D
Debmallya Das
Researcher at Jadavpur University
Publications - 10
Citations - 62
Debmallya Das is an academic researcher from Jadavpur University. The author has contributed to research in topics: Electron transfer & Graphene. The author has an hindex of 5, co-authored 10 publications receiving 53 citations. Previous affiliations of Debmallya Das include Indian Association for the Cultivation of Science.
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A comparative outlook of corrosion behaviour and chlorophyll assisted growth kinetics of various carbon nano-structure reinforced hydroxyapatite-calcium orthophosphate coating synthesized in-situ through pulsed electrochemical deposition
TL;DR: In this paper, chlorophyll functionalised carbon nanostructures are co-deposited from aqueous media along with in-situ formed hydroxyapatite-calcium orthophosphate phases to develop a biocompatible coating, which eventually can increase the overall coating strength as reinforcement.
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Confined Motion, Excitonic Migration, and Superradiance of Ordered Chlorophyll a Assembly Packed in Two Different Polypyrrole Nanostructures
TL;DR: In this paper, the intermolecular excitonic migration in highly packed environment of light harvesting complex can be regulated by different peptide binding during photosynthesis, and Porphyrin-based conducting polymer nanostructures might be expected to exhibit similar behavior by introducing disorder through different interactions, thereby facilitating control over excitogenic delocalization.
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Electron Donating Chlorophyll-a on Graphene: A Way toward Tuning Fermi Velocity in an Extended Molecular Framework of Graphene/Chlorophyll-a Nanohybrid
TL;DR: In this article, the LB method was used to synthesize graphene/chlorophyll-a nanohybrids with an extended interface via charge and energy-transfer processes, which can create synergistic effects.
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Energy transfer cascade in bio-inspired chlorophyll-a/polyacrylamide hydrogel: towards a new class of biomimetic solar cells
TL;DR: In this paper, the authors explored the energy transfer dynamics of chlorophyll-aentrapped polyacrylamide hydrogel with a vision of applying this hybrid material in a bio-inspired light harvesting system.
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Excitonic dynamics of Chlorophyll-a molecules in chitosan hydrogel scaffold
TL;DR: The successful realization of non-coherent electron hopping through excitonically coupled Chlorophyll-a (Chl-a) molecules within chitosan hydrogel matrix via TCSPC and fluorescence anisotropy measurements indicates that hopping excitonic cascade is prominent among chlorophyll molecules.