Qinxian Ye
Shanghai Jiao Tong University
11 Papers
58 Citations
Qinxian Ye is an academic researcher from Shanghai Jiao Tong University. The author has contributed to research in topics: Thermal energy & Thermal energy storage. The author has an hindex of 9, co-authored 11 publications.
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Papers
Dynamic tuning of optical absorbers for accelerated solar-thermal energy storage
Zhongyong Wang,Zhen Tong,Qinxian Ye,Hang Hu,Xiao Nie,Chen Yan,Wen Shang,Chengyi Song,Jianbo Wu,Jun Wang,Hua Bao,Peng Tao,Tao Deng +12 more
TL;DR: A magnetically enhanced photon-transport-based charging approach is reported, which enables the dynamic tuning of the distribution of optical absorbers dispersed within phase-change materials, to simultaneously achieve fast charging rates, large phase- change enthalpy, and high solar-thermal energy conversion efficiency.
Paper-based membranes on silicone floaters for efficient and fast solar-driven interfacial evaporation under one sun
Zizhao Wang,Qinxian Ye,Xingbo Liang,Jiale Xu,Chao Chang,Chengyi Song,Wen Shang,Jianbo Wu,Peng Tao,Tao Deng +9 more
TL;DR: In this article, a paper-based reduced graphene oxide (PrGO) composite membrane on top of a silicone-based porous insulation layer (PIL) was designed and developed by integrating a high-efficiency and fast-response solar-driven interfacial evaporation system.
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Form-Stable Solar Thermal Heat Packs Prepared by Impregnating Phase-Changing Materials within Carbon-Coated Copper Foams
Qinxian Ye,Peng Tao,Chao Chang,Linye Zhou,Xiaoliang Zeng,Chengyi Song,Wen Shang,Jianbo Wu,Tao Deng +8 more
TL;DR: A strategy for preparing high-performance PCM-based solar thermal heat packs through impregnating organic PCMs within carbon-coated copper foams (CCFs) to significantly increase the extractable thermal energy and prolongs the usable healing duration for thermotherapy.
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Rapid Charging of Thermal Energy Storage Materials through Plasmonic Heating
Zhongyong Wang,Peng Tao,Yang Liu,Hao Xu,Qinxian Ye,Hang Hu,Chengyi Song,Zhaoping Chen,Wen Shang,Tao Deng +9 more
TL;DR: In this paper, a facile approach for rapid and efficient charging of thermal energy storage materials by the instant and intense photothermal effect of uniformly distributed plasmonic nanoparticles was reported.
Bioinspired roll-to-roll solar-thermal energy harvesting within form-stable flexible composite phase change materials
Chao Chang,Xiao Nie,Xiaoxiang Li,Peng Tao,Benwei Fu,Zhongyong Wang,Jiale Xu,Qinxian Ye,Jingyi Zhang,Chengyi Song,Wen Shang,Tao Deng +11 more
TL;DR: Wang et al. as mentioned in this paper demonstrate rapid roll-to-roll solar-thermal energy harvesting within flexible form-stable composite phase change materials, where thin composite sheets are exposed to solar radiation for rapid charging while being continuously rolled.
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