Her research interests include:
1) explore and research structural characters and physical properties of materials under the extreme conditions (e.g. high pressure, static strong magnetic field);
2) first-principle calculation and Wannier functional analysis for physical properties of low dimensional surface and interface materials;
3) material design and physical property study for other new functional materials.
[1].Xiaoping Yang, Haibin Su, “Electronic Properties of Fluoride and Half-fuoride Superlattices KZnF3/KAgF3 and SrTiO3/KAgF3”, Scientific Reports 5, 15849 (2015).
[2].Xiaoping Yang, Haibin Su,“Cuprate-like Electronic Properties in Superlattices with AgIIF2 Square Sheet”, Scientific Reports 4, 5420 (2014).
[3].Xiaoping Yang, Haibin Su,“Electronic reconstruction and surface two-dimensional electron gas in a polarized heterostructure with a hole-doped single copper-oxygen plane”, Physical Review B 87, 205116 (2013)
[4].Xiaoping Yang, Haibin Su,“Polarization and electric field dependence of electronic properties in LaAlO3/SrTiO3 heterostructures”, ACS Applied Materials & Interfaces 3(10), 3819 (2011).
[5]. Eva Benckiser, M. W. Haverkort, S. Brück, E. Goering, S. Macke, Alex Frañó, Xiaoping Yang, O. K. Andersen, G. Cristiani, H. U. Habermeier, A. V. Boris, I. Zegkinoglou, H. J. Kim, V. Hinkov, B. Keimer, “Orbital reflectometry of oxide heterostructures”, Nature Materials 10, 189 (2011).
[6]. Xiaoping Yang and Gang Wu, “Itinerant flat-band magnetism in hydrogenated carbon nanotubes”, ACS Nano 3, 1646–1650 (2009).
[7]. P. Hansmann, Xiaoping Yang, A. Toschi, G. Khaliullin, O. K. Andersen, and K. Held, “Turning a nickelate Fermi surface into a cuprate-like one through heterostructuring”, Physical Review Letters 103, 016401 (2009).