华北电力大学能源动力与机械工程学院-37000dcm威尼斯

姓名：岳俊培

职称：特聘副教授

院系：能源动力与机械工程学院

研究方向：

纳米材料、储能材料

37000dcm威尼斯的联系方式：

电话：010-61772812

邮箱：jpyue@ncepu.edu.cn

地址：主楼f602

个人简介：

2004-2008年武汉理工大学应用化学系本科,

2008-2011年厦门大学物理化学专业硕士学位

2012-2016年德国吉森大学理学博士学位

2016-2017年德国吉森大学博士后

2017-2021年中国科学院化学研究所博士后

2021年至今 华北电力大学 特聘副教授

主要科研项目情况：

第12批中国博士后科学基金特别资助(2019t120135) 2019.06-21.07 固态电池中复合锂负极的设计及性能研究, 18万元

国家自然科学基金青年基金 (22005313) 2021.01-23.12 均相纳米复合固体电解质的化学制备及电化学性能研究, 24万元

代表性论著：

1. yue, j.; xin, s.; guo, y.-g.*, recent progress and design principles of nanocomposite solid electrolytes. current opinion in electrochemistry 2020, 22, 195-202.

2. yue, j.; guo, y.-g.*, solid-state batteries the devil is in the electrons. nature energy 2019, 4 (3), 174-175.

3. yue, j.; yan, m.; yin, y.-x.; guo, y.-g.*, progress of the interface design in all-solid-state li-s batteries. advanced functional materials 2018, 28 (38) 1707533.

4. yue, j.; badaczewski, f. m.; voepel, p.; leichtweiss, t.; mollenhauer, d.; zeier, w. g.; smarsly, b. m.*, critical role of the crystallite size in nanostructured li₄ti₅o₁₂ anodes for lithium-ion batteries. acs applied materials & interfaces 2018, 10 (26), 22580-22590.

5. yue, j.; suchomski, c.; voepel, p.; ellinghaus, r.; rohnke, m.; leichtweiss, t.; elm, m. t.; smarsly, b. m.*, mesoporous niobium-doped titanium dioxide films from the assembly of crystalline nanoparticles: study on the relationship between the band structure, conductivity and charge storage mechanism. journal of materials chemistry a 2017, 5 (5), 1978-1988.

6. yue, j.; suchomski, c.; brezesinski, t.*; smarsly, b. m.*, polymer-templated mesoporous li₄ti₅o₁₂ as a high-rate and long-life anode material for rechargeable li-ion batteries. chemnanomat 2015, 1 (6), 415-421.

7. tian s.-j. ; yue j. ; tian y.; ma q.; wan j.; xiao y.; zhang j.; yin y.-x.; xin s. *; guo y.-g. *, in-situ encapsulating flame-retardant phosphate into robust polymer matrix for safe and stable quasi-solid-state lithium metal batteries. energy storage materials 2021, energy storage materials 2021, 39, 186–193.

8. yuan, x.; mo, j.; huang, j.; liu, j.; liu, c.; zeng, x.; zhou, w.; yue, j.*; wu, x.*; wu, y.*, an aqueous hybrid zinc-bromine battery with high voltage and energy density. chemelectrochem 2020, 7 (7), 1531-1536.

9. zeng, x. x.; xu, y. t.; yin, y. x.; wu, x. w.*; yue, j.*; guo, y. g.*, recent advances in nanostructured electrode-electrolyte design for safe and next-generation electrochemical energy storage. materials today nano 2019, 8, 100057.

10. ling, w.; wang, z.-a.; ma, q.; deng, q.; tang, j.-f.; deng, l.; zhu, l.-h.; wu, x.-w.*; yue, j.*; guo, y.-g.*, phosphorus and oxygen co-doped composite electrode with hierarchical electronic and ionic mixed conducting networks for vanadium redox flow batteries. chemical communications 2019, 55 (77), 11515-11518.

11. wang, s.-h.; yue, j.; dong, w.; zuo, t.-t.; li, j.-y.; liu, x.; zhang, x.-d.; liu, l.; shi, j.-l.; yin, y.-x.; guo, y.-g.*, tuning wettability of molten lithium via a chemical strategy for lithium metal anodes. nature communications 2019, 10, 4930.

12. tan, s.-j.; yue, j.; hu, x.-c.; shen, z.-z.; wang, w.-p.; li, j.-y.; zuo, t.-t.; duan, h.; xiao, y.; yin, y.-x.; wen, r.; guo, y.-g.*, nitriding-interface-regulated lithium plating enables flame-retardant electrolytes for high-voltage lithium metal batteries. angewandte chemie-international edition 2019, 58 (23), 7802-7807.

13. ma, q.; yue, j.; fan, m.; tan, s.-j.; zhang, j.; wang, w.-p.; liu, y.; tian, y.-f.; xu, q.; yin, y.-x.; you, y.; luo, a.; xin, s.*; wu, x.-w.*; guo, y.-g.*, formulating the electrolyte towards high-energy and safe rechargeable lithium-metal batteries. angewandte chemie-international edition, 2021, 60,16554–16560.