S
Subharanjan Biswas
Researcher at Indian Institute of Science Education and Research, Kolkata
Publications - 21
Citations - 422
Subharanjan Biswas is an academic researcher from Indian Institute of Science Education and Research, Kolkata. The author has contributed to research in topics: Chemistry & Engineering. The author has an hindex of 8, co-authored 16 publications receiving 319 citations. Previous affiliations of Subharanjan Biswas include Université Paris-Saclay & Indian Institute of Science.
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Permeation characteristics and modeling of barrier properties of multifunctional rubber nanocomposites
TL;DR: In this paper, the gas permeability characteristics of such multifunctional styrene butadiene rubber based nanocomposites, including thermodynamics and kinetic aspects of transport have been discussed.
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Thermal stability of perfluoroalkyl silane self-assembled on a polycrystalline aluminum surface.
TL;DR: The conformational order in the SAM is not disrupted because of thermal cycling when the peak temperature is below 423 K, and the cycling results in only a partial retention of the original order when the peaked temperature is above 603 K, where the process is completely irreversible.
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Thermal Study of Accumulation of Conformational Disorders in the Self-Assembled Monolayers of C-8 and C-18 Alkanethiols on the Au(111) Surface
N. Prathima,M. Harini,Neeraj Rai,R. H. Chandrashekara,K. G. Ayappa,Srinivasan Sampath,Subharanjan Biswas +6 more
TL;DR: The ability of a SAM to retain order with increasing thermal perturbations is governed by the state of disorder prior to heat treatment, and this deduction derived from molecular dynamics simulation helps to rationalize the significant difference observed experimentally between the thermal response of short- and long-chain thiol molecules.
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Photochemical reduction of carbon dioxide coupled with water oxidation using various soft-oxometalate (SOM) based catalytic systems
TL;DR: In this article, a metal oxide based heterogeneous catalytic system was proposed to simultaneously oxidize water and release the generated electrons for reduction of CO2 with a maximum turnover number and turnover frequency as high as 1.4 × 106 and 610 s−1, respectively.
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Peptide-Based Polymer-Polyoxometalate Supramolecular Structure with a Differed Antimicrobial Mechanism.
TL;DR: This study provides first direct evidence that the improved mechanism of action of antimicrobial supra-amphiphilic nanocomposites differs largely from their parent antimicrobial peptide-based polymers.