G
Gaurav Verma
Researcher at University of North Texas
Publications - 124
Citations - 3262
Gaurav Verma is an academic researcher from University of North Texas. The author has contributed to research in topics: Biology & Metal-organic framework. The author has an hindex of 25, co-authored 99 publications receiving 2146 citations. Previous affiliations of Gaurav Verma include University of South Florida & National Institute of Malaria Research.
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Green nanocomposites based on thermoplastic starch and steam exploded cellulose nanofibrils from wheat straw
TL;DR: In this paper, the cellulose nanofibrils were extracted from wheat straw using steam explosion, acidic treatment and high shear mechanical treatment, and the results confirmed the crystalline nature of the fiber.
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Metal-organic framework nanocrystal-derived hollow porous materials: Synthetic strategies and emerging applications
Xiaolu Liu,Gaurav Verma,Zhong-Ying Chen,Baowei Hu,Qi-Fei Huang,Hui Yang,Shengqian Ma,Xiangke Wang +7 more
TL;DR: A comprehensive overview of the synthetic strategies and emerging applications of hollow porous materials derived from MOF-based templates and/or precursors is given in this article , where a perspective on the research challenges and future opportunities and prospects for MOF derived hollow materials is provided.
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Indium–Organic Frameworks Based on Dual Secondary Building Units Featuring Halogen-Decorated Channels for Highly Effective CO2 Fixation
TL;DR: In this paper, three isostructural indium-organic frameworks based on dual secondary building units (SBUs) were successfully constructed with a bifunctional ligand-directed strategy.
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A MOF‐based Ultra‐Strong Acetylene Nano‐trap for Highly Efficient C 2 H 2 /CO 2 Separation
Zheng Niu,Xili Cui,Tony Pham,Gaurav Verma,Pui Ching Lan,Chuan Shan,Huabin Xing,Katherine A. Forrest,Shanelle Suepaul,Brian Space,Ayman Nafady,Abdullah M. Al-Enizi,Shengqian Ma +12 more
TL;DR: In this paper, a new type of ultra-strong C2 H2 nano-trap based on multiple binding interactions was proposed to efficiently capture C2H2 molecules and separate C 2 H2 /CO2 mixture.
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Bioconversion of starch to ethanol in a single-step process by coculture of amylolytic yeasts and Saccharomyces cerevisiae 21
TL;DR: In batch fermentations using cocultures maximum ethanol production occurred in 48 h of fermentation at 30°C using 60 g/l starch, and Fermentation efficiency was found lower in a two-step process using α-amylase and glucoamylases-treated starch.