教育经历:
1984年获西南大学物理学士学位
1987年获四川大学统计物理硕士学位
1996年获南京大学凝聚态物理博士学位
研究领域:
新型功能材料的模拟计算与设计
·团簇及团簇组装材料
·二维材料的磁性及其调控
·量子拓扑材料及其在能源中的应用
·新型电池材料
·新型CO2转化材料
·储氢能源材料
·新型热电材料
代表性论文:
B4Cluster-Based 3D Porous Topological Metal as an Anode Material for Both Li- and Na-ion Batteries with a Superhigh Capacity
H. Xie, Y. Qie, I. Muhammad, Q. Sun*
J. Phys. Chem. Lett.12,1548 (2021).
The ultralow thermal conductivity and ultrahigh thermoelectric performance of fluorinated Sn2Bi sheet in room temperature
T. Li, J. Yu, G. Nie, B.-P. Zhang, Q. Sun*
Nano Energy67, 104283 (2020).
High-pressure-assisted design of porous topological semimetal carbon for Li-ion battery anode with high-rate performance
J. Liu, S. Wang, Y. Qie, C. Zhang, Q. Sun*
Phys. Rev. Mater.2, 025403 (2018).
Super atomic clusters: Design rules and potential for building blocks of materials.
P. Jena* and Q. Sun
Chem. Rev.118, 5755-5870 (2018).
All-carbon-based porous topological semimetal for Li-ion battery anode material
J. Liu, S. Wang, and Q. Sun*
PNAS114, 651 (2017).
Recent Advances in Breaking Scaling Relations for Effective Electrochemical Conversion of CO2.
Y. Li and Q. Sun*
Adv. Energy Mater. 6, 1600463(2016).
CO2electroreduction performance of transition metal dimers supported on graphene: a theoretical study
Y. Li, H. Su, S. H. Chan, Q. Sun*
ACS Catalysis5, 6658-6664 (2015).
Magnetism ofPhthalocyanine-Based Organometallic Single Porous Sheet
J. Zhou and Q.Sun*
J. Am. Chem. Soc.133, 15113(2011)
Electric Field Enhanced Hydrogen Storage on Polarizable Materials Substrates
J. Zhou, Q. Wang, Q. Sun*, P. Jena, X S. Chen
PNAS107, 2801(2010)
Ferromagnetism in Semihydrogenated Graphene Sheet
J. Zhou,Q. Wang, Q. Sun*, X. S. Chen, Y. Kawazoe, and P. Jena
Nano Lett.9, 3867(2009).
