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Bin Tang
Researcher at Southern University of Science and Technology
Publications - 90
Citations - 2211
Bin Tang is an academic researcher from Southern University of Science and Technology. The author has contributed to research in topics: Medicine & Chemistry. The author has an hindex of 20, co-authored 69 publications receiving 1660 citations. Previous affiliations of Bin Tang include Li Ka Shing Faculty of Medicine, University of Hong Kong & South University of Science and Technology of China.
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Viscoelastic effects during unloading in depth-sensing indentation
TL;DR: In this article, a linear viscoelasticity analysis was performed to interpret the effect of a nose appearing in the unloading segment of the load-displacement curve during nanoindentation.
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Accurate measurement of tip–sample contact size during nanoindentation of viscoelastic materials
TL;DR: In this paper, the effect of creep on contact-depth measurement is considered, and removal of creep effects in both contact stiffness and contact-area measurement leads to satisfactory prediction of the reduced moduli in polypropylene (PP) and amorphous selenium (a-Se).
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Correcting power-law viscoelastic effects in elastic modulus measurement using depth-sensing indentation
TL;DR: In this paper, a correction formula for the general power-law viscoelastic situation using a Maxwell material model was proved for the amorphous selenium at ambient and elevated temperatures and was found to be effective in correcting for creep effects.
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New insights into synergistic antimicrobial and antifouling cotton fabrics via dually finished with quaternary ammonium salt and zwitterionic sulfobetaine
Shaobo Zhang,Xinghui Yang,Bin Tang,Lingjun Yuan,Kui Wang,Xiangyu Liu,Xingli Zhu,Jianna Li,Zaochuan Ge,Shiguo Chen +9 more
TL;DR: A facile and environment-friendly finishing method for cotton fabrics using zwitterionic sulfopropylbetaine (ISB) and quaternary ammonium salt (IQAS) with reactive isocyanate group (NCO) via dipping-padding-drying process was reported in this article.
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Interrogating the Escherichia coli cell cycle by cell dimension perturbations
Hai Zheng,Po-Yi Ho,Meiling Jiang,Bin Tang,Weirong Liu,Dengjin Li,Xue-Feng Yu,Nancy Kleckner,Ariel Amir,Chenli Liu +9 more
TL;DR: The robustness of the growth law to systematic perturbations in cell dimensions to the recently proposed “adder-per-origin” model, in which cells add a constant volume per origin between initiations and divide a constant time after initiation, strongly supports models in which the timing of replication initiation governs that of cell division.