Professor Mingliang Tian's group

Low-dimensional Electronic System and Artifical Nanostructures Lab

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2015:

Surface Superconductivity in Thin Cylindrical Bi Nanowire. Mingliang Tian, Jian wang, Wei Ning et al.,Nano letters, In press.

Critical behavior of the single-crystal helimagnet MnSi, Zhang Lei, Menzel Dirk, Jin Chiming et al, Phy. Rev B, 91, 024403,2015

Magnetostriction-induced in situ strain control of superconductivity in FeSe0.5Te0.5. Weike Wang, Jiyong Yang et al., Appl. Phys. Lett.106, 062601 (2015)

Superconductor-insulator transition in quasi-one-dimensional single-crystal Nb2PdS5 nanowires, Ning Wei, Yu Hongyan, Liu Yequn et al, Nano letters, 15, 869, 2015

2014:

Scotch tape induced strains for enhancing superconductivity of FeSe0.5Te0.5 single crystals, Wang Weike, Li Jun, Yang Jiyong et al, Appl. Phy. Lett. 105, 232602, 2014

Robust surface state transport in thin bismuth nanoribbons, Ning Wei, Kong Fengyu, Han Yuyan et al, Scientific Reports, 4, 7086, 2014

Nonlinear transport in quasi-one-dimensional Nb2PdS5 nanowires, Ning Wei, Yu Hongyan, Wang Ning et al, Appl. Phys. Lett. 105, 172603, 2014

Thickness dependence of the charge-density-wave transition temperature in VSe2, Yang Jiyong, Wang Weike, Liu Yan et al, Appl. Phys. Lett. 105, 063109, 2014

Evidence of Topological Two-Dimensional Metallic Surface States in Thin Bismuth Nanoribbons, Ning wei, Kong Fengyu, Xi Chuanying et al, ACS Nano, 8, 7506, 2014

Highly Stable Skyrmion State in Helimagnetic MnSi Nanowires, Du Haifeng, DeGrave John P, Xue Fei et al, Nano letters, 14, 2026, 2014

2013:

Field-driven evolution of chiral spin textures in a thin helimagnet nanodisk, Du Haifeng, Ning Wei, Tian Mingliang, Zhang Yuheng, Phy. Rev B, 87, 014401, 2013

Magnetic vortex with skyrmionic core in a thin nanodisk of chiral magnets, Du Haifeng, Ning Wei, Tian Mingliang, Zhang Yuheng, EPL, 101, 37001, 2013

Dual evidence of surface Dirac states in thin cylindrical topological insulator Bi2Te3 nanowires, Tian Mingliang, Ning Wei, Qu Zhe et al, Scientific Reports, 3, 1212, 2013

One-dimensional weak antilocalization in single-crystal Bi2Te3 nanowires, Ning Wei, Du Haifeng, Kong Fengyu et al, Scientific Reports, 3, 1564, 2013

Before 2013:
Jian Wang et al. Interplay between superconductivity and ferromagnetism in crystalline nanowires. Nature Physics 6, 389-394 (2010)
Mingliang Tian et al. Superconductivity and quantum oscillations in crystalline Bi nanowires. Nano Letters 9, 3196-3202 (2009).
Mingliang Tian et al. Evidence of local superconductivity in granular Bi nanowires fabricated by electrodeposition. Phys. Rev B 78, 045417 (2008).
Mingliang Tian et al. Observation of superconductivity in granular Bi nanowires fabricated by electrodeposition. Nano Letters 6, 2773-2780 (2006).
Mingliang Tian et al. Influence of a bulk superconducting environment on the superconductivity of one-dimensional zinc wires. Phys. Rev. B 74, 014515 (2006).
Mingliang Tian et al. Suppression of superconductivity in nanowires by bulk superconductors. Phys. Rev. Lett. 95, 076802 (2005) (reported by Science News).

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