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Menon, AV and Jagadeshvaran, PL and Bose, S (2023) Geometry and mesh size control the EMI shielding in 3D printed conducting shape memory PU structures. In: Journal of Materials Chemistry C .
Jagadeshvaran, PL and Menon, AV and Bose, S (2021) Evolution of personal protective equipment from its inception to COVID-19. In: Current Science, 120 (7). pp. 1169-1183.
Sharma, D and Menon, AV and Bose, S (2020) Graphene templated growth of copper sulphide 'flowers' can suppress electromagnetic interference. In: Nanoscale Advances, 2 (8). pp. 3292-3303.
Jagadeshavaran, PL and Nallabothula, H and Menon, AV and Bose, S (2020) Nanoinfiltration for Enhancing Microwave Attenuation in Polystyrene-Nanoparticle Composites. In: ACS Applied Nano Materials, 3 (2). pp. 1872-1880.
Menon, AV and Choudhury, B and Madras, G and Bose, S (2020) ‘Trigger-free’ self-healable electromagnetic shielding material assisted by co-doped graphene nanostructures. In: Chemical Engineering Journal, 382 .
Menon, AV and Madras, G and Bose, S (2019) Mussel-Inspired Self-Healing Polyurethane with "Flower-like" Magnetic MoS2as Efficient Microwave Absorbers. In: ACS Applied Polymer Materials, 1 (9). pp. 2417-2429.
Menon, AV and Madras, G and Bose, S (2019) Light weight, ultrathin, and “thermally-clickable” self-healing MWNT patch as electromagnetic interference suppressor. In: Chemical Engineering Journal, 366 . pp. 72-82.
Gebrekrstos, A and Biswas, S and Menon, AV and Madras, G and Pötschke, P and Bose, S (2019) Multi-layered stack consisting of PVDF nanocomposites with flow-induced oriented MWCNT structure can supress electromagnetic radiation. In: Composites Part B: Engineering, 166 . pp. 749-757.
Gebrekrstos, A and Biswas, S and Menon, AV and Madras, G and Pötschke, P and Bose, S (2019) Multi-layered stack consisting of PVDF nanocomposites with flow-induced oriented MWCNT structure can supress electromagnetic radiation. In: Composites Part B: Engineering, 166 . pp. 749-757.
Menon, AV and Madras, G and Bose, S (2018) Ultrafast Self-Healable Interfaces in Polyurethane Nanocomposites Designed Using Diels-Alder "click" as an Efficient Microwave Absorber. In: ACS Omega, 3 (1). pp. 1137-1146.