A
Arghya Dutta
Researcher at National Institute for Materials Science
Publications - 56
Citations - 2015
Arghya Dutta is an academic researcher from National Institute for Materials Science. The author has contributed to research in topics: Catalysis & Mesoporous material. The author has an hindex of 23, co-authored 48 publications receiving 1720 citations. Previous affiliations of Arghya Dutta include Indian Association for the Cultivation of Science & Osaka University.
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Unprecedented CO2 uptake over highly porous N-doped activated carbon monoliths prepared by physical activation.
Mahasweta Nandi,Keisuke Okada,Arghya Dutta,Arghya Dutta,Asim Bhaumik,Jun Maruyama,Didi Derks,Hiroshi Uyama +7 more
TL;DR: Highly porous N-doped activated carbon monoliths (ACMs) are fabricated by carbonization and physical activation of mesoporous polyacrylonitrile (PAN) monolithics in the presence of CO(2).
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Self-assembled mesoporous γ-Al2O3 spherical nanoparticles and their efficiency for the removal of arsenic from water.
TL;DR: Efficient synthesis strategy, exceptionally high surface area and high adsorption efficiency of these mesoporous γ-Al(2)O(3) materials for the dissolved arsenic from the contaminated aqueous solutions could find potential utility in the purification of polluted water.
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Synthesis of 5‐Hydroxymethylfurural from Carbohydrates using Large‐Pore Mesoporous Tin Phosphate
TL;DR: Under comparable reaction conditions, LPSnP-1 gives 12 % more HMF yield than a small-pore mesoporous tin phosphate catalyst that has an identical framework composition, which confirms the beneficial role of large mesopores and nanoscale particle morphology in catalytic reactions that involve bulky natural carbohydrate molecules.
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Cu nanorods and nanospheres and their excellent catalytic activity in chemoselective reduction of nitrobenzenes
TL;DR: In this paper, a high-selective chemical route for the hydrothermal synthesis of Cu 0 nanorods and nanospheres using a long chain saturated fatty acid, viz. lauric acid as template is reported.
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Heterogeneous ditopic ZnFe2O4 catalyzed synthesis of 4H-pyrans: further conversion to 1,4-DHPs and report of functional group interconversion from amide to ester
TL;DR: In this article, the first attempt towards the synthesis of 4H-pyran-3-carboxylate was made using water as a reaction medium as well as a medium for synthesis of the catalyst.