Z
Zhifeng Ren
Researcher at Texas Center for Superconductivity
Publications - 726
Citations - 84970
Zhifeng Ren is an academic researcher from Texas Center for Superconductivity. The author has contributed to research in topics: Thermoelectric effect & Thermoelectric materials. The author has an hindex of 122, co-authored 695 publications receiving 71212 citations. Previous affiliations of Zhifeng Ren include Massachusetts Institute of Technology & University of Cincinnati.
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Efficient Alkaline Seawater Oxidation by a Three-dimensional Core-shell Dendritic NiCo@NiFe Layered Double Hydroxide Electrode
Fanghao Zhang,Yifei Liu,Libo Wu,Min Ning,Shaowei Song,Xin Xiao,Viktor G. Hadjiev,Donglei Fan,De-Yi Wang,Luo Yu,Shuo Chen,Zhifeng Ren +11 more
TL;DR: In this article , a three-dimensional core-shell dendritic catalyst was developed by vertically growing NiFe layered double hydroxide (LDH) nanosheets on Dendritic NiCo branches (denoted as [email protected] LDH).
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Preparation of high Jc YBCO coated conductors on non-magnetic Ni–W substrates
TL;DR: In this paper, an electrodeposition approach has been developed to epitaxially grow an about 2m Ni layer (Ed?Ni layer) on Ni?3?at%?W tapes.
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Electrochemical Insight into NaxCoO2 for the Oxygen Evolution Reaction and the Oxygen Reduction Reaction
Shaowei Song,Yaqin Wang,Ryan C. Davis,Zhensong Ren,Xin Xiao,Guang Yang,Dezhi Wang,Jiming Bao,Qinyong Zhang,Shuo Chen,Zhifeng Ren +10 more
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Interactions between amphiphilic Janus nanosheets and a nonionic polymer in aqueous and biphasic systems.
TL;DR: This work tries to understand the interactions between amphiphilic Janus nanosheets and a model nonionic polymer, hydroxyethyl cellulose (HEC), under different electrolyte and temperature conditions in both aqueous and biphasic systems by employing molecular dynamics simulations as well as experiments and finds that the attachment of HEC onto the nanosheet surfaces exhibits ion-concentration-dependent behavior in the aQueous phase.
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High thermoelectric performance at room temperature of n-type Mg3Bi2-based materials by Se doping
Xiaobo Mo,Luo Zhang,Jiansong Liao,Guocai Yuan,Sha Zhu,Xiaobo Lei,Huang Lihong,Huang Lihong,Qinyong Zhang,Chao Wang,Zhifeng Ren +10 more
TL;DR: The n-type Mg3Bi1.4Sb0.6 materials were shown to have improved thermoelectric performance with high carrier concentration and mobility as well as thermal conductivity reduction.