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师资简介

杨卢奕

职       务:副研究员

最高学历:英国南安普顿大学博士

研究领域:固态电池、负极材料

邮       箱:yangly@pkusz.edu.cn

个人主页:http://www.pkusam.cn/China/Members.html

浏览次数:

  厦门大学化学系学士(2010)、英国南安普顿大学化学系博士(2015)。云顶集团游戏登录网站深圳研究生院博士后(2016-2020)、助理研究员(2020-2021)、副研究员(2021至今)。发表学术论文40余篇,引用次数1200余次。目前主要开展下一代储能材料(固态电池、负极材料)的制备与表征研究。

研究领域:

  1. 固态电解质(聚合物电解质、无机电解质、复合电解质)

  2. 固态电池界面表征与机理研究

  3. 导电粘结剂在新型负极材料中的应用

  4. 新型负极材料的研究

  5. 电池材料放大合成与软包电池组装


代表性论文:

2021

[1] Y. Ji#, K. Yang#, M. Liu#, S. Chen#, X. Liu*, B. Yang, Z. Wang, W. Huang, Z. Song, S. Xue, Y. Fu, L. Yang*, T. S. Miller, F. Pan*, PIM-1 as a Multifunctional Framework to Enable High-Performance Solid-State Lithium–Sulfur Batteries, Adv. Funct. Mater., (2021), 10.1002/adfm.202104830. (IF = 18.808)

[2] K. Yang#, L. Yang#, Z. Wang#, B. Guo, Z. Song, Y. Fu, Y. Ji, M. Liu, W. Zhao, X. Liu*, S. Yang*, F. Pan*, Constructing a Highly Efficient Aligned Conductive Network to Facilitate Depolarized High-Areal-Capacity Electrodes in Li-Ion Batteries, Adv. Energy Mater. 11 (2021) 2100601. (IF=29.368)

[3] Y. Song#, L. Yang#, J. Li#, M. Zhang, Y. Wang, S. Li, S. Chen, K. Yang, K. Xu*, F. Pan*, Synergistic Dissociation-and-trapping Effect to Promote Li-ion Conductionin Polymer Electrolytes via Oxygen Vacancies, Small, (2021), Accepted. (IF = 13.281)

[4] Z. Song, S. Chen, Y. Zhao*, S. Xue, G. Qian, J. Fang, T. Zhang, C. Long, L. Yang*, F. Pan*, Constructing a Resilient Hierarchical Conductive Network to Promote Cycling Stability of SiOx Anode via Binder Design, Small, (2021), Accepted. (IF = 13.281)

[5] S. Xue#, Y. Fu#, Z. Song, S. Chen, Y. Ji, Y. Zhao*, H. Wang, G. Qian, L. Yang*, F. Pan*, Coil-to-Stretch Transition of Binder Chains Enabled by “Nano-Combs” to Facilitate Highly Stable SiOx Anode, Energy & Environ. Mater., (2021), 10.1002/eem2.12248. (IF = 15.122)

[6] S. Chen#, Z. Song#, Y. Ji#, K. Yang,* J. Fang, L. Wang, Z. Wang, Y. Zhao, Y. Zhao,  L. Yang,* and F. Pan*, Suppressing Polysulfide Shuttling in Lithium-Sulfur Batteries via a Multifunctional Conductive Binder, Small Methods, (2021), Accepted. (IF =14.188)


2020

[1] L. Yang, K. Yang, J. Zheng, K. Xu, K. Amine, F. Pan*, Harnessing Surface Structure to Enable High-Performance Cathode Materials for Lithium-ion Batteries, Chem. Soc. Rev. 49 (2020) 4667–4680. (IF =54.564)

[2] Y. Cui#, Q. Zhao#, X. Wu#, X. Chen, J. Yang*, Y. Wang, R. Qin, S. Ding, Y. Song, J. Wu, K. Yang, Z. Wang, Z. Mei, Z. Song, H. Wu, Z. Jiang, G. Qian, L. Yang*, F. Pan*, An Interface-Bridged Organic–Inorganic Layer that Suppresses Dendrite Formation and Side Reactions for Ultra-Long-Life Aqueous Zinc Metal Anodes, Angew. Chemie. 132 (2020) 2–10. (IF =15.336)

[3] Y. Cui, Q. Zhao, X. Wu, Z. Wang, R. Qin, Y. Wang, M. Liu, Y. Song, G. Qian, Z. Song, L. Yang*, F. Pan*, Quasi-solid single Zn-ion conductor with high conductivity enabling dendrite-free Zn metal anode, Energy Storage Mater. 27 (2020) 1–8. (IF = 17.789)

[4] L. Yang#, Y. Song#, H. Liu, Z. Wang, K. Yang, Q. Zhao, Y. Cui, J. Wen, W. Luo*, F. Pan*, Stable Interface between Lithium and Electrolyte Facilitated by a Nanocomposite Protective Layer, Small Methods. 4 (2020) 1900751. (IF =14.188)

[5] Z. Wang#, L. Yang#, J. Liu#, Y. Song, Q. Zhao, K. Yang, F. Pan*, ACS Appl. Mater. Interfaces. 12 (2020) 48677-48683. (IF =9.229)

[6] K. Yang#, L. Jia#, X. Liu, Z. Wang, Y. Wang, Y. Li, H. Chen, B. Wu, L. Yang*, F. Pan*, Revealing the anion intercalation behavior and surface evolution of graphite in dual-ion batteries via in situ AFM, Nano Res. 13 (2020) 412–418. (IF =8.897)

[7] Z. Wang, K. Yang, Y. Song, H. Lin, K. Li, Y. Cui, L. Yang*, F. Pan*, Polymer matrix mediated solvation of LiNO3 in carbonate electrolytes for quasi-solid high-voltage lithium metal batteries, Nano Res. 13 (2020) 2431–2437. (IF =8.897)

[8] K. Yang, Y. Li, L. Jia, Y. Wang, Z. Wang, Y. Ji, S. Yang, M. Titirici, X. Liu*, L. Yang*, F. Pan*, Atomic/nano-scale in-situ probing the shuttling effect of redox mediator in Na–O2 batteries, J. Energy Chem. (2020) Accepted. (IF =9.676)

[9] J. Hu, W. Huang, L. Yang*, F. Pan*, Structure and performance of the LiFePO4 cathode material: from the bulk to the surface, Nanoscale. 12 (2020) 15036–15044. (IF =7.790)


2019 – 2015

[1] J. Xiang#, L. Yang#, L. Yuan*, K. Yuan, Y. Zhang, Y. Huang, J. Lin, F. Pan*, Y. Huang*, Alkali-Metal Anodes: From Lab to Market, Joule. 3 (2019) 2334–2363. (IF =41.248)

[2] L. Yang, Z. Wang, Y. Feng, R. Tan, Y. Zuo, R. Gao, Y. Zhao, L. Han, Z. Wang, F. Pan*, Flexible Composite Solid Electrolyte Facilitating Highly Stable “Soft Contacting” Li–Electrolyte Interface for Solid State Lithium-Ion Batteries, Adv. Energy Mater. 7 (2017) 1701437. (IF =29.368)

[3] Y. Song#, L. Yang#, W. Zhao, Z. Wang, Y. Zhao, Z. Wang, Q. Zhao, H. Liu, F. Pan*, Revealing the Short‐Circuiting Mechanism of Garnet‐Based Solid‐State Electrolyte, Adv. Energy Mater. 9 (2019) 1900671. (IF =29.368)

[4] Y. Song#, L. Yang#, L. Tao, Q. Zhao, Z. Wang, Y. Cui, H. Liu, Y. Lin, F. Pan*, Probing into the origin of an electronic conductivity surge in a garnet solid-state electrolyte, J. Mater. Chem. A. 7 (2019) 22898–22902. (IF =12.732)

[5] Y. Duan#, L. Yang#, M.J. Zhang, Z. Chen, J. Bai, K. Amine, F. Pan*, F. Wang*, Insights into Li/Ni ordering and surface reconstruction during synthesis of Ni-rich layered oxides, J. Mater. Chem. A. 7 (2019) 513–519. (IF =12.732)

[6] R. Gao#, R. Tan#, L. Han, Y. Zhao, Z. Wang, L. Yang*, F. Pan*, Nanofiber networks of Na 3 V 2 (PO 4 ) 3 as a cathode material for high performance all-solid-state sodium-ion batteries, J. Mater. Chem. A. 5 (2017) 5273–5277. (IF =12.732)

[7] M. Liu#, L. Yang#, H. Liu#, A. Amine, Q. Zhao, Y. Song, J. Yang, K. Wang, F. Pan*, Artificial Solid-Electrolyte Interface Facilitating Dendrite-Free Zinc Metal Anodes via Nanowetting Effect, ACS Appl. Mater. Interfaces. 11 (2019) 32046–32051. (IF =9.229)

[8] Y. Zhao, L. Yang*, D. Liu, J. Hu, L. Han, Z. Wang, F. Pan*, A Conductive Binder for High-Performance Sn Electrodes in Lithium-Ion Batteries, ACS Appl. Mater. Interfaces. 10 (2018) 1672–1677. (IF =9.229)

[9] W. Huang#, J. Hu#, L. Yang*, W. Zhao, Z. Wang, H. Wang, Z. Guo, Y. Li, J. Liu, K. Yang, F. Pan*, Revealing the Degradation Mechanism of LiMnxFe1-xPO4 by the Single-Particle Electrochemistry Method, ACS Appl. Mater. Interfaces. 11 (2019) 957–962. (IF =9.229)

[10] Y. Zhao#, L. Yang#, Y. Zuo, Z. Song, F. Liu, K. Li, F. Pan, Conductive Binder for Si Anode with Boosted Charge Transfer Capability via n-Type Doping, ACS Appl. Mater. Interfaces. 10 (2018) 27795–27800. (IF =9.229)

[11] H. Liu#, M. Liu#, L. Yang*, Y. Song, X. Wang, K. Yang, F. Pan*, A bi-functional redox mediator promoting the ORR and OER in non-aqueous Li-O2 batteries, Chem. Commun. 55 (2019) 6567–6570. (IF =6.222)

[12] K. Wang, L. Yang*, Z. Wang, Y. Zhao, Z. Wang, L. Han, Y. Song, F. Pan*, Enhanced lithium dendrite suppressing capability enabled by a solid-like electrolyte with different-sized nanoparticles, Chem. Commun. 54 (2018) 13060–13063. (IF =6.222)

[13] L. Yang, J.T. Frith, N. Garcia-Araez*, J.R. Owen*, A new method to prevent degradation of lithium-oxygen batteries: Reduction of superoxide by viologen, Chem. Commun. 51 (2015) 1705–1708. (IF =6.222)

[14] Y. Li#, J. Hu#, K. Yang, B. Cao, Z. Li, L. Yang*, F. Pan*, Synthetic control of Prussian blue derived nano-materials for energy storage and conversion application, Mater. Today Energy. 14 (2019) 100332. (IF =7.311)

[15] P. Shan#, Y. Gu#, L. Yang*, T. Liu, J. Zheng, F. Pan* Olivine FePO4 Cathode Material for Rechargeable Mg-Ion Batteries, Inorg. Chem. 56 (2017) 13411–13416. (IF =5.165)