R
Raghuram Thyagarajan
Researcher at University of Massachusetts Amherst
Publications - 9
Citations - 559
Raghuram Thyagarajan is an academic researcher from University of Massachusetts Amherst. The author has contributed to research in topics: Smoluchowski coagulation equation & Nanoporous. The author has an hindex of 6, co-authored 7 publications receiving 345 citations. Previous affiliations of Raghuram Thyagarajan include Georgia Institute of Technology & University of Minnesota.
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Journal ArticleDOI
Ultra-selective high-flux membranes from directly synthesized zeolite nanosheets
Mi Young Jeon,Donghun Kim,Prashant Kumar,Pyung Soo Lee,Neel Rangnekar,Peng Bai,Meera Shete,Bahman Elyassi,Han Seung Lee,Katabathini Narasimharao,Sulaiman Nasir Basahel,Shaeel A. Al-Thabaiti,Wenqian Xu,Hong Je Cho,Evgenii O. Fetisov,Raghuram Thyagarajan,Robert F. DeJaco,Wei Fan,K. Andre Mkhoyan,J. Ilja Siepmann,Michael Tsapatsis +20 more
TL;DR: A nanocrystal-seeded growth method triggered by a single rotational intergrowth is used to synthesize high-aspect-ratio MFI nanosheets with a thickness of 5 nanometres (2.5 unit cells), which allow the fabrication of thin and defect-free coatings that effectively cover porous substrates.
Posted ContentDOI
How Reproducible Are Surface Areas Calculated from the BET Equation
Johannes W.M. Osterrieth,Rampersad J,David G. Madden,Nakul Rampal,Luka Skoric,Bethany M. Connolly,Mark D. Allendorf,Stavila,Jonathan L. Snider,Rob Ameloot,João Marreiros,Conchi O. Ania,Azevedo Dcs,Vilarrasa-García E,Santos Bf,Bu X,Zang X,Bunzen H,Neil R. Champness,Sarah L. Griffin,Chen B,Lin R,Benoit Coasne,Seth M. Cohen,Moreton Jc,Yamil J. Colón,Chen L,Clowes R,François-Xavier Coudert,Cui Y,Hou B,D’Alessandro D,Doheny Pw,Mircea Dincă,Chenyue Sun,Christian J. Doonan,Michael T. Huxley,Jack D. Evans,falcaro p,Raffaele Ricco,Omar K. Farha,Karam B. Idrees,Timur Islamoglu,Feng P,Yang H,Ross S. Forgan,Dominic Bara,Shuhei Furukawa,Sanchez E,Jorge Gascon,Telalovic S,Ghosha Sk,Soumya Mukherjee,Matthew R. Hill,Muhammad Sadiq,Patricia Horcajada,Salcedo-Abraira P,Kaneko K,Kukobat R,Kenvin J,Seda Keskin,Susumu Kitagawa,Ken-ichi Otake,Ryan P. Lively,DeWitt Sja,Philip L. Llewellyn,Bettina V. Lotsch,Sebastian T. Emmerling,Pütz A,Carlos Martí-Gastaldo,Muñoz N,Garcia-Martinez J,Linares N,Daniel Maspoch,Suarez Ja,Peyman Z. Moghadam,Rama Oktavian,Russell E. Morris,Paul S. Wheatley,Jorge A. R. Navarro,Camille Petit,David Danaci,Matthew J. Rosseinsky,Alexandros P. Katsoulidis,Martin Schröder,Han X,Yang S,Christian Serre,Georges Mouchaham,David S. Sholl,Raghuram Thyagarajan,Daniel W. Siderius,Randall Q. Snurr,Goncalves Rb,Shane G. Telfer,Lee Sj,Ting,Rowlandson J,Uemura T,Iiyuka T,van der Veen M,Rega D,Vanspeybroeck,Aran Lamaire,Sven Rogge,Krista S. Walton,Lukas W. Bingel,Stefan Wuttke,Jacopo Andreo,Omar M. Yaghi,Zhang B,Yavuz C,Nguyen T,Félix Zamora,Carmen Montoro,Zhou H,Angelo K,David Fairen-Jimenez +117 more
TL;DR: In this article, the reproducibility of surface area determination from identical isotherms is investigated and a new computational approach is developed to accurately and systematically determine the surface area of nanoporous materials.
Journal ArticleDOI
Controlling assembly of colloidal particles into structured objects: Basic strategy and a case study
Michael A. Bevan,David M. Ford,Martha A. Grover,Benjamin Shapiro,Dimitrios Maroudas,Yuguang Yang,Raghuram Thyagarajan,Xun Tang,Ray M. Sehgal +8 more
TL;DR: In this paper, a computational study is presented in which real-time manipulation of the interaction potential between particles in a colloidal system is used to control their assembly into a close-packed crystalline object.
Journal ArticleDOI
A Database of Porous Rigid Amorphous Materials
TL;DR: In this paper, a large database of crystalline porous material structures have been available for the simulation of nanoporous materials, including a large number of lattice-based simulations of porous materials.
Journal ArticleDOI
Transport of microorganisms into cellulose nanofiber mats
Katrina A. Rieger,Raghuram Thyagarajan,M. E. Hoen,H. F. Yeung,David M. Ford,Jessica D. Schiffman +5 more
TL;DR: In this article, the authors evaluated the microbial uptake capacity of three hydrophilic cellulose sorbents, a high surface area electrospun nanofiber mat, as well as two commercial products, a macrofibrous Fisherbrand fabric and an adsorptive Sartorius membrane.