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Xuliang Lin
Researcher at Guangdong University of Technology
Publications - 61
Citations - 1302
Xuliang Lin is an academic researcher from Guangdong University of Technology. The author has contributed to research in topics: Chemistry & Lignin. The author has an hindex of 15, co-authored 30 publications receiving 677 citations. Previous affiliations of Xuliang Lin include South China University of Technology.
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Rational design of 3D/2D In2O3 nanocube/ZnIn2S4 nanosheet heterojunction photocatalyst with large-area “high-speed channels” for photocatalytic oxidation of 2,4-dichlorophenol under visible light
TL;DR: The optimized 3D/2D ZnIn2S4-In2O3 photocatalyst shows excellent photocatalytic activity and stability in the degradation of 2,4-DCP, and provides a new strategy for efficiently optimize the advantages of binary nano-architectures to effectively degrade phenolic pollutants in the environment.
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Reducing non-productive adsorption of cellulase and enhancing enzymatic hydrolysis of lignocelluloses by noncovalent modification of lignin with lignosulfonate.
TL;DR: Aside from improving the cellulase activity to cellulose, the enhancements of enzymatic hydrolysis of lignocellulose by adding AL-PEG1000 and SXPs are the result of the decreased cellulase non-productive adsorption on lignin.
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Facile fabrication and characterization of highly stretchable lignin-based hydroxyethyl cellulose self-healing hydrogel.
Siqi Huang,Su Shuyi,Haibo Gan,Wu Linjun,Chaohui Lin,Xu Danyuan,Haifeng Zhou,Xuliang Lin,Yanlin Qin +8 more
TL;DR: The lignin-based HEC-PVA (LCP) self-healing conductive hydrogel with highly stretchable and thermosensitive properties with good thermosensitivity and electrical conductivity were very promising for applications in the fields of 3D printing and wearable electronic devices.
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Synthesis, Structure, and Dispersion Property of a Novel Lignin-Based Polyoxyethylene Ether from Kraft Lignin and Poly(ethylene glycol)
TL;DR: In this paper, a water-soluble lignin-based polyoxyethylene ether (KL-PEG) copolymer was synthesized from kraft lignins and poly(ethylene glycol) (PEG), which was functionalized preferentially with epichlorohydrin using BF3-Et2O as the Lewis acid catalyst.
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Nonionic surfactants enhanced enzymatic hydrolysis of cellulose by reducing cellulase deactivation caused by shear force and air-liquid interface.
Hongming Lou,Meijun Zeng,Qiaoyan Hu,Cheng Cai,Xuliang Lin,Xueqing Qiu,Dongjie Yang,Yuxia Pang +7 more
TL;DR: It was proposed that nonionic surfactants could enhance the enzymatic hydrolysis of Avicel by reducing the cellulase deactivation caused by shear force and air-liquid interface.