[1]
Chenliang Li, Zhenqing Wang, Decai Ma, Chaoying Wang, Baolai Wang. Phase stability, electronic structure and optical properties of BiInO
3 under strain. Journal of Physics D: Applied Physics. 2014,47(5):055302 -055308
[2]
Chenliang Li, Chaoying Wang, Fengkui Zhang, Decai Ma, Baolai Wang, Guoxun Wu. External strain effect on the electronic and mechanical properties of the superconductor Nb
2InC. Journal of Physics and Chemistry of Solids. 2015,78:28-34
[3]
Chenliang Li, Chaoying Wang, Fengkui Zhang, Decai Ma, Baolai Wang, Guoxun Wu.
Strong increase in superconducting T-c for Nb2InC under compressive strain. Journal of Applied Physics. 2015,117(9):093908-093915
[4]
Chenliang Li, Chaoying Wang, Decai Ma, and Baolai Wang. Strain-induced improvements on piezoelectric and nonlinear optical properties of BiAlO
3. Materials Research Express. 2014,1:036301-036308.
[5]
Chenliang Li, Zhenqing Wang, Chaoying Wang. Phase stability, mechanical properties and electronic structure of hexagonal and trigonal Ti
5Al
2C
3: An ab initio study. Intermetallics. 2013,33:105-112
[6]
Chenliang Li, Zhenqing Wang, Decai Ma, Chaoying Wang, Baolai Wang. First-principles study of the structural, mechanical, magnetic, and electronic properties of Cr
4AlN
3 under pressure. Intermetallics. 2013,43:71-78
[7]
Chenliang Li, Zhenqing Wang. First principles prediction of structural and mechanical properties of the nanolaminate compound M
4AlN
3 (M=V, Nb, and Ta). Physica Status Solidi B. 2011, 248(7):1639-1644
[8]
Chenliang Li, Zhenqing Wang, Chaoying Wang. First-principles study of the structural, elastic, electronic and optical properties of the monoclinic BiScO
3. Physica B: Condensed Matter. 2011,406(10):2028-2032
[9]
Chenliang Li, Zhenqing Wang, Chaoying Wang. Effects of aluminum vacancies on electronic structure and optical properties of Ta
4AlC
3: A first principles study. Physica B: Condensed Matter. 2011,406(20):3906-3910
[10]
Chenliang Li, Jer-Lai Kuo, Biao Wang, Rui Wang. Effects of X (V, W, Mo, Hf, Ta, Zr) Additions on the Ideal Cleavage Fracture of Cr
2Nb: First-principles Determination. Intermetallics. 2010,18(1):65-69
[11]
Chenliang Li, Zhenqing Wang. First-principles study of structural, electronic, and mechanical properties of the nanolaminate compound Ti
4GeC
3 under pressure. Journal of Applied Physics. 2010,107(12):123511-123517
[12]
Chenliang Li, Biao Wang, Rui Wang, Hai Wang. First-principles Study of Structure, Electronic, and Optical Properties of Orthorhombic BiInO
3. Applied Physics Letters. 2007,91(7):071902-071904
[13]
Chenliang Li, Jer-Lai Kuo, Biao Wang, Yuanshi Li, Rui Wang. A New Layer Compound Nb
4SiC
3 Predicted from First-principles Theory. Journal of Physics D: Applied Physics. 2009,42(7):075404-075408
[14]
Chenliang Li, Biao Wang, Yuanshi Li, Rui Wang. First-principles Study of Electronic Structure, Mechanical and Optical Properties of V
4AlC
3. Journal of Physics D: Applied Physics. 2009,42(6):065407-065411
[15]
Chenliang Li, Biao Wang, Yuanshi Li, Rui Wang, Hai Wang. First-principles Study of the Ideal Cleavage Fracture of Cr
2Nb Microalloyed by X (Al, Ni, Co, Ti). Intermetallics. 2009,17(6):394-399
[16]
Chenliang Li, Biao Wang, Rui Wang, Hai Wang, Xiaoyan Lu. First-principles Study of Structural, Elastic, Electronic, and Optical Properties of Orthorhombic BiGaO
3. Computational Materials Science. 2008,42(4):614-618
[17]
Chenliang Li, Biao Wang, Rui Wang, Hai Wang. First-principles Studies on the Electronic and Optical Properties of CeCl
3 and CeBr
3. Solid State Communications. 2007,144(5-6):220-224
[18]
Chenliang Li, Biao Wang, Rui Wang, Hai Wang, Xiaoyan Lu. First-principles Study of Structural, Elastic, Electronic, and Optical Properties of Hexagonal BiAlO
3. Physica B: Physics of Condensed Matter. 2008,403(4):539-543
[19]
Chenliang Li, Biao Wang, Rui Wang, Hai Wang, Zhenye Zhu. First-principles Study of the Electronic and Optical Properties of Lanthanide Bromide. Thin Solid Films. 2008,516(21):7894-7898
[20] Guoxun Wu,
Chenliang Li*, Yuhang Jing, Chaoying Wang, Yong Yang, Zhenqing Wang, Electronic transport properties of graphene nanoribbon heterojunctions with 5-7-5 ring defect, Computational Materials Science, 2014, 95:84-88.
[21] Chaoying Wang, Xiaoqing Sun,
Chenliang Li, Guoxun Wu, Baolai Wang, Zhenqing Wang, Qingyuan Meng, Lijun Yang. Effects of defect on the storage and diffusion of Na and Mg interstitials in Si anode, J. Alloys Comp, 2015, DOI: 10.1016/j.jallcom.2015.09.014.
[22] Chaoying Wang, Lijun Yang, Wei Zhao, Qingyuan Meng,
Chenliang Li*, Guoxun Wu. Multi-scale simulation of lithium diffusion in the presence of a 30° partial dislocation and stacking fault in Si, J. App. Phys. 2014, 115(4):043532
[23] Fengkui Zhang, Lingyi Kong,
Chenliang Li, Haiwei Yang, Wei Li, Sheath oscillation characteristics and effect on near-wall conduction in a krypton Hall thruster, Physics of Plasmas, 2014,21(11):113501.
[24] Chaoying Wang, Zhenqing Wang, Qingyuan Meng,
Chenliang Li, Atomic simulation of the dynamic properties for a double period structure with 90° partial dislocation in Si. Superlattices and Microstructures, 2011,5(2):157-163.
[25] Xiaoyan Lu, Biao Wang, Yue Zheng, Yulan Liu,
Chenliang Li, Magnetic control of dielectric properties of Ba(0.6)Sr(0.4)TiO(3) in a trilayer system, Journal of Physics D: Applied Physics. 2008,41(9):095004
[26] Xiaoyan Lu, Biao Wang, Yue Zheng,
Chenliang Li, Adjustable ferroelectric properties in paraelectric/ferroelectric/paraelectric trilayers, Journal of Physics D: Applied Physics. 2008, 41(3):035303