Xiaoping Yang
Beijing University of Chemical Technology
Composite numberUltimate tensile strengthCuring (chemistry)ElectrospinningNanoparticleComposite materialEpoxyNanotechnologyCarbon nanofiberChemistryPolymer chemistryMaterials scienceBone regenerationChemical engineeringCarbon nanotubePolymerLithiumAnodeNanofiberNanocomposite
333Publications
44H-index
7,204Citations
Publications 324
Newest
#1Yiqian Huang (Huada: Beijing University of Chemical Technology)H-Index: 7
#2Wei Jing (Huada: Beijing University of Chemical Technology)H-Index: 7
Last. Xiaoping Yang (Huada: Beijing University of Chemical Technology)H-Index: 44
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Abstract Bone is an electrically responsive tissue, so electroactive materials that can deliver electrical cues to bone are helpful for enhancing regeneration under electrical stimulation (ES), and conductive materials are crucial in ES transmission to determine osteogenesis. Compared with polyesters, biodegradable polyorganophosphazenes (POPPs) show superiority in the field of bone tissue engineering thanks to their rich phosphorus/nitrogen contents, suggesting that the combination of POPPs-bas...
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#1Huan Xianhua (Huada: Beijing University of Chemical Technology)H-Index: 1
#2Wu Tianyu (Huada: Beijing University of Chemical Technology)H-Index: 1
Last. Xiaoping Yang (Huada: Beijing University of Chemical Technology)H-Index: 44
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Abstract This study presented an economic and closed-loop recycling approach of carbon fibre reinforced polymers (CFRP) comprising phosphoric acid derived efficient reclaimation of recycled CF (rCF) and re-manufacture of high performance epoxy (EP) composites reinforced by highly-aligned rCF mat. The integral rCF with clean surface and intact graphitization structure showed the high retention ratios of 97.1 and 99.5% in tensile strength and modulus, respectively, as well as highly-aligned arrang...
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#1Linan Feng (Huada: Beijing University of Chemical Technology)
#2Ruili Wu (Huada: Beijing University of Chemical Technology)H-Index: 2
Last. Xiaoping Yang (Huada: Beijing University of Chemical Technology)H-Index: 44
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The interfacial issue is a critical factor affecting the thermoelectric performance in the organic–inorganic composite system. However, in the traditionally adopted solution casting method for orga...
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#1Tianyi ZhengH-Index: 2
#2Liying GuoH-Index: 3
Last. Xiaoping YangH-Index: 44
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#1Wenwei Zhan (Huada: Beijing University of Chemical Technology)H-Index: 6
#2Ming ZhuH-Index: 10
Last. Gang Sui (Huada: Beijing University of Chemical Technology)H-Index: 30
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#1Liwen ZhangH-Index: 1
#2Lei FuH-Index: 1
Last. Xiaoping YangH-Index: 44
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1 CitationsSource
#1Kangyi Lu (PKU: Peking University)
#2Xin Ge (PKU: Peking University)
Last. Hanyang Liu (BIT: Beijing Institute of Technology)
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#1Kangyi Lu (Huada: Beijing University of Chemical Technology)H-Index: 2
#2Wenmo Zhu (Huada: Beijing University of Chemical Technology)
Last. Xiaoping Yang (Huada: Beijing University of Chemical Technology)H-Index: 44
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Abstract Epoxy matrix with high modulus was synergistically designed by organic amide acid (AA) and inorganic nano silica (SiO2) as well as stiffened interphase of carbon fiber composite, and the effects of matrix modulus on longitudinal compressive strength and failure mechanism of composites were investigated. The elastic and shear modulus of matrix was enhanced by increased chemical cross-linking cites of AA and mechanical restraint of SiO2, contributing to improved interfacial properties fro...
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#1Xiaona Chen (Huada: Beijing University of Chemical Technology)H-Index: 1
#2Linan Feng (Huada: Beijing University of Chemical Technology)
Last. Xiaoping Yang (Huada: Beijing University of Chemical Technology)H-Index: 44
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Flexible thermoelectric materials and devices have gained wide attention due to their capability to stably and directly convert body heat or industrial waste heat into electric energy. Many research and synthetic methods of flexible high-performance p-type thermoelectric materials have made great progress. However, their counterpart flexible n-type organic thermoelectric materials are seldom studied due to the complex synthesis of conductive polymer and poor stability of n-type materials. In thi...
1 CitationsSource