Browse by IISc Authors

Nanda, GP and Suraksha, R and Rajamalli, P (2024) Role of Pyridine Nitrogen Position on the Moisture Sensitivity of Organic Emitters. In: ACS Materials Au .

Nanda, GP and Chand, S and Rajamanickam, S and Rajamalli, P (2024) Single-component TADF gels: study of the positional isomer effect on gelation and morphological effect on conductivity. In: Chemical Communications, 60 . 9234 -9237.

Deori, U and Nanda, GP and Murawski, C and Rajamalli, P (2024) A perspective on next-generation hyperfluorescent organic light-emitting diodes. In: Chemical Science .

Deori, U and Yadav, N and Nanda, GP and Kumawat, KL and Rajamalli, P (2023) Systematic Study to Choose Appropriate Materials Combination for Green Hyperfluorescent Organic Light-Emitting Diodes. In: ACS Applied Electronic Materials, 5 (9). 4959 -4967.

Deori, U and Ravindran, E and Nanda, GP and Ramanath, SG and Acharya, U and Gandeepan, P and Rajamalli, P (2023) Design Strategy for Enabling Multifunctional Properties of Anthracene-based Emitters. In: Chemistry - An Asian Journal .

Mazumdar, AK and Nanda, GP and Yadav, N and Deori, U and Acharyya, U and Sk, B and Rajamalli, P (2022) Thermally activated delayed fluorescence (TADF) emitters: sensing and boosting spin-flipping by aggregation. In: Beilstein Journal of Organic Chemistry, 18 . pp. 1177-1187.

Sk, B and Ravindran, E and Deori, U and Yadav, N and Nanda, GP and Rajamalli, P (2022) A deep blue thermally activated delayed fluorescence emitter: balance between charge transfer and color purity. In: Journal of Materials Chemistry C, 10 (12). pp. 4886-4893.

Nanda, GP and Sk, B and Yadav, N and Rajamanickam, S and Deori, U and Mahashaya, R and Zysman-Colman, E and Rajamalli, P (2021) Ultrathin non-doped thermally activated delayed fluorescence emitting layer for highly efficient OLEDs. In: Chemical Communications, 57 (100). pp. 13728-13731.

Sk, B and Thangaraji, V and Yadav, N and Nanda, GP and Das, S and Gandeepan, P and Zysman-Colman, E and Rajamalli, P (2021) High performance non-doped green organic light emitting diodes: Via delayed fluorescence. In: Journal of Materials Chemistry C, 9 (43). pp. 15583-15590.