D
Darshan C. Patel
Researcher at University of Texas at Arlington
Publications - 30
Citations - 894
Darshan C. Patel is an academic researcher from University of Texas at Arlington. The author has contributed to research in topics: Medicine & Internal medicine. The author has an hindex of 13, co-authored 26 publications receiving 702 citations. Previous affiliations of Darshan C. Patel include University of Alberta Hospital & Westchester Medical Center.
Papers
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Journal ArticleDOI
Advances in high-throughput and high-efficiency chiral liquid chromatographic separations.
TL;DR: This review covers the development of new, high efficiency chiral separation methods and stationary phases, which primarily occurred over the last 15 years, and future directions in continuing to improve chiral separations are discussed.
Journal ArticleDOI
Gone in Seconds: Praxis, Performance, and Peculiarities of Ultrafast Chiral Liquid Chromatography with Superficially Porous Particles
Darshan C. Patel,Zachary S. Breitbach,M. Farooq Wahab,Chandan L. Barhate,Daniel W. Armstrong +4 more
TL;DR: It is shown that the kinetic behavior of various CSPs can differ from one another as much as they differ from the well-studied C18 reversed phase media, which can produce interesting secondary effects in enantiomeric separations.
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Pulmonary Embolism and Increased Levels of d-Dimer in Patients with Coronavirus Disease.
Daniel O. Griffin,Alexandra Jensen,Mushmoom Khan,Jessica Chin,Kelly Chin,Jennifer Saad,Ryan Parnell,Christopher Awwad,Darshan C. Patel +8 more
TL;DR: 3 patients with coronavirus disease who had a decline in respiratory status during their hospital course that responded well to intravenous steroids and interleukin-6 receptor antagonist therapy and later showed development of persistent hypoxia are reported.
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Salient Sub-Second Separations.
M. Farooq Wahab,Rasangi M. Wimalasinghe,Yadi Wang,Chandan L. Barhate,Darshan C. Patel,Daniel W. Armstrong +5 more
TL;DR: Modified UHPLC hardware can be used to obtain sub-second separations provided extra-column dispersion is minimized and sufficient data acquisition rates are used, and the utility of power transform, which is already employed in certain chromatography detectors, is shown to be advantageous.
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Fundamental and Practical Insights on the Packing of Modern High-Efficiency Analytical and Capillary Columns.
TL;DR: This perspective provides an extensive set of slurry solvents, hardware designs, and a flowchart, a logical approach to optimal column packing, thus eliminating the trial and error approach commonly practiced today.