教育经历:
2014–2017 博士 University of Waterloo 化学系
2012–2014 硕士 University of Waterloo 化学系
2008–2012 学士 华中科技大学 材料科学与工程
工作经历:
2020 – 今 助理教授 澳门太阳娱乐网站官网能源与资源工程系
2020 –今 Co-PI 北京市工程科学与新兴技术高精尖创新中心
2017 – 2020 博后 Massachusetts Institute of Technology, DMSE
2017 博后 University of Waterloo, Chemistry
研究领域:
我们电化学能源技术实验室以电化学技术手段为切入点,来解决能源和环境领域存在的共性问题,包括电化学储能,人工燃料合成、气体捕集等。我们关注电极材料设计,电解液开发,异相界面演化和设计,电化学反应机理及衰减机制,通过光谱学、显微学、理论计算来理解电化学本质。我们也致力于将基础问题研究与发展工程技术相结合,解决当前能源战略的短板问题。
诚挚欢迎有科学热情,有化学、材料、物理背景的博士生(夏令营直博、普博)、博士后、本科生和研究助理加入我们团队。
发表论文:
- Pang, Q., Kwok, C.Y., Kundu, D., Nazar L.F.* (2018) Lightweight metallic MgB2 mediates polysulfide redox and promises high-energy-density lithium-sulfur batteries. Joule, 3,136.
- Pang, Q., Zhou, L., Nazar L.F.* (2018) An elastic and Li-ion-percolating hybrid membrane stabilizes Li metal plating. Proc. Natl. Acad. Sci. USA, 115, 12389.
- Pang, Q., Liang, X., Kochetkov, I.R., Hartmann, P., Nazar L.F. * (2018) Stabilizing lithium plating by a biphasic surface layer formed in situ. Angew. Chem. Int. Ed., 57, 9795.
- Pang, Q., Shyamsunder, A., Narayanan, B., Kwok, C.Y., Curtiss, L.A., Nazar L.F.* (2018) Tuning the electrolyte network structure to invoke quasi-solid state sulfur conversion and suppress lithium dendrite formation in Li–S batteries. Nature Energy, 3, 783.
- Pang, Q., Liang, X., Shyamsunder A., Nazar, L.F.* (2017) An in vivo formed solid electrolyte surface layer enables stable plating of Li metal. Joule, 1, 871.
- Liang, X., Pang, Q., Kochetkov, I.R. Sempere, M.S., Huang, H., Sun, X., Nazar, L.F.* (2017) A facile surface chemistry route to a stabilized lithium metal anode. Nature Energy, 2, 17119.
- Lee, C.-W. †, Pang, Q. †, Ha, S., Cheng, L., Han, S.-D., Gallagher, K.G., Nazar, L.F.,*Balasubramanian, M.* (2017) Directing the lithium-sulfur reaction pathway via sparingly solvating electrolytes for high energy density batteries. ACS Cent. Sci., 3,605.
- Shyamsunder, A., Beichel, W., Klose, P., Pang, Q., Scherer, H., Hoffmann, A., Murphy, G.K., Krossing, I., Nazar, L.F., (2017) Inhibiting Polysulfide Shuttle in Lithium–Sulfur Batteries through Low‐Ion‐Pairing Salts and a Triflamide Solvent, Angew. Chem. Intl. Ed.,56, 6192.
- Pang, Q. †, Liang, X. †, Kwok, C. Y. †, Nazar, L. F. * (2016) Advances in lithium–sulfur batteries based on multifunctional cathodes and electrolytes. Nature Energy, 1, 16132.
- Pang, Q., Liang, X., Kwok, C.Y., Kulisch, J., Nazar, L.F.* (2016) A comprehensive approach towards stable lithium-sulfur batteries with high volumetric energy density. Adv. Energy Mater., 7, 1601630.
- Pang, Q., Nazar, L.F.* (2016) Long-life and high areal capacity Li-S batteries enabled by a light-weight polar host with intrinsic polysulfide adsorption. ACS Nano,10, 4111.
- Pang, Q., Kundu, D., Nazar, L.F.* (2016) A graphene-like metallic cathode host for long-life and high-loading lithium-sulfur batteries. Mater. Horiz., 3,130.
- Liang, X., R. Yverick, Kwok, C.Y., Pang, Q., Nazar, L.F.* (2016) Interwoven MXene nanosheet/carbon nanotube composites as Li-S cathode hosts. Adv. Mater., 29, 1603040.
- Talaie, E., Bonnick, P., Sun, X., Pang, Q., Liang, X., Nazar, L.F.* (2016) Methods and protocols for electrochemical energy storage materials research. Chem. Mater., 29, 90.
- Pang, Q., Liang, X., Kwok, C.Y., Nazar, L.F.* (2015) The importance of chemical interactions between sulfur host materials and polysulfides for advanced lithium-sulfur batteries. J. Electrochem. Soc., 162, A2567.
- Pang, Q.,† Tang, J.,† Huang, H., Liang, X., Hart, C., Tam, K.C.,* Nazar, L.F.* (2015) A nitrogen and sulfur dual‐doped carbon derived from polyrhodanine/cellulose for lithium–sulfur batteries. Adv. Mater., 27, 6021.
- Liang X., Kwok, C.Y., Lodi-Marzano, F., Pang, Q., Cuisinier, M., Huang, H., Hart, C., Houtarde, D., Brezesinski, T., Janek, J., and Nazar, L.F.* (2015) Tuning transition metal oxide-sulfur interactions for long life lithium sulfur batteries: the ‘goldilocks’ principle. Adv. Energy Mater., 6, 1501636.
- Pang, Q., Kundu, D., Cuisinier, M., Nazar, L. F.* (2014) Surface-enhanced redox chemistry of polysulphides on a metallic and polar host for lithium-sulphur batteries. Nature Commun., 5,4759.
- Liang, X., Hart, C., Pang Q., Garsuch, A., Weiss T., Nazar, L. F.* (2014) A highly efficient polysulphide mediator for lithium-sulphur batteries. Nature Commun., 6,5682.
- Nazar, L. F.,* Cuisinier, M., Pang, Q. (2014) Lithium-sulfur batteries. MRS Bull., 39, 436.
- Wang, Z., Pang, Q., Deng, K., Yuan, L., Peng, Y., Huang, Y.* (2012) Effects of titanium incorporation on phase and electrochemical performance in LiFePO4 cathode material. Electrochim. Acta, 78, 576.