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Brian Chen
Researcher at Case Western Reserve University
Publications - 7
Citations - 1012
Brian Chen is an academic researcher from Case Western Reserve University. The author has contributed to research in topics: Syntactic foam & Borosilicate glass. The author has an hindex of 5, co-authored 7 publications receiving 237 citations. Previous affiliations of Brian Chen include New York University.
Papers
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Journal ArticleDOI
Deep Eutectic Solvents: A Review of Fundamentals and Applications.
Benworth Hansen,Stephanie Spittle,Brian Chen,Derrick Poe,Yong Zhang,Jeffrey M. Klein,Alexandre Horton,Laxmi Adhikari,Tamar Zelovich,Brian W. Doherty,Burcu Gurkan,Edward J. Maginn,Arthur J. Ragauskas,Mark Dadmun,Thomas A. Zawodzinski,Gary A. Baker,Mark E. Tuckerman,Robert F. Savinell,Joshua Sangoro +18 more
TL;DR: A detailed review of the current literature reveals the lack of predictive understanding of the microscopic mechanisms that govern the structure-property relationships in deep eutectic solvents, and highlights recent research efforts to elucidate the next steps needed to develop a fundamental framework needed for a deeper understanding.
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Sitagliptin lowers glucagon and improves glucose tolerance in prediabetic obese SHROB rats
Brian Chen,Alex Moore,Liza Victoria Escobedo,Matthew S. Koletsky,Diana Hou,Richard J. Koletsky,Paul Ernsberger +6 more
TL;DR: In this article, the DPP-IV inhibitor sitagliptin was shown to be effective in prediabetes relative to standard therapy with the sulfonylurea glyburide, by using the SHROB model.
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Thermal expansion and dynamic mechanical analysis of epoxy matrix–borosilicate glass hollow particle syntactic foams:
TL;DR: Syntactic foams are commonly fabricated with sodalime-borosilicate glass hollow microsphere fillers, which are susceptible to degradation after long-term or high temperature moisture exposure.
Journal ArticleDOI
Mechanical Properties of Epoxy Matrix-Borosilicate Glass Hollow-Particle Syntactic Foams
TL;DR: In this paper, epoxy matrix syntactic foams are fabricated using borosilicate glass hollow particles that are not susceptible to degradation in wet environments, and nine compositions are fabricated and tested for quasi-static compressive properties, high-strain-rate compressive property, and flexural properties.
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Feasibility of TEMPO-functionalized imidazolium, ammonium and pyridinium salts as redox-active carriers in ethaline deep eutectic solvent for energy storage
Brian Chen,Sarah M. Mitchell,Nicholas S. Sinclair,Jesse S. Wainright,Emily Pentzer,Burcu Gurkan +5 more
TL;DR: In this paper, the feasibility of (2,2,6,6-tetramethylpiperidin-1-yl)oxyl (TEMPO) derived halide salts as redox active species in ethaline was investigated.