2014
32) 邹良剑, 关联电子体系中的轨道物理(综述), 《物理》43,299(2014). [PDF]
31) W. C. Bao(鲍伟成) and L. J. Zou*, Electrical Control of Edge Magnetism in Two-Dimensional Buckled Honeycomb Lattice, Chin. Phys. Lett. 31, 097501 (2014). [PDF]
30) W. H. Zhou(周望怀), C. G. Zhang, Y. G. Li, Z. Zeng*, Transport, dissociation and rotation of small self-interstitial atom clusters in tungsten, Journal of Nuclear Materials 453, 202(2014). [PDF]
29) N. Wei(卫宁), T. Jia, X. L. Zhang, T. Liu, Z. Zeng*, and X. Y. Yang, First-principles study of the phase stability and the mechanical properties of W-Ta and W-Re alloys, AIP Advances 4, 057103(2014). [PDF]
28) T. Liu(刘婷), H. Wu*, T. Jia, X. L. Zhang, Z. Zeng*, H. Q. Lin, and X. G. Li, Dimensionality-induced insulator-metal crossover in layered nickelates La n+1NinO2n+2 (n = 2, 3, and ∞), AIP advances 4, 047132 (2014). [PDF]
27) M. M. Han(韩苗苗), X. L. Zhang, Z. Zeng*, The investigation of transition metal doped CuGaS2 for promising intermediate band materials, RSC Adv. 4, 62380(2014). [PDF]
26) T. Jia(贾婷), X. L. Zhang, T. Liu, F. R. Fan, Z. Zeng*, X. G. Li, D. I. Khomskii, and H. Wu, Rare case of magnetic Ag3+ ion: Double perovskite Cs2KAgF6, Physical Review B 89, 245117(2014). [PDF]
25) Y. M. Quan(全亚民), D. Y. Liu, X. L. Yu, T. Xiang, H. Q. Lin, and L. J. Zou*, Stability of Ferromagnetism and Ferromagnetic orbital selective Mott phase in three-orbital Hubbard model, JPS Conf. Proc. 3, 013019 (2014). [PDF]
24) L. L. Li(李龙龙), J. Ni, and W. Xu* Long-Period InAs/GaSb Type-II Superlattices for Terahertz Application, Journal of Modern Physics 5, 1880 (2014). [PDF]
23) L. L. Li(李龙龙) and W. Xu*, Absorption of surface acoustic waves by topological insulator thin films, Appl. Phys. Lett. 105, 063503 (2014). [PDF]
22) W. H. Zhou(周望怀), C. G. Zhang, Y. G. Li, and Zhi Zeng*, Creeping Motion of Self Interstitial Atom Clusters in Tungsten, SCIENTIFIC REPORTS 4, 5096(2014). [PDF]
21) L. L. Song(宋玲玲), X. H. Zheng*, H. Hao, J. Lan, X. L. Wang and Z. Zeng, Tuning the electron transport properties of bonron-nitride nanoribbons with electron and hole doping, RSC Advances 4, 48212 (2014). [PDF]
20) R. N. Wang(王瑞宁), X. H. Zheng*, H. Hao and Z. Zeng*, First-Principles Analysis of Corrugations, Elastic Constants, and Electronic Properties in Strained Graphyne Nanoribbons, J. Phys. Chem. C 118, 23328(2014). [PDF]
19) Q. Q. Wu(吴清清), X. H. Zheng, X. Q. Shi*, J. Lan, H. Hao and Z. Zeng*, Electron transport enhanced by electrode surface reconstruction: a case study of C60-based molecular junctions, RSC Adv. 4, 44718 (2014). [PDF]
18) X. H. Zheng*(郑小宏), H. Hao, J. Lan, X. L. Wang, X. Q. Shi and Z. Zeng, First principles study on the electronic transport properties of C60 and B80molecular bridges, J. Appl. Phys. 116, 073703 (2014). [PDF]
17) J. Zhang(张俊), C. S. Liu, X. H. Zheng, Z. Zeng* and X. Ju, High-capacity hydrogen storage using Li-decorated Li2P sheet, Chem. Phys. Lett. 614, 129-135(2014). [PDF]
16) L. L. Li(李龙龙) and W. Xu*, Thermoelectric properties of two-dimensional topological insulators doped with nonmagnetic impurities, J. Appl. Phys. 116, 013706 (2014). [PDF]
15) C. X. Zhao(赵承祥), W. Xu*, H. M. Dong, and F. M. Peeters, Plasmon and coupled plasmon- phonon modes in graphene in the presence of a driving electric field, Phys. Rev. B 89, 195447(2014). [PDF]
14) L. L. Li(李龙龙) and W. Xu*, Surface plasmon polaritons in a topological insulator embedded in an optical cavity, Appl. Phys. Lett. 104, 111603(2014). [PDF]
13) T. F. Cao(曹腾飞) , X. H. Zheng, P. L. Gong, and Z. Zeng*, Hydrogen-Coverage-Dependent Stark Effect in Bilayer Graphene and Graphene/BN Nanofilms, J. Phys. Chem. C 118, 10472-10480 (2014). [PDF]
12) L. F. Huang(黄良锋), P. L. Gong, and Z. Zeng*, Correlation between structure, phonon spectra, thermal expansion, and thermomechanics of single-layer MoS2, PHYSICAL REVIEW B 90, 045409 (2014). [PDF]
11) L. F. Huang(黄良锋), T. F. Cao, P. L. Gong, and Z. Zeng*, Isotope effects on the vibrational, Invar, and Elinvar properties of pristine and hydrogenated graphene, Solid State Communications 190 (2014) 5-9. [PDF][Suppementary Information]
10)P. L. Gong(巩朋来), L. F. Huang, X. H. Zheng, T. F. Cao, L. L. Song, Z. Zeng*, The mechanisms of impurity-impurity and impurity-matrix interactions in B/N-doped graphene, Chemical Physics Letters 605, 56 (2014). [PDF]
9) J. Zhang(张洁), Z. Zeng*, H. Q. Lin, and Y. L. Li, Pressure-induced planar N6 rings in potassium azide, SCIENTIFIC REPORTS 4, 4358 (2014). [PDF]
8) R. N. Wang(王瑞宁), X. H. Zheng, J. Lan, X. Q. Shi, and Z. Zeng, Structural, magnetic and transport properties of carbon chains sandwiched between zigzag graphene nanoribbons, RSC Advances 4, 9172-9177 (2014). [PDF]
7) X. L. Yu(虞祥龙), D. Y. Liu, P. Li, and L. J. Zou*, Ground-state & finite-temperature properties of spin liquid phase in the J1-J2 honeycomb model, Physica E 59, 41(2014). [PDF]
6) X. L. Yu(虞祥龙), D. Y. Liu, Y. M. Quan, T. Jia, H. Q. Lin, and L. J. Zou*, A site-selective antiferromagnetic ground state in layered pnictide-oxide BaTi2As2O , J. Appl. Phys. 115, 17A924(2014). [PDF]
5) X. J. Zheng(郑晓军), Z. B. Huang*, L. J. Zou*, Spontaneous Fermi surface deformation in the three-band Hubbard model: A variational Monte Carlo study, J. Phys. Soc. Jpn. 83, 024705 (2014). [PDF]
4) J. Lan(兰杰), X. H. Zheng*, H. Hao, X. L. Wang, X. Q. Shi, and Z. Zeng*, Electrical switching in a Fe-thiacrown molecular device, J. Appl. Phys. 115, 013702(2014). [PDF]
3) W. Fan(范巍), D. Y. Liu, and Z. Zeng, Electronic and atomic structures of KFe2Se2 grain boundaries, Physica C 497, 110 (2014). [PDF]
2) W. Fan(范巍)*, and Z. Zeng, Atomic and electronic structures of YBa2Cu3O7 [001] [010] tilt and twist grain Boundaries, Supercond. Sci. Technol. 27, 025007 (2014). [PDF]
1) 范巍, 曾雉, 氧化镁纳米多晶的微结构和磁性, 物理学报 63卷4期 047503 (2014). [PDF]
Co-authors
5) Xi-bo Li, Pan Guo, D. Wang, Y. S. Zhang(张永胜) and Limin Liu, Adaptive cluster expansion approach for predicting structure evolution of graphene oxides, J. Chem. Phys. 141, 224703 (2014) [PDF]
4) David Appy, H. P. Lei(雷华平), Cai-Zhuang Wang, Michael C. Tringides, Da-Jiang Liu, James W. Evans, Patricia A. Thiel, Transition metals on the (0001) surface ofgraphite: Fundamental aspects of adsorption, diffusion, and morphology, Progress in Surface Science 89, 219 (2014)(Review) [PDF]
3) David Appy, H. P. Lei(雷华平), Yong Han, Cai-Zhuang Wang, Michael C. Tringides, Dahai Shao, Emma J. Kwolek, J. W. Evans, and P. A. Thiel, Determining whether metals nucleate homogeneously on graphite: A case study with copper, Physical Review B 90, 195406 (2014). [PDF]
2) Y. Yang(杨勇)*, O. Sugino, Y. Kawazoe, Exceptionally Long-ranged Lattice Relaxation in Oxygen-deficient Ta2O5, Solid State Communications 195, 16 (2014). [PDF]
1) L. L. Song(宋玲玲), X. H. Zheng*(郑小宏), H. Hao, J. Lanb, X. L. Wang, and Z. Zeng, Tuning the electronic and magnetic properties in zigzag boron nitride nanoribbons with carbon dopants, Computational Materials Science 81, 551(2014). [PDF]