.
Bhat, SD and Manokaran, A and Sahu, AK and Pitchumani, S and Sridhar, P and Shukla, AK (2009) Novel Self-Supported Natural and Synthetic Polymer Membranes for Air Humidification. In: Journal of Applied Polymer Science, 113 (4). pp. 2605-2612.
Hariprakash, B and Gaffoor, SA and Shukla, AK (2009) Lead-acid batteries for partial-state-of-charge applications. In: Journal of Power Sources, 191 (1). pp. 149-153.
Sahu, AK and Pitchumani, S and Sridhar, P and Shukla, AK (2009) Nafion and modified-Nafion membranes for polymer electrolyte fuel cells: An overview. In: Bulletin of Materials Science, 32 (3). pp. 285-294.
Selvarani, G and Selvaganesh, SV and Krishnamurthy S, S and Kiruthika, GVM and Sridhar, P and Pitchumani, S and Shukla, AK (2009) A Methanol-Tolerant Carbon-Supported Pt-Au Alloy Cathode Catalyst for Direct Methanol Fuel Cells and Its Evaluation by DFT. In: Journal of Physical Chemistry, 113 (17). pp. 7461-7468.
Sahu, AK and Pitchumani, S and Sridhar, P and Shukla, AK (2009) Co-assembly of a Nafion-Mesoporous Zirconium Phosphate Composite Membrane for PEM Fuel Cells. In: Fuel Cells, 9 (2). pp. 139-147.
Sahu, AK and Nishanth, KG and Selvarani, G and Sridhar, P and Pitchumani, S and Shukla, AK (2009) Polymer electrolyte fuel cells employing electrodes with gas-diffusion layers of mesoporous carbon derived from a sol-gel route. In: Carbon, 47 (01). pp. 102-108.
Selvarani, G and Maheswari, S and Sridhar, P and Pitchumani, S and Shukla, AK (2009) Carbon-Supported Pt-TiO2 as a Methanol-Tolerant Oxygen-Reduction Catalyst for DMFCs. In: Journal of the Electrochemical Society, 156 (11). B1354-B1360.
Choudhury, NA and Sampath, S and Shukla, AK (2009) Hydrogel-polymer electrolytes for electrochemical capacitors: an overview. In: Energy & Environmental Science, 2 (1). pp. 55-67.
Selvarani, G and Sahu, AK and Kiruthika, GVM and Sridhar, P and Pitchumani, S and Shukla, AK (2009) PEFC Electrode with Enhanced Three-Phase Contact and Built-In Supercapacitive Behavior. In: Journal of the Electrochemical Society, 156 (1). B118-B125.
Gandhi, KS and Shukla, AK and Martha, SK and Gaffoo, SA (2009) Simplified Mathematical Model for Effects of Freezing on the Low-Temperature Performance of the Lead-Acid Battery. In: Journal of the electrochemical society, 156 (3). A238-A245.
Mohanapriya, S and Bhat, SD and Sahu, AK and Pitchumani, S and Sridhar, P and Shukla, AK (2009) A new mixed-matrix membrane for DMFCs. In: Energy And Environmental Science, 2 (11). pp. 1210-1216.
Sahu, AK and Selvarani, G and Bhat, SD and Pitchumani, S and Sridhar, P and Shukla, AK and Narayanan, N and Banerjee, A and Chandrakumar, N (2008) Effect of varying poly(styrene sulfonic acid) content in poly(vinyl alcohol)–poly(styrene sulfonic acid) blend membrane and its ramification in hydrogen–oxygen polymer electrolyte fuel cells. In: Journal of Membrane Science, 319 (1-2). pp. 298-305.
Selvarani, G and Prashant, SK and Sahu, AK and Sridhar, P and Pitchumani, S and Shukla, AK (2008) A direct borohydride fuel cell employing Prussian Blue as mediated electron-transfer hydrogen peroxide reduction catalyst. In: Journal of Power Sources, 178 (1). pp. 86-91.
Selvarani, G and Sahu, AK and Sridhar, P and Pitchumani, S and Shukla, AK (2008) Effect of diffusion-layer porosity on the performance of polymer electrolyte fuel cells. In: Journal of Applied Electrochemistry, 38 (3). pp. 357-362.
Hariprakash, B and Martha, SK and Ambalavanan, S and Gaffoor, SA and Shukla, AK (2008) Comparative study of lead-acid batteries for photovoltaic stand-alone lighting systems. In: Journal of Applied Electrochemistry, 38 (1). 77 -82.
Choudhury, NA and Sampath, S and Shukla, AK (2008) Gelatin hydrogel electrolytes and their application to electrochemical supercapacitors. In: Journal of the Electrochemical Society, 155 (1). A74-A81.
Sahu, AK and Selvarani, G and Pitchumani, S and Sridhar, P and Shukla, AK and Narayanan, N and Banerjee, A and Chandrakumar, N (2008) PVA-PSSA Membrane with Interpenetrating Networks and its Methanol Crossover Mitigating Effect in DMFCs. In: Journal of the Electrochemical Society, 155 (7). B686-B695.
Sahu, AK and Selvarani, G and Pitchumani, S and Sridhar, P and Shukla, AK (2007) Ameliorating effect of silica addition in the anode-catalyst layer of the membrane electrode assemblies for polymer electrolyte fuel cells. In: Journal of Applied Electrochemistry, 37 (8). pp. 913-919.
Raman, RK and Shukla, AK (2007) A Direct Borohydride/Hydrogen Peroxide Fuel Cell with Reduced Alkali Crossover. In: Fuel Cells, 7 (3). pp. 225-231.
Selvarani, G and Sahu, AK and Choudhury, NA and Sridhar, P and Pitchumani, S and Shukla, AK (2007) A phenyl-sulfonic acid anchored carbon-supported platinum catalyst for polymer electrolyte fuel cell electrodes. In: Electrochimica Acta, 52 (15). pp. 4871-4877.
Raman, RK and Prashant, SK and Shukla, AK (2006) A 28-W portable direct borohydride–hydrogen peroxide fuel-cell stack. In: Journal of Power Sources, 162 (2). pp. 1073-1076.
Suresh, P and Shukla, AK and Munichandraiah, N (2006) Characterization of Zn- and Fe-substituted $LiMnO_2$ as cathode materials in Li-ion cells. In: Journal of Power Sources, 161 (2). pp. 1307-1313.
Bellakki, Manjunath B and Prakash, AS and Shivakumara, C and Hegde, MS and Shukla, AK (2006) Solution-combustion synthesis of $Bi_{1-x}Ln_xO_{1.5}$ (Ln = Y and La–Yb) oxide ion conductors. In: Bulletin of Materials Science, 29 (4). pp. 339-345.
Ramana, RK and Shukla, AK and Gayen, A and Hegde, MS and Priolkar, KR and Sarode, PR and Emura, S (2006) Tailoring a Pt-Ru catalyst for enhanced methanol electro-oxidation. In: Journal Of Power Sources, 157 (1). pp. 45-55.
Martha, SK and Hariprakash, B and Gaffoor, SA and Shukla, AK (2006) Lead-acid cells with polyaniline-coated negative plates. In: Journal Of Applied Electrochemistry, 36 (6). pp. 711-722.
Choudhury, NA and Shukla, AK and Sampath, S and Pitchumanic, S (2006) Cross-Linked Polymer Hydrogel Electrolytes for Electrochemical Capacitors. In: Journal Of The Electrochemical Society, 153 (3). A614-A620.
Suresh, P and Shukla, AK and Munichandraiah, N (2005) Electrochemical Properties of $LiMn_{1-x}M_{x}O_{2}$ (M=Ni, Al, Mg) as Cathode Materials in Lithium-Ion Cells. In: Journal of The Electrochemical Society, 52 (12). A2273-A2280.
Mondal, SK and Raman, RK and Shukla, AK and Munichandraiah, N (2005) Electrooxidation of ascorbic acid on polyaniline and its implications to fuel cells. In: Journal of Power Sources, 145 (1). pp. 16-20.
Martha, SK and Hariprakash, B and Gaffoor, SA and Ambalavanan, S and Shukla, AK (2005) Assembly and performance of hybrid-VRLA cells and batteries. In: Journal of Power Sources, 144 (2). pp. 560-567.
Suresh, P and Nagaraju, DH and Shukla, AK and Munichandraiah, N (2005) Analysis of ac impedance of AgO-Zn cells: Effects of state-of-charge, temperature and cycle-life. In: Electrochimica Acta, 50 (16-17). pp. 3262-3272.
Raman, RK and Shukla, AK (2005) Electro-reduction of hydrogen peroxide on iron tetramethoxy phenyl porphyrin and lead sulfate electrodes with application in direct borohydride fuel cells. In: Journal of Applied Electrochemistry, 35 . pp. 1157-1161.
Choudhury, NA and Raman, RK and Sampath, S and Shukla, AK (2005) An alkaline direct borohydride fuel cell with hydrogen peroxide as oxidant. In: Journal of Power Sources, 143 (1-2). pp. 1-8.
Choudhury, NA and Raman, RK and Sampath, S and Shukla, AK (2005) An alkaline direct borohydride fuel cell with hydrogen peroxide as oxidant. In: Journal of Power Sources, 143 (1-2). pp. 1-8.
Suresh, P and Shukla, AK and Munichandraiah, N (2005) Capacity stabilization of layered $Li_{0.9}Mn_{0.9}Ni_{0.1}O_2$ cathode material by employing ZnO coating. In: Materials Letters, 59 (8-9). pp. 953-958.
Ali, Mahmood and Girimaji, SC and Markandaya, M and Shukla, AK and Sacchidanand, S and Kumar, Arun (2005) Mutation and polymorphism analysis of TSC1 and TSC2 genes in Indian patients with tuberous sclerosis complex. In: Acta Neurologica Scandinavica, 111 (1). pp. 54-63.
Suresh, P and Rodrigues, S and Shukla, AK and Vasan, HN and Munichandraiah, N (2005) Synthesis of $LiCo_{1-x}Mn_xO_2$ from a low-temperature route and characterization as cathode materials in Li-ion cells. In: Solid State Ionics, 176 (3-4). pp. 281-290.
Hariprakash, B and Martha, SK and Hegde, MS and Shukla, AK (2005) A sealed, starved-electrolyte nickel–iron battery. In: Journal of Applied Electrochemistry, 35 (1). pp. 27-32.
Shukla, AK and Raman, RK and Scott, K (2005) Advances in Mixed-Reactant Fuel Cells. In: Fuel Cells, 5 (4). pp. 436-447.
Suresh, P and Shukla, AK and Munichandraiah, N (2005) Synthesis and Characterization of Novel, High-Capacity, Layered $LiMn_{0.9}Ni_{0.05}Fe_{0.05}O_2$ as a Cathode Material for Li-Ion Cells. In: Electrochemical and Solid-State Letters, 8 (6). A263-A266.
Hariprakash, B and Mane, AU and Martha, SK and Gaffoor, SA and Shivashankar, SA and Shukla, AK (2004) Improved lead–acid cells employing tin oxide coated Dynel fibres with positive active-material. In: Journal of Applied Electrochemistry, 34 (10). pp. 1039-1044.
Hariprakash, B and Martha, SK and Jaikumar, Arthi and Shukla, AK (2004) On-line monitoring of lead–acid batteries by galvanostatic non-destructive technique. In: Journal of Power Sources, 137 (1). pp. 128-133.
Raman, RK and Murgia, G and Shukla, AK (2004) A solid-polymer electrolyte direct methanol fuel cell with a methanol-tolerant cathode and its mathematical modelling. In: Journal of Applied Electrochemistry, 34 (10). pp. 1029-1038.
Shukla, AK and Suresh, P and Berchmans, S and Rajendran, A (2004) Biological fuel cells and their applications. In: Current Science, 87 (4). pp. 455-468.
Hariprakash, B and Martha, SK and Jaikumar, Arthi and Shukla, AK (2004) On-line monitoring of lead-acid batteries by galvanostatic non-destructive technique. In: Journal of Power Sources, 137 (1). pp. 128-133.
Suresh, P and Shukla, AK and Shivashankar, SA and Munichandraiah, N (2004) Rechargeable lithium cells with dendrite-free electrodeposited lithium on aluminium as negative electrode. In: Journal of Power Sources, 132 (1-2). pp. 166-171.
Shukla, AK and Raman, RK and Choudhury, NA and Priolkar, KR and Sarode, PR and Emura, S and Kumashiro, R (2004) Carbon-supported Pt–Fe alloy as a methanol-resistant oxygen-reduction catalyst for direct methanol fuel cells. In: Journal of Electroanalytical Chemistry, 563 (2). pp. 181-190.
Hariprakash, B and Mane, AU and Martha, SK and Gaffoor, SA and Shivashankar, SA and Shukla, AK (2004) A Low-Cost, High Energy-Density Lead/Acid Battery. In: Electrochemical and Solid-State Letters, 7 (3). A66-A69.
Murgia, G and Pisani, L and Shukla, AK and Scott, K (2003) A numerical model of a liquid-feed solid polymer electrolyte DMFC and its experimental validation. In: Journal of the Electrochemical Society, 150 (9). A1231-A1245.
Mitra, Sagar and Shukla, AK and Sampath, S (2003) Electrochemical Capacitors Based on Sol-Gel Derived, Ionically Conducting Composite Solid Electrolytes. In: Electrochemical and Solid State letters, 6 (8). A419-A513.
Shukla, AK and Raman, RK (2003) Methanol-rusistant oxygen-reduction catalysts for direct methanol fuel celms. In: Annual Review of Materials Research, 33 . pp. 155-168.
Martha, SK and Hariprakash, B and Gaffoor, SA and Shukla, AK (2003) Performance characteristics of a gelled-electrolyte valve-regulated lead-acid battery. In: Bulletin of Materials Science, 26 (5). pp. 465-469.
Shukla, AK and Hariprakash, B (2003) Smart batteries. In: Current Science, 85 (3). pp. 252-255.
Hariprakash, B and Martha, SK and Shukla, AK (2003) Effect of copper additive on $Zr_{0.9}Ti_{0.1}V_{0.2}Mn_{0.6}Cr_{0.05}Co_{0.05}Ni_{1.2}$ alloy anode for nickel-metal hydride batteries. In: Journal of Applied Electrochemistry, 33 (6). pp. 497-504.
Hariprakash, B and Martha, SK and Shukla, AK (2003) Galvanostatic non-destructive characterization of alkaline silver-zinc cells. In: Journal of Power Sources, 117 (1-2). pp. 242-248.
Shukla, AK and Jackson, CL and Scott, K (2003) The promise of fuel cell-based automobiles. In: Bulletin of Materials Science, 26 (2). pp. 207-214.
Hariprakash, B and Martha, SK and Shukla, AK (2003) Monitoring sealed automotive lead-acid batteries by sparse-impedance spectroscopy. In: Journal of Chemical Sciences, 115 (5-6). pp. 465-472.
Shukla, AK and Jackson, CL and Scott, K and Raman, RK (2002) An improved-performance liquid-feed solid-polymer-electrolyte direct methanol fuel cell operating at near-ambient conditions. In: Electrochimica Acta, 47 (21). 3401-3407 .
Suresh, P and Shukla, AK and Shivashankar, SA and Munichandraiah, N (2002) Electrochemical behaviour of aluminium in non-aqueous electrolytes over a wide potential range. In: Journal of Power Sources, 110 (1). pp. 11-18.
Suresh, P and Shukla, AK and Munichandraiah, N (2002) Temperature dependence studies of AC impedance of lithium-ion cells. In: Journal of Applied Electrochemistry, 32 (3). pp. 267-273.
Ramesh, TN and Jayashree, RS and Kamath, PV and Rodrigues, S and Shukla, AK (2002) Effect of lightweight supports on specific discharge capacity of beta-nickel hydroxide. In: Journal of Power Sources, 104 (2). pp. 295-298.
Pino, L and Recupero, V and Beninati, S and Shukla, AK and Hegde, MS and Bera, P (2002) Catalytic partial-oxidation of methane on a ceria-supported platinum catalyst for application in fuel cell electric vehicles. In: Applied Catalysis, 225 (1-2). pp. 63-75.
Neergat, M and Shukla, AK (2002) Effect of Diffusion-Layer Morphology on the Performance of Solid-Polymer-Electrolyte Direct Methanol Fuel Cells. In: Journal of Power Sources, 104 (2). pp. 289-294.
Shukla, AK (2002) Whither electric vehicles? In: Current Science, 82 (3). pp. 250-251.
Rodrigues, Shalini and Munichandraiah, N and Shukla, AK (2001) Novel solution-combustion synthesis of $LiCoO_2$ and its characterization as cathode material for lithium-ion cells. In: Journal of Power Sources, 102 (1-2). pp. 322-325.
Neergat, M and Shukla, AK (2001) A high-performance phosphoric acid fuel cell. In: Journal of Power Sources, 102 (1-2). pp. 317-321.
Shukla, AK and Venugopalan, S and Hariprakash, B (2001) Nickel-based rechargeable batteries. In: Journal of Power Sources, 100 (1-2). pp. 125-148.
Rodrigues, S and Munichandraiah, N and Shukla, AK (2001) AC impedance behaviour and state-of-charge dependence of Zr0.5Ti0.5V0.6Cr0.2Ni1.2 metal-hydride electrodes. In: Proceedings of the Indian Academy of Sciences Chemical Sciences, 113 (5). pp. 527-537.
Mitra, S and Shukla, AK and Sampath, S (2001) Electrochemical capacitors with plasticized gel-polymer electrolytes. In: Journal of Power Sources, 101 (2). pp. 213-218.
Sebastian, Litty and Shukla, AK and Gopalakrishnan, J (2001) New lithium-ion conducting perovskite oxides related to (Li, La)TiO3. In: Proceedings of the Indian Academy of Sciences Chemical Sciences, 113 (5). pp. 427-433.
Shukla, AK and Aricò, AS and Antonucci, V (2001) An appraisal of electric automobile power sources. In: Renewable and Sustainable Energy Reviews, 5 (5). pp. 137-155.
Shukla, AK and Neergat, M and Bera, Parthasarathi and Jayaram, V and Hegde, MS (2001) An XPS study on binary and ternary alloys of transition metals with platinized carbon and its bearing upon oxygen electroreduction in direct methanol fuel cells. In: Journal of Electroanalytical Chemistry, 504 (1). pp. 111-119.
Neergat, M and Shukla, AK and Gandhi, KS (2001) Platinum-based alloys as oxygen-reduction catalysts for solid-polymer-electrolyte direct methanol fuel cells. In: Journal of Applied Electrochemistry, 31 (4). pp. 373-378.
Arico, AS and Shukla, AK and Kim, H and Antonucci, V and Min, M and Park, S (2001) An XPS study on oxidation states of Pt and its alloys with Co and Cr and its relevance to electroreduction of oxygen. In: Applied Surface Science, 172 (1-2). pp. 33-40.
Hariprakash, B and Bera, Parthasarathi and Martha, SK and Gaffoor, SA and Hegde, MS and Shukla, AK (2001) Ceria-Supported Platinum as Hydrogen-Oxygen Recombinant Catalyst for Sealed Lead-Acid Batteries. In: Electrochemical and Solid-State Letters, 4 (3). A23-A26.
Shukla, AK and Sampath, S and Vijayamohanan, K (2000) Electrochemical supercapacitors: Energy storage beyond batteries. In: Current Science, 79 (12). pp. 1656-1661.
Rodrigues, Shalini and Munichandraiah, N and Shukla, AK (2000) Kinetics of hydrogen evolution reaction on Zr0.5Ti0.5V0.6Cr0.2Ni1.2 alloy in KOH electrolyte. In: Bulletin Of Materials Science, 23 (5). pp. 383-391.
Jordan, LR and Shukla, AK and Behrsing, T and Avery, NR and Muddle, BC and Forsyth, M (2000) Effect of diffusion-layer morphology on the performance of polymer electrolyte fuel cells operating at atmospheric pressure. In: Journal of Applied Electrochemistry, 30 (6). pp. 641-646.
Sebastian, Litty and Shukla, AK and Gopalakrishnan, J (2000) La0.9Sr0.1Ga0.8M0.2O3-delta (M = Mn, Co, Ni, Cu or Zn): transition metal-substituted derivatives of lanthanum- strontium-gallium-magnesium (LSGM) perovskite oxide ion conductor. In: Bulletin of Materials Science, 23 (3). pp. 169-173.
Litty, Sebastian and Shukla, AK and Gopalkrishana, J (2000) $La_{0.9}Sr_{0.1}Ga_{0.8}M_{0.2}O_{3–\delta}$ (M = Mn, Co, Ni, Cu or Zn): Transition metal-substituted derivatives of lanthanum–strontium–gallium–magnesium (LSGM) perovskite oxide ion conductor. In: Bulletin of Materials Science, 23 (3). pp. 169-173.
Rodrigues, Shalini and Munichandraiah, N and Shukla, AK (2000) A Review of state-of-charge indication of batteries by means of a.c. impedance measurements. In: Journal of Power Sources, 87 (1-2). pp. 12-20.
Rodrigues, S and Munichandraiah, N and Shukla, AK (2000) AC impedance and state-of-charge analysis of alkaline zinc/manganese dioxide primary cells. In: Journal of Applied Electrochemistry, 30 (3). pp. 371-377.
Jordan, LR and Shukla, AK and Behrsing, T and Avery, NR and Muddle, BC and Forsyth, M (2000) Diffusion layer parameters influencing optimal fuel cell performance. In: Journal of Power Sources, 86 (1-2). pp. 250-254.
Rodrigues, S and Munichandraiah, N and Shukla, AK (1999) Fabrication and evaluation of 1 Ah silver/metal hydride cells. In: Journal of Applied Electrochemistry, 29 (11). pp. 1285-1289.
Shukla, AK and Avery, NR and Muddle, BC (1999) Future cars: the electric option. In: Current Science, 77 (9). pp. 1141-1146.
Shalini, Rodrigues and Munichandraiah, N and Shukla, AK (1999) AC impedance and state-of-charge analysis of a sealed lithium-ion rechargeable battery. In: J Solid State Electrochem, 3 (7-8). pp. 397-405.
Shaju, KM and Kumar, Ganesh V and Munichandraiah, N and Shukla, AK (1999) Performance and scaling of a 1.2 V/1.5 Ah nickel/metal hydride cell to a 6 V/1.5 Ah battery. In: Journal of Solid State Electrochemistry, 3 (7-8). pp. 464-469.
Gopalakrishnan, J and Shukla, AK and Thangadurai, V (1999) Rational design of solid materials: A case study of lithium-ion conductors. In: Current Science (Bangalore), 76 (11). 1473-1480 .
Arico, AS and Shukla, AK and Elkhatib, KM and Creti, P and Antonucci, V (1999) Effect of carbon-supported and unsupported Pt-Ru anodes on the performance of solid-polymer-electrolyte direct methanol fuel cells. In: Journal of Applied Electrochemistry, 29 (6). pp. 671-676.
Dixit, Mridula and Jayashree, RS and Kamath, P Vishnu and Shukla, AK and Kumar, V Ganesh and Munichandraiah, N (1999) Electrochemically impregnated aluminum-stabilized alpha-nickel hydroxide electrodes. In: Electrochemical and Solid-State Letters, 2 (4). pp. 170-171.
Thangadurai, V and Shukla, AK and Gopalakrishnan, J (1999) LiSr1.65 square 0.35B1.3B ' O-1.7(9) (B = Ti, Zr; B ' = Nb, Ta): New lithium ion conductors based on the perovskite structure. In: Chemistry of Materials, 11 (3). pp. 835-839.
Shukla, AK and Arico, AS and El-Khatib, KM and Kim, H and Antonucci, PL and Antonucci, V (1999) An X-ray photoelectron spectroscopic study on the effect of Ru and Sn additions to platinised carbons. In: Applied Surface Science, 137 (1-4). pp. 20-29.
Shukla, AK and Ravikumar, MK and Neergat, M and Gandhi, KS (1999) A 5 W liquid-feed solid-polymer-electrolyte direct methanol fuel cell stack with stainless steel. In: Journal of Applied Electrochemistry, 29 (1). pp. 129-132.
Thangadurai, V and Shukla, AK and Gopalakrishnan, J (1998) La0.9Sr0.1Ga0.8Mn0.2O2.85: a new oxide ion conductor. In: Chemical Communication, 23 . pp. 2647-2648.
Kumar, Ganesh V and Shaju, KM and Munichandraiah, N and Shukla, AK (1998) A commercial-grade 1.2-V/6-Ah nickel/metal hydride cell. In: Journal of Power Sources, 76 (1). pp. 106-111.
Rodrigues, Shalini and Shukla, AK and Munichandraiah, N (1998) A cyclic voltammetric study of the kinetics and mechanism of electrodeposition of manganese dioxide. In: Journal of Applied Electrochemistry, 28 (11). pp. 1235-1241.
Shukla, AK and Christensen, PA and Dickinson, AJ and Hamnett, A (1998) A liquid-feed solid polymer electrolyte direct methanol fuel cell operating at near-ambient conditions. In: Journal of Power Sources, 76 (1). pp. 54-59.
Shukla, AK and Munichandraiah, N and Joshi, SN and Shukla, S (1998) Advances in storage batteries. In: Transactions of the Indian Institute of Metals, 51 (5). pp. 255-260.
Shukla, AK and Kumar, Ganesh V and Munichandraiah, N and Srinath, TS (1998) A method to monitor valve-regulated lead acid cells. In: Journal of Power Sources, 74 (2). pp. 234-239.
Shukla, AK and Ravikumar, MK and Gandhi, KS (1998) Direct methanol fuel cells for vehicular applications. In: Journal of Solid State Electrochemistry, 2 (2). pp. 117-122.
Thangadurai, V and Shukla, AK and Gopalakrishnan, J (1997) Oxide-ion conduction in anion-deficient double perovskites, $Ba_2 BB'O_{5.5} (B = Li, Na; B' = Mo, W, Te)$. In: Solid State Ionics, 104 (3-4). pp. 277-283.
Kumar, VG and Munichandraiah, N and Shukla, AK (1997) Electrode impedance parameters and internal resistance of a sealed $LiC/Li_1_-_x$$CoO_2$ lithium-ion rechargeable battery. In: Journal of Applied Electrochemistry, 27 (1). pp. 43-49.
Ganesh Kumar, V and Munichandraiah, N and Shukla, AK (1997) Electrode impedance parameters and internal resistance of a sealed $LiC/Li_{1-x} CoO_2$ lithium-ion rechargeable battery. In: Journal of Applied Electrochemistry, 27 (1). pp. 43-49.
Sivasankar, G and Kumar, VG and Munichandraiah, N and Shukla, AK (1997) A rapid-combustion synthesis of $LiCoO_2$ cathode material for lithium-ion cells. In: International Journal of Self-Propagating High-Temperature Synthesis, 6 (1). pp. 77-81.
Kumar, Ganesh V and Munichandraiah, N and Shukla, AK (1996) Electrode impedance parameters and internal resistance of a sealed nickel/metal-hydride cell. In: Journal of Power Sources, 63 (2). pp. 203-208.
Dixit, Mridula and Kamath, Vishnu P and Kumar, Ganesh V and Munichandraiah, N and Shukla, AK (1996) An electrochemically impregnated sintered-nickel electrode. In: Journal of Power Sources, 63 (2). pp. 167-171.
Ravikumar, MK and Balasubramanian, TS and Shukla, AK and Venugopalan, S (1996) A cyclic voltammetric study on the electrocatalysis of alkaline iron-electrode reactions. In: Journal Of Applied Electrochemistry, 26 (11). pp. 1111-1115.
Munichandraiah, N and Shukla, AK and Scanlon, LG and Marsh, RA (1996) On the stability of lithium during ageing of $Li/PEO_8LiClO_4/Li cells$. In: Journal of Power Sources, 62 (2). pp. 201-206.
Shukla, AK and Sharma, Vandana and Dhas, Arul N and Patil, KC (1996) Oxide-ion Conductivity of Calcia- and Yttria-Stabilized Zirconias Prepared by a Rapid-Combustion Route. In: Materials Science and Engineering B, 40 (2-3). 153-I57.
Ravikumar, MK and Shukla, AK (1996) Effect of Methanol Crossover in a Liquid-FeedPolymer-Electrolyte Direct Methanol Fuel Cell. In: Journal of the Electrochemical Society, 143 (8). pp. 2601-2606.
Thangadurai, V and Subbanna, GN and Shukla, AK and Gopalakrishnan, J (1996) AM(1-x)Al(x)O(3-x) (A=Na or K; M=Nb or Ta): New anion-deficient Perovskite oxides exhibiting oxide ion conduction. In: Chemistry of Materials, 8 (6). pp. 1302-1306.
Barman, SR and Shanthi, N and Shukla, AK and Sarma, DD (1996) Order-disorder and electronic transitions in $Ag_{2+\delta} S$ single crystals studied by photoemission spectroscopy. In: Physical Review B, 53 (7). pp. 3746-3751.
Vasudevan, P and Phougat, N and Shukla, AK (1996) Metal Phthalocyanines as Electrocatalysts for Redox Reactions. In: Applied Organometallic Chemistry, 10 (8). pp. 591-604.
Ravikumar, MK and Balasubramanian, TS and Shukla, AK (1995) A nickel-iron battery with roll-compacted iron electrodes. In: Journal of Power Sources, 56 (2). pp. 209-212.
Shukla, AK and Ravikumar, MK and Aricò, S and Candiano, G and Antonucci, V and Giordano , N and Hamnett, A (1995) Methanol electrooxidation on carbon-supported Pt-WO3−x electrodes in sulphuric acid electrolyte. In: Journal of Applied Electrochemistry, 25 (6). pp. 528-532.
Shukla, AK and Gopalakrishnan, J (1995) Solid Oxide-Ion Electrolytes. In: Bulletin of Electrochemistry, 11 (1-2). pp. 109-116.
Kamath, Vishnu P and Mridula, Dixit and Indira, L and Shukla, AK and Ganesh, Kumar V and Munichandraiah, N (1994) Stabilized alpha-Ni(OH)2 as electrode material for for alkaline secondary cells. In: Journal of the Electrochemical Society, 141 (11). 2956-2959 .
Thangadurai, V and Shukla, AK and Gopalakrishnan, J (1994) Proton conduction in layered perovskite oxides. In: Solid State Ionics, 73 (1-2). pp. 9-14.
Shukla, AK and Ravikumar, MK and Balasubramanian, TS (1994) Nickel/iron batteries. In: Journal of Power Sources, 51 (1-2). pp. 29-36.
Aricò, AS and Antonucci, V and Giordano, N and Shukla, AK and Ravikumar, MK and Roy, A and Barman , SR and Sarma, DD (1994) Methanol oxidation on carbon-supported platinum-tin electrodes in sulfuric acid. In: Journal of Power Sources, 50 (3). pp. 295-309.
Aricò, AS and Antonucci, V and Giordano, N and Shukla, AK and Ravikumar, MK and Roy, A and Barman, SR and Sarma, DD (1994) Methanol oxidation on carbon-supported platinum-tin electrodes in sulfuric acid. In: Journal of Power Sources, 50 (3). 295 -309 .
Shukla, AK and Ravikumar, MK and Roy, A and Barman, SR and Sarma, DD and Arico, AS and Antonucci, V and Pino, L and Giordano, N (1994) Electrooxidation of methanol in sulfuric-acid electrolyte on platized-carbon electrodes with several functional-group characteristics. In: Journal of the electrochemical society, 141 (6). pp. 1517-1522.
Sharma, V and Shukla, AK and Gopalakrishnan, J (1994) Bi2W1–xCuxO6–x(0.7[less-than-or-eq]x[less-than-or-eq]0.8): a new oxide-ion conductor. In: Journal of materials chemistry, 4 (5). pp. 703-705.
Arico, AS and Kim, H and Shukla, AK and Ravikumar, MK and Antonucci, V and Giordano, N (1994) Methanol oxidation on carbon-supported Pt---Sn electrodes in silicotungstic acid. In: Electrochimica Acta, 39 (5). 691 -700 .
Aricò, AS and Kim, H and Shukla, AK and Ravikumar, MK and Antonucci, V and Giordano, N (1994) Methanol oxidation on carbon-supported Pt---Sn electrodes in silicotungstic acid. In: Electrochimica Acta, 39 (5). pp. 691-700.
Arico, AS and Antonucci, V and Giordano, N and Shukla, AK and Ravikumar, MK (1993) Synergitic Promotion of Electrooxidation of Methanol of Carbon-Supported PT-SN Catalysts. In: Bulletin of Electrochemistry, 9 (11-12). 614-617 .
Jacob, KT and Mukhopadhyay, Sukanya and Shukla, AK (1993) Gradient solid-electrolyte for use with dissimilar gas electrodes. In: Solid State Ionics, 62 (1-2). pp. 27-37.
Balasubramanian, TS and Shukla, AK (1993) Effect of metal-sulfide additives on charge/discharge reactions of the alkaline iron electrode. In: Journal of Power Sources, 41 (1-2). pp. 99-105.
Shukla, AK and Hamnett, A (1993) Battery and fuel cell technologies: developments and projections. In: Bulletin of Electrochemistry, 9 (2&3). pp. 86-89.
Sharma, Vandana and Shukla, AK and Gopalakrishnan, J (1992) Effect of aliovalent-cation substitution on the oxygen-ion conductivity of $Bi_4V_2O_{11}$. In: Solid State Ionics, 58 (3-4). pp. 359-362.
Jacob, KT and Mukhopadhyay, Sukanya and Shukla, AK (1992) Tie lines and activities in the system CoO MgO SiO2 at 1373 K. In: Journal of the American Ceramic Society, 75 (11). pp. 3081-3086.
Vasan, HN and Shukla, AK (1992) Low temperature synthesis and hcaracterization of Ag2S1-x Tez(O<x<1). In: Bulletin of Materials Science, 15 (4). pp. 367-375.
Uvarov, NF and Isupov, VP and Sharma, V and Shukla, AK (1992) Effect of morphology and particle size on the ionic conductivities of composite solid electrolytes. In: Solid State Ionics, 51 (1-2). pp. 41-52.
Sugumaran, Nanjan and Shukla, AK (1992) A novel approach for estimating the electrode kinetic parameters of gas-diffusion electrodes using the inflection point in steady-state current/potential data. In: Journal of Power Sources, 39 (2). pp. 249-254.
Shukla, AK and Kannan, AM and Hegde, MS and Gopalakrishnan, J (1991) Effect of counter cations on electrocatalytic activity of oxide pyrochlores towards oxygen reduction/evolution in alkaline medium: an electrochemical and spectroscopic study of metal/air secondary cells. In: Journal of Power Sources, 35 (2). pp. 163-173.
Kannan, AM and Shukla, AK (1991) Rechargeable iron/air cells employing bifunctional oxygen electrodes of oxide pyrochlores. In: Journal of Power Sources, 35 (2). pp. 113-121.
Vijayamohanan, K and Balasubramanian, TS and Shukla, AK (1991) Rechargeable alkaline iron electrodes. In: Journal of Power Sources, 34 (3). pp. 269-285.
Vijayamohanan, K and Shukla, AK and Sathyanarayana, S (1991) Open-circuit potential—time transients of alkaline porous iron electrodes at various states-of-charge. In: Electrochimica Acta, 36 (2). pp. 369-380.
Vijayamohanan, K and Shukla, AK and Sathyanarayana, S (1990) Kinetics of electrode reactions occurring on porous iron electrodes in alkaline media. In: Journal of Electroanalytical Chemistry, 295 (1-2). pp. 59-70.
Vijayamohanan, K and Shukla, AK (1990) Formation mechanism of porous alkaline iron electrodes. In: Journal of Power Sources, 32 (4). pp. 329-339.
Kannan, KR and Kannan, AM and Shukla, AK (1990) A low-cost, computer-aided electrochemical system for characterizing battery electrodes. In: Journal of Power Sources, 32 (1). pp. 99-104.
Kannan, AM and Shukla, AK and Sathyanarayana, S (1989) Oxide-based bifunctional oxygen electrode for rechargeable metal/air batteries. In: Journal of Power Sources, 25 (2). pp. 141-150.
Vasudevan, P and Mann, Neelam and Santosh, * and Kannan, AM and Shukla, AK (1989) Electroreduction of oxygen on some novel cobalt phthalocyanine complexes. In: Journal of Power Sources, 28 (3). pp. 317-320.
Kannan, AM and Shukla, AK and Hamnett, A (1988) Fractional-factorial design of a porous-carbon fuel-cell electrode. In: Journal of Applied Electrochemistry, 18 (1). pp. 149-153.
Shukla, AK (1987) Studies In Chalcogenide Glasses. In: Izvestiya Sibirskogo Otdeleniya Akademiy Nauk - Seriya Khimicheskikh Nauk (6). pp. 62-73.
Vijaymohanan, K and Shukla, AK and Sathyanarayana, S (1987) Open-circuit potential-recovery transients of alkaline porous iron electrodes. In: Journal of Power Sources, 21 (1). pp. 53-57.
Jacob, KT and Akila, R and Shukla, AK (1987) Oxygen Potentials for the Oxidation of Rare Earth Oxysulfides to Oxysulfates. In: Journal of Solid State Chemistry, 69 (1). pp. 109-115.
Jacob, KT and Shukla, AK (1987) Kinetic decomposition of Ni2SiO4 in oxygen potential gradients. In: Journal of Materials Research, 2 (3). pp. 338-344.
Akila, R and Jacob, KT and Shukla, AK (1987) Standard free energies of formation of rare earth sesquisulphides. In: Journal of Materials Science, 22 (6). pp. 2087-2093.
Jacob, KT and Shukla, AK (1987) Kinetic decomposition of {Ni_2SiO_4} in oxygen potential gradients. In: Journal of Materials Research, 2 (3). pp. 338-344.
Ramesh, KV and Sarode, PR and Vasudevan, S and Shukla, AK (1987) Preparation and Characterization of Carbon-Based Fuel-Cell Electrodes with Platinum-Group Bimetallic Catalysts. In: Journal of Electroanalytical Chemistry, 223 (1-2). pp. 91-106.
Ramesh, KV and Shukla, AK (1987) Carbon-based electrodes carrying platinum-group bimetal catalysts for oxygen reduction in fuel cells with acidic or alkaline electrolytes. In: Journal of Power Sources, 19 (4). pp. 279-285.
Akila, R and Jacob, KT and Shukla, AK (1987) Gibbs energies of formation of rare earth oxysulfides. In: Metallurgical and Materials Transactions B, 18 (1). pp. 163-168.
Shukla, AK and Jacob, KT (1987) Kinetic instability of multicomponent solids in generalized thermodynamic gradients. In: Reviews of Solid State Science, 1 (1). pp. 35-54.
Akila, R and Jacob, KT and Shukla, AK (1986) Concept of thermodynamic capacity. In: Bulletin of Materials Science, 8 (4). pp. 453-465.
Shukla, AK and Ramesh, KV and Kannan, AM (1986) Fuel cells: Problems and prospects. In: Journal of Chemical Sciences, 97 (3-4). pp. 513-527.
Vaidehi, N and Akila, R and Shukla, AK and Jacob, KT (1986) Enhanced Ionic Conduction in Dispersed Solid Electrolyte Systems $CaF_2-Al_2O_3$ and $CaF_2-CeO_2$. In: Materials Research Bulletin, 21 (8). pp. 909-916.
Vaidehi, N and Akila, R and Shukla, AK and Jacob, KT (1986) Enhanced ionic conduction in dispersed solid electrolyte systems CaF2---Al2O3 and CaF2---CeO2. In: Materials Research Bulletin, 21 (8). pp. 909-916.
Jacob, KT and Shukla, AK and Ramachandran, A and Kale, GM (1986) Gibbs energy of formation of nickel orthosilicate (Ni2SiO4). In: High Temperature Materials and Processes, 7 (2-3). pp. 141-148.
Vijayamohanan, K and Shukla, AK and Sathyanarayana, S (1986) Statistical Optimization of Iron Electrodes for Alkaline Storage Batteries. In: Indian Journal of Technology, 24 (7). 430 -434.
Jacob, KT and Shukla, AK and Akila, Ramachandran and Kale, GM (1986) Gibbs' energy of formation of nickel orthosilicate $(Ni_2SiO_4)$. In: High Temperature Materials and Processes, 7 (2-3). pp. 141-148.
Shukla, AK and Manoharan, R and Paliteiro, C and Hamnett, A and Goodenough, JB (1985) High efficiency cathodes for alkaline air electrodes. In: Journal of Applied Electrochemistry, 15 (5). pp. 774-777.
Ramesh, KV and Shukla, AK (1985) Oxygen-reducing Electrodes for Acid Fuel Cells. In: Journal of Power Sources, 15 (2-3). pp. 201-205.
Ramesh, KV and Shukla, AK (1985) Oxygen-reducing electrodes for acid fuel cells. In: Journal of Power Sources, 15 (2-3). pp. 201-205.
Manoharan, R and Shukla, AK (1985) Oxides supported carbon air-electrodes for alkaline solution power devices. In: Electrochimica Acta, 30 (2). pp. 205-209.
Manoharan, R and Sarma, DD and Shukla, AK (1984) High-performance platinized carbon electrodes for oxygen reduction in power sources with alkaline electrolytes. In: Journal of Power Sources, 13 (4). pp. 273-285.
Manoharan, R and Shukla, AK (1983) Oxygen-reducing Porous Carbon Electrode for Electrochemical Power Sources with Alkaline Electrolytes. In: Journal of Power Sources, 10 (4). pp. 333-341.
Shukla, AK and Vasan, HN and Rao, CNR (1981) A Single-Crystal Study Of The Defect Chemistry And Transport-Properties Of Silver Selenide, Ag2+Delta-Se. In: Proceedings of the Royal Society A: Mathematical, Physical & Engineering Sciences, 376 (1767). pp. 619-633.
Sharma, V and Varma, KBR and Shukla, AK (1995) Structural and Dielectric-Properties Of A Novel BI2O3-(1-X)WO3-XCUO Solid-Solution. In: Bulletin of Materials Science, 18 (5). 631-636 .
Kumar, Ganesh V and Munichandraiah, N and Kamath, Vishnu P and Shukla, AK (1995) On the performance of stabilized ?-nickel hydroxide as a nickel-positive electrode in alkaline storage batteries. In: Journal of Power Sources, 56 (1). pp. 111-114.
Arico, AS and Shukla, AK and Antonucci, V and Giordano, N (1994) Digital simulation of galvanostatic current-potential data for gas-diffusion electrodes and estimation of electrodekinetic parameters. In: Journal of power sources, 50 (1-2). 177 -186 .
Hogarth, MP and Munk, J and Shukla, AK and Hamnett, A (1994) Performance of carbon-cloth bound porous-carbon electrodes containing an electrodeposited platinum catalyst towards the electrooxidation of methanol in sulphuric acid electrolyte. In: Journal of Applied Electrochemistry, 24 (1). pp. 85-88.
Balasubramanian, TS and Vijayamohanan, K and Shukla, AK (1993) Mechanisms of the discharge of porous-iron electrodes in alkaline medium. In: Journal of Applied Electrochemistry, 23 (9). pp. 947-950.
Shukla, AK and Hamnett, A and Roy, A and Barman, SR and Sarma, DD and Alderuccic, V and Pino, L and Giordano, N (1993) An X-ray photoelectron spectroscopic study on platinised carbons with varying functional-group characteristics. In: Journal of Electroanalytical Chemistry, 352 (1-2). pp. 337-343.
Kannan, AM and Shukla, AK and Sathyanarayana, S (1990) A lead-iridium pyrochlore based bifunctional oxygen electrode. In: Journal of Electroanalytical Chemistry, 281 (1-2). pp. 339-334.
