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Sanjit Acharya
Sanjit Acharya
Fiber and Biopolymer Research Institute, Texas Tech University
Verified email at ttu.edu
Title
Cited by
Cited by
Year
Microfibers from synthetic textiles as a major source of microplastics in the environment: A review
S Acharya, SS Rumi, Y Hu, N Abidi
Textile Research Journal 91 (17-18), 2136-2156, 2021
1252021
Chemical cationization of cotton fabric for improved dye uptake
S Acharya, N Abidi, R Rajbhandari, F Meulewaeter
Cellulose 21, 4693-4706, 2014
1162014
Biopolymer-based materials from polysaccharides: Properties, processing, characterization and sorption applications
RS Dassanayake, S Acharya, N Abidi
Advanced sorption process applications, 1-24, 2018
1122018
Preparation and characterization of transparent cellulose films using an improved cellulose dissolution process
S Acharya, Y Hu, H Moussa, N Abidi
Journal of Applied Polymer Science 134 (21), 2017
732017
Recent advances in biopolymer-based dye removal technologies
RS Dassanayake, S Acharya, N Abidi
Molecules 26 (15), 4697, 2021
662021
Utilization of cellulose to its full potential: a review on cellulose dissolution, regeneration, and applications
S Acharya, S Liyanage, P Parajuli, SS Rumi, JL Shamshina, N Abidi
Polymers 13 (24), 4344, 2021
652021
Production and surface modification of cellulose bioproducts
S Liyanage, S Acharya, P Parajuli, JL Shamshina, N Abidi
Polymers 13 (19), 3433, 2021
392021
Cellulose porosity improves its dissolution by facilitating solvent diffusion
Y Hu, S Acharya, N Abidi
International journal of biological macromolecules 123, 1289-1296, 2019
282019
Role of low-concentration acetic acid in promoting cellulose dissolution
Y Hu, VD Thalangamaarachchige, S Acharya, N Abidi
Cellulose 25, 4389-4405, 2018
242018
Cellulose dissolution in ionic liquid under mild conditions: Effect of hydrolysis and temperature
S Acharya, Y Hu, N Abidi
Fibers 9 (1), 5, 2021
202021
Regenerated cellulose in textiles: Rayon, lyocell, modal and other fibres
P Parajuli, S Acharya, SS Rumi, MT Hossain, N Abidi
Fundamentals of natural fibres and textiles, 87-110, 2021
172021
Cellulose‐based monoliths with enhanced surface area and porosity
P Parajuli, S Acharya, Y Hu, N Abidi
Journal of Applied Polymer Science 137 (34), 48975, 2020
162020
Mild condition dissolution of high molecular weight cotton cellulose in 1‐butyl‐3‐methylimidazolium acetate/N,N‐dimethylacetamide solvent system
S Acharya, Y Hu, N Abidi
Journal of Applied Polymer Science 135 (9), 45928, 2018
142018
Review of foam applications on cotton textiles
E Hoque, S Acharya, J Shamshina, N Abidi
Textile Research Journal 93 (1-2), 486-501, 2023
62023
Cryogenic grinding of cotton fiber cellulose: The effect on physicochemical properties
JL Shamshina, S Acharya, SS Rumi, S Liyanage, P Parajuli, N Abidi
Carbohydrate Polymers 289, 119408, 2022
62022
Tuning the morphological properties of cellulose aerogels: an investigation of salt-mediated preparation
P Parajuli, S Acharya, JL Shamshina, N Abidi
Cellulose 28, 7559-7577, 2021
62021
Cellulose Nanocrystals - Sources, Preparation, and Applications: Research Advances
S Acharya, SR Sultana, P Parajuli, N Abidi
Cellulose Nanocrystals: Advances in Research and Applications, 2019
42019
Cotton cellulose-derived hydrogels with tunable absorbability: research advances and prospects
Y Hu, RS Dassanayake, S Acharya, N Abidi
Cellulose-Based Superabsorbent Hydrogels, 1-27, 2018
32018
Antimicrobial Coatings for Medical Textiles via Reactive Organo-Selenium Compounds
E Hoque, P Tran, U Jacobo, N Bergfeld, S Acharya, JL Shamshina, ...
Molecules 28 (17), 6381, 2023
12023
Insight into mild condition dissolution of high molecular weight cellulose in ionic liquid based solvent system
S Acharya, Y Hu, N Abidi
ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY 253, 2017
12017
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