L
Lina Zhang
Researcher at Wuhan University
Publications - 794
Citations - 43476
Lina Zhang is an academic researcher from Wuhan University. The author has contributed to research in topics: Cellulose & Aqueous solution. The author has an hindex of 92, co-authored 708 publications receiving 35039 citations. Previous affiliations of Lina Zhang include Guangxi University & The Chinese University of Hong Kong.
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Journal ArticleDOI
Effects of Crosslinking Methods on Structure and Properties of Cellulose/PVA Hydrogels
Chunyu Chang,Ang Lue,Lina Zhang +2 more
TL;DR: In this article, a series of hydrogels were prepared from cellulose and PVA in NaOH/urea aqueous solution using both physical and chemical crosslinking methods.
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An effective and recyclable adsorbent for the removal of heavy metal ions from aqueous system: Magnetic chitosan/cellulose microspheres
TL;DR: A new kind of efficient recyclable magnetic chitosan/cellulose hybrid microspheres was prepared by sol-gel method that combined renewability and biocompatibility of ch itosan and cellulose as well as magnetic properties of γ-Fe2O3 to create a hybrid system in heavy metal ions removal.
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Structure and Properties of Regenerated Cellulose Films Prepared from Cotton Linters in NaOH/Urea Aqueous Solution
TL;DR: In this article, the dissolution of cellulose and the structure, transparency, and mechanical properties of regenerated cellulose (RC) films were investigated by 13C NMR, ultraviolet, and infrared spectroscopies; scanning electron microscopy; X-ray diffraction; and a strength test.
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Recent Progress in High-Strength and Robust Regenerated Cellulose Materials
TL;DR: The recent achievements for developing cellulose "green" solvents and regenerated cellulose materials with high strength via the "bottom-up" route are presented and some perspectives are also proposed.
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Effects of temperature and molecular weight on dissolution of cellulose in NaOH/urea aqueous solution
TL;DR: In this paper, the authors investigated the solubility of cellulose in NaOH/urea aqueous solution and found that the cellulose concentration in this system increased with a decrease in temperature, and cellulose having 12.7 × 104 could be dissolved completely in the solvent pre-cooled to −12.6°C.