T
Tao Wu
Researcher at Soochow University (Suzhou)
Publications - 160
Citations - 10203
Tao Wu is an academic researcher from Soochow University (Suzhou). The author has contributed to research in topics: Chalcogenide & Nanoclusters. The author has an hindex of 55, co-authored 160 publications receiving 8954 citations. Previous affiliations of Tao Wu include Wuhan University & University of California, Riverside.
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Journal ArticleDOI
Biaxially strained PtPb/Pt core/shell nanoplate boosts oxygen reduction catalysis
Lingzheng Bu,Nan Zhang,Shaojun Guo,Xu Zhang,Jing Li,Jianlin Yao,Tao Wu,Gang Lu,Jingyuan Ma,Dong Su,Xiaoqing Huang +10 more
TL;DR: A class of platinum-lead/platinum (PtPb/Pt) core/shell nanoplate catalysts that exhibit large biaxial strains appear to underlie the high endurance of these catalysts, which can undergo 50,000 voltage cycles with negligible activity decay and no apparent structure and composition changes.
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Tunable Redox-Responsive Hybrid Nanogated Ensembles
TL;DR: A new redox-responsive hybrid nanogated ensemble has been developed by introducing the disulfide-linked polymeric network at the outlet of mesoporous silica to release the loading in a tunable manner.
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Selective anion exchange with nanogated isoreticular positive metal-organic frameworks
TL;DR: The synthesis of a series of positive indium metal-organic frameworks are reported and their utilization as a platform for the anion exchange-based separation process, capable of size- or charge-selective ion-exchange of organic dyes and may form the basis for size- selective ion chromatography.
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Pore Space Partition and Charge Separation in Cage-within-Cage Indium−Organic Frameworks with High CO2 Uptake
TL;DR: Three unique cage-within-cage-based porous materials exhibit not only high hydrothermal, thermal, and photochemical stability but also attractive structural features contributing to a very high CO2 uptake capacity.
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Homochiral Crystallization of Microporous Framework Materials from Achiral Precursors by Chiral Catalysis
TL;DR: This work reports the homochiral crystallization of microporous materials through the chirality induction effect of natural alkaloids, and the resulting material possesses permanent microporosity and has a uniform pore size of 9.3 A.