研究领域
1. 二维材料的能带结构及其调控;
2. 新型半导体材料的电-声耦合与迁移率计算;
3. 狄拉克材料中准粒子的对称性保护。
分子模拟与计算
利用计算机模拟与计算手段研究影响生物大分子与低维纳米材料性质的物理与化学原理,目前主要集中于天然无序蛋白质、石墨烯、DNA解纠缠以及动力学加速算法等方面。
近期论文
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1. Zhang SQ, Wang JY, Li ZZ, Zhao RQ, Tong LM, Liu ZF, Zhang J, Liu ZR, Raman spectra and corresponding strain effects in graphyne and graphdiyne. JOURNAL OF PHYSICAL CHEMISTRY C, 120(19):10605-10613, 2016.
2. Wang JY, Deng SB, Liu ZF, Liu ZR, The rare two-dimensional materials with Dirac cones. NATIONAL SCIENCE REVIEW, 2(1):22-39, 2015.
3. Lin ZR, Liu ZR, Spin-1 Dirac-Weyl fermions protected by bipartite symmetry. JOURNAL OF CHEMICAL PHYSICS, 143(21): 214109/1-8, 2015.
4. Li ZZ, Wang JY, Liu ZR, Intrinsic carrier mobility of Dirac cones: the limitations of deformation potential theory. JOURNAL OF CHEMICAL PHYSICS, 141(14):144107/1-9, 2014.
5. Wang JY, Zhang SQ, Zhou JY, Liu R, Du R, Xu H, Liu ZF, Zhang J, Liu ZR, Identifying sp-sp2 carbon materials by Raman and infrared spectroscopy. PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 16(23):11303-11309, 2014.
6. Wang JY, Zhao RQ, Liu ZF, Liu ZR,. Widely tunable carrier mobility of boron-nitride-embedded graphene. SMALL, 9(8):1373-1378, 2013.
7. Yang MM, Zhao RQ, Wang JY, Zhang LM, Xie Q, Liu ZF, Liu ZR, Bandgap opening in Janus-type mosaic graphene. JOURNAL OF APPLIED PHYSICS, 113(8):084313/1-6, 2013.
8. Zhao RQ, Wang JY, Yang MM, Liu ZF, Liu ZR, BN-embedded graphene with a ubiquitous gap opening. JOURNAL OF PHYSICAL CHEMISTRY C, 116(39):21098-21103, 2012.
9. Ouyang FP, Peng SL, Liu ZF, Liu ZR, Bandgap opening in graphene antidot lattices: the missing half. ACS NANO, 5(5):4023-4030, 2011.
10. Li Y, Jiang XW, Liu ZF, Liu ZR, Strain effects in graphene and graphene nanoribbons: the underlying mechanism. NANO RESEARCH, 3(8):545-556, 2010.