中国科学技术大学谈鹏--中文主页--论文成果

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谈鹏

特任教授
电子邮箱：
办公地点：中国科学技术大学西校区力5楼910室
联系方式：0551-63601102
学位：博士

2019-01-01曾获荣誉当选：仲英青年学者

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论文成果

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[21]P. Tan, et al. Integration of Zn−Ag and Zn−Air Batteries: A Hybrid Battery with the Advantages of Both, ACS Applied Material & Interfaces, 2018, 10, 36873−36881. (IF: 8.456).
[22]P. Tan, et al. A RuO2 nanoparticle-decorated buckypaper cathode for non-aqueous lithium-oxygen batteries, Journal of Materials Chemistry A, 2015, 3, 19042–19049. (IF: 10.733).
[23]W. Yu, W. Shang, P. Tan*, et al., Toward a New Generation of Low Cost, Efficient, and Durable Metal-Air FlowBatteries,Journal of Materials Chemistry A, 2019, 7, 26744–26768. (IF: 10.733).
[24]W. Shang, W. Yu, P. Tan*, et al. Achieving high energy density and efficiency through integration: progress in hybrid zinc batteries, Journal of Materials Chemistry A, 2019, 7, 15564–15574. (IF: 10.733).
[25]P. Tan, et al. Co3O4 Nanosheets as Active Material for Hybrid Zn Batteries, Small, 2018, 14, 1800225. (IF: 10.856).
[26]P. Tan, et al. In-situ growth of Co3O4 nanowire-assembled clusters on nickel foam for aqueous rechargeable Zn-Co3O4 and Zn-air batteries, Applied Catalysis B: Environmental, 2019, 241, 104–112. (IF: 14.229).
[27]P. Tan, et al. Recent advances in perovskite oxides as electrode materials for non-aqueous lithium-oxygen batteries, Advanced Energy Materials, 2017, 7, 1602674. (IF: 24.884).
[28]P. Tan, et al. Advances in modeling and simulation of Li-air batteries, Progress in Energy and Combustion Science, 2017, 62, 155–189. (IF: 26.467).
[29]P. Tan, et al. A nano-structured RuO2/NiO cathode enables the operation of non-aqueous lithium-air batteries in ambient air, Energy & Environmental Science, 2016, 9, 1783–1793. (IF: 33.250).
[30]P. Tan, et al. Flexible Metal-Air Batteries: Recent Advances, Challenges, and Future Perspectives, Energy & Environmental Science, 2017, 10, 2056–2080. (IF: 33.250).

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