Babloo Sharma Data-verified
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Postdoctoral Fellow
postdoc
Research Areas
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Biography and Research Information
OverviewAI-generated summary
Babloo Sharma investigates catalytic processes involving nanogels, focusing on their efficiency in glycoside hydrolysis. His research explores the relationship between surfactant properties, such as polarity and critical micelle concentration, and the catalytic performance of nanogels in breaking down disaccharides. Sharma also studies the solvent-induced inversion of colloidal aggregation during electrophoretic deposition, contributing to the understanding of material behavior under varying conditions. Additionally, his work examines the structure-activity relationships of polyacrylate microgels to identify sources of antibacterial activity, aiming to develop new anti-infective agents. Sharma has published 26 papers, which have been cited 292 times, and holds an h-index of 12. He has collaborated with researchers including Susanne Striegler, Robert H. Coridan, Justin Reed DeMoulpied, and Jessica A. Killenbeck at the University of Arkansas at Fayetteville.
Metrics
- h-index: 12
- Publications: 26
- Citations: 296
Selected Publications
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Nanogel Catalysts for the Hydrolysis of Underivatized Disaccharides Identified by a Fast Screening Assay (2023)
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Characterizing the Solvent‐Induced Inversion of Colloidal Aggregation During Electrophoretic Deposition (2022)
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Solvent-induced Inversion of Colloidal Aggregation During Electrophoretic Deposition (2022)
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Polarity and Critical Micelle Concentration of Surfactants Support the Catalytic Efficiency of Nanogels during Glycoside Hydrolyses (2022)
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Structure–Activity-Relationship Studies to Elucidate Sources of Antibacterial Activity of Modular Polyacrylate Microgels (2021)
Collaboration Network
Top Collaborators
- Polarity and Critical Micelle Concentration of Surfactants Support the Catalytic Efficiency of Nanogels during Glycoside Hydrolyses
- Nanogel Catalysts for the Hydrolysis of Underivatized Disaccharides Identified by a Fast Screening Assay
- Characterizing the Solvent‐Induced Inversion of Colloidal Aggregation During Electrophoretic Deposition
- Structure–Activity-Relationship Studies to Elucidate Sources of Antibacterial Activity of Modular Polyacrylate Microgels
- Solvent-induced Inversion of Colloidal Aggregation During Electrophoretic Deposition
- Characterizing the Solvent‐Induced Inversion of Colloidal Aggregation During Electrophoretic Deposition
- Solvent-induced Inversion of Colloidal Aggregation During Electrophoretic Deposition
- Characterizing the Solvent‐Induced Inversion of Colloidal Aggregation During Electrophoretic Deposition
- Solvent-induced Inversion of Colloidal Aggregation During Electrophoretic Deposition
- Characterizing the Solvent‐Induced Inversion of Colloidal Aggregation During Electrophoretic Deposition
- Solvent-induced Inversion of Colloidal Aggregation During Electrophoretic Deposition
- Characterizing the Solvent‐Induced Inversion of Colloidal Aggregation During Electrophoretic Deposition
- Solvent-induced Inversion of Colloidal Aggregation During Electrophoretic Deposition
- Structure–Activity-Relationship Studies to Elucidate Sources of Antibacterial Activity of Modular Polyacrylate Microgels
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