Bratin Sengupta
Guest Writer at Freelance
Chemical Engineer | Water-Energy Nexus, Decarbonization Membranes, Adsorbents Researcher @Argonne, @NorthwesternU Alumni: @UBuffalo @rpi , @NITDurgapur
Articles
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1 month ago |
advanced.onlinelibrary.wiley.com | Yining Liu |Advanced Materials |Yuqin Wang |Bratin Sengupta
1 Introduction The recovery of lithium from water, which contains over 70% of the total recoverable lithium on earth,[1, 2] is becoming increasingly critical in addressing the surging demand from electric vehicles and other technologies. Traditional lithium extraction technologies from water include solar evaporation with precipitation and solvent extraction.
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Jun 27, 2024 |
science.org | Krishnan K Mahadevan |Dawid Zyla |Yiming Hu |Bratin Sengupta
Editor’s summaryGas separation is often done using solid membranes because it is hard to make porous ones with pores small enough to separate between gases that have similar atomic sizes. Hu et al. synthesized a series of ionic covalent organic framework (ICOF) materials by polymerizing monomers with tetraphenylborate linkages.
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Sep 7, 2023 |
metropolitandigital.com | Bratin Sengupta |Ph.D. candidate
Written by Bratin Sengupta, Ph.D. Candidate in Chemical and Biological Engineering, University at Buffalo Separating molecules is critical to producing many essential products. For example, in petroleum refining[1], the hydrocarbons – chemical compounds composed of hydrogens and carbons – in crude oil are separated into gasoline, diesel and lubricants by sorting them based on their molecular size, shape and weight.
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Sep 7, 2023 |
sfgate.com | Bratin Sengupta
(The Conversation is an independent and nonprofit source of news, analysis and commentary from academic experts.)Bratin Sengupta, University at Buffalo and Miao Yu, University at Buffalo(THE CONVERSATION) Separating molecules is critical to producing many essential products.
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Sep 7, 2023 |
science.org | Robin J. Dart |Eric J. Topol |Sriram Balusu |Bratin Sengupta
Published In ScienceVolume 381 | Issue 66628 September 2023Article versionsSubmission historyReceived: 18 February 2023Accepted: 11 August 2023Published in print: 8 September 2023PermissionsRequest permissions for this article.
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My talk at MRS Spring 2025 on super hydrophilic membranes for crude oil-water separation was highlighted in MRS meeting scene. At @argonne we are using Atomic Layer Deposition to make large scale functionalized polymeric membranes. #ALD #Membrane #MRS https://t.co/sC4llPno1P
RT @Memoirs: Benchmarking large language models for materials synthesis: the case of atomic layer deposition. https://t.co/k0RJdKZGNM
In our latest work published in Advanced Materials, we show that clay material can be used to fabricate Pillared Laminar Vermiculite Membranes that allows for tunable, monovalent and multivalent ion selectively. @argonne @NorthwesternU #Membranes https://t.co/5yFRm4nINp
