Yusheng Xing scite author profile

Yusheng Xing

3Publications

73Citation Statements Received

88Citation Statements Given

How they've been cited

120

How they cite others

282

Affiliations

State Key Laboratory of Chemical Engineering, Zhejiang University

Publications

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Triple and Two-Way Reversible Shape Memory Polymer Networks with Body Temperature and Water Responsiveness

Liang

Amin

et al. 2021

Chem. Mater.

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Shape memory polymers (SMPs), as a class of intelligent materials, have shown great potential in biomedical and robotic fields. Although efforts have been made to design and fabricate SMPs in the past decades, most of the SMPs are not suitable for use in the human body due to their unpleasant triggering conditions. Furthermore, it is of great importance to diversify the shape memory effect (SME) of SMPs to extend their applications. In this work, through thiol-ene chemistry, SMPs based on random cross-linked hydrophobic polytetrahydrofuran (PTHF) and hydrophilic poly(ethylene glycol) (PEG) oligomers were facilely fabricated. These SMPs showed a body temperature-triggered two-way SME with a reversible strain of up to 25.2%. Besides, the SMPs exhibited a good body temperature- and water-triggered one-way triple-SME. These features bestowed the polymers with a bright future in biomedical applications. Polymer P60-G40 was applied as a new type of esophageal stent, and the in vitro assessment showed that the stent was adjustable, self-expandable, and had the ability to release drugs, which were attributed to the one-way triple-SME and two-way SME.

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Recent progress in EPR study of spin labeled polymers and spin probed polymer systems

Uddin

Naveed

et al. 2020

Journal of Polymer Science

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The EPR technique is commonly used for the detection and characterization of paramagnetic centers in chemical science. This method can provides a lot of information, such as identity, structure, dynamics, interaction, orientation, glass transition temperature, adsorption behavior, functionality, phase behavior, nano‐inhomogeneities, and conformation of the free‐radical portion of the polymer chain. Most polymers intrinsically possess diamagnetic properties, so in order to study polymers with EPR, paramagnetic centers need to be incorporated into the polymer systems. Spin labeling and spin probing are main methods of covalently attaching paramagnetic centers to polymer chains or embedding them in polymer matrices through non‐covalent interactions, respectively. Spin labeling and spin probing techniques for polymers and polymer systems (especially with nitroxide radicals) have also been studied, which have a profound impact on polymer science. This review focuses on the continuous wave EPR technique and introduces the recent advances in spin labeled polymers and spin probed polymer systems in EPR research.

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Recent progress in preparation of branched polyethylene with nickel, titanium, vanadium and chromium catalytic systems and EPR study of related catalytic systems

Xing

Wang

et al. 2019

European Polymer Journal

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Yusheng Xing

Triple and Two-Way Reversible Shape Memory Polymer Networks with Body Temperature and Water Responsiveness

Recent progress in EPR study of spin labeled polymers and spin probed polymer systems

Recent progress in preparation of branched polyethylene with nickel, titanium, vanadium and chromium catalytic systems and EPR study of related catalytic systems

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