姓名:高存绪
教授
所在教研室:量子基础
电子邮箱:gaocunx@lzu.edu.cn
招生专业: 凝聚态物理
首页>教师个人主页
个人简历
高存绪，男，兰州大学，物理科学与技术学院，教授，博士生导师。2000年、2003年分别于兰州大学物理科学与技术学院获学士和硕士学位，2007年于韩国忠南大学获博士学位。2007年至2011年间，于德国Paul-Drude固体电子学研究所做博士后。2011年9月、2017年5月分别被聘为兰州大学物理科学与技术学院副教授、教授。主要从事磁学与磁性材料、磁性金属异质结物理与器件应用、反铁磁自旋电子学和特种功能材料等方向研究工作。目前已在Physical Review Letters、Small、Physical Review B、Applied Physics Letters等学术刊物上发表SCI论文61篇，主持国家自然科学基金面上项目3项。
研究方向
磁性金属原子层构筑物理（固体的微结构与磁电性质）磁学与磁性材料磁性金属异质结物理与器件应用特种功能材料和新材料物理正进行的研究工作或兴趣：金属合金的拓扑霍尔效应等拓扑属性反铁磁金属合金的磁结构及其特性磁性金属异质结金属合金薄膜的结构相变、电相变和磁相变
教学及学生指导情况
讲授《固体物理学》课程；指导在读研究生9名。
发表论文及专著
For a full list of citations and preprints for timely updates, please seeResearcher ID：D-61. B. Lv, P. Liu, Y. Miao, Z. Y. Lian, M. S. Si, C. X. Gao*, “Disorder effect of 3d transition elements in DO3 Heusler alloy Mn2FeAl”, Applied Physics Letters, 118, 132408 (2021)2. Y. Miao, D. Z. Yang, L. Jia, X. L. Li, S. L. Yang, C. X. Gao*, and D. S. Xue*, “Magnetocrystalline anisotropy correlated negative anisotropic magnetoresistance in epitaxial Fe30Co70 thin films”, Applied Physics Letters, 118, 042404 (2021)3. P. J. Wang#, G. L. Chen#, Y. Z. Wang, Z. Y. Lian, P. Liu, X. L. Li, Y. Miao, and C. X. Gao*, “Moment divergence from Slater-Pauling curve of epitaxial Co100-xMnx films on MgO(001)”, Journal of Magnetism and Magnetic Materials, 527, 167729 (2021)20201. B. Lv, Z. Y. Lian, Y. Miao, C. X. Gao*, M. S. Si, D. S. Xue*, F. C. Yu, and J. L. Yao, “Realization of a Heusler alloy Mn2FeAl with B2 ordering”, Applied Physics Letters, 116, 132404 (2020)2. Y. Z. Wang, P. J. Wang, Y. Miao, C. X. Gao*, and D. S. Xue*, “Coherent magnetic behaviors of bcc FexMn1-x films on MgO(001)”, Journal of Magnetism and Magnetic Materials, 501, 166376 (2020)3. Y. Miao#, X. R. Chen#, S. L. Yang, K. Zheng, Z. Y. Lian, Y. Z. Wang, P. J. Wang, C. X. Gao, D. Z. Yang*, and D. S. Xue*, “Non-cosine square angular-dependent magnetoresistance of the face-centered-cubic Co thin films”, Journal of Magnetism and Magnetic Materials, 512, 167013 (2020)4. Z. D. Chen, W. Q. Liu, P. Chen, X. Z. Ruan*, J. B. Sun, R. B. Liu, C. X. Gao, J. Du, B. Liu*, H. Meng, R. Zhang, and Y. B. Xu*, “Direct observation of ferrimagnetic ordering in inverse Heusler alloy Mn2CoAl”, Applied Physics Letters, 117, 012401 (2020)20191. Z. Y. Lian, Y. Miao, P. J. Wang, C. X. Gao*, F. C. Yu, and D. S. Xue*, “Self-intermetallic α-Mn a spin glass by Fe and Al doping: transport study of theα-Mn structure type alloys”, Materials Research Express, 6, 1165e6 (2019)2. Z. D. Chen, X. Z. Ruan*, B. Liu, L. Yang, J. Wu. C. X. Gao, H. Meng, L. He, R. Zhang, and Y. B. Xu*, “Component manipulated magnetic anisotropy and damping in Heusler-like compound Co2+xFe1-xAl”, Journal of Physics: Condensed Matter, 31, 075802 (2019)20181. P. Chen, C. X. Gao*, G. L. Chen, K. Mi, M. Liu, P. Zhang, and D. S. Xue*, “The low-temperature transport properties of Heusler alloy Mn2CoAl”, Applied Physics Letters, 113, 122402 (2018) 2. Z. D. Chen, W. W. Kong, K. Mi, G. L. Chen, P. Zhang, X. L. Fan, C. X. Gao*, and D. S. Xue*, “The anisotropic effective damping of thickness-dependent epitaxial Co2FeAl films studied by spin rectification”, Applied Physics Letters, 112, 122406 (2018)3. C. X. Gao, Y. Miao, Y. T. Wang, G. Z. Chai, P. Chen, D. S. Xue*, “Interface-induced spiral magnetic structure of epitaxial Fe films on GaAs(001”, AIP Advances, 8, 125026 (2018) 4. P. Zhang, B. H. Xu, G. L. Chen, C. X. Gao*, and M. Z. Gao*, “Large-scale synthesis of nitrogen doped MoS2 quantum dots for efficient hydrogen evolution reaction”, Electrochimica Acta, 270, 256-263 (2018)5. C. Zhou, L. K. Shen, M. Liu, C. X. Gao, C. L. Jia, and C. J. Jiang, “Strong nonvolatile magnon-driven magnetoelectric coupling in single-crystal Co/[PbMg1/3Nb2/3O3]0.71[PbTiO3]0.29 heterostructures”, Physical Review Applied, 9, 014006 (2018)6. C. Zhou, L. K. Shen, M. Liu, C. X. Gao, C. L. Jia, and C. J. Jiang* and D. S. Xue*, “Long-range nonvolatile electric field effect in epitaxial Fe/[PbMg1/3Nb2/3O3]0.7Ti0.3O3 Heterostructures”, Advanced Functional Materials, 28, ** (2018) 20171. G. L. Chen, P. Zhang*, L. L. Pan, L. Qi, F. C. Yu, C. X. Gao*, “Flexible nonvolatile resistive memory devices based on SrTiO3 nanosheets and polyvinylpyrrolidone composites”, Journal of Materials Chemistry C, 5, 9799-9805 (2017)2. Z. D. Chen, C. X. Gao*, Y. P. Wei, P. Zhang, Y. T. Wang, C. Zhang, Z. K. Ma, “Large non-volatile tuning of magnetism mediated by electric field in Fe–Al/ Pb(Mg1/3Nb2/3)O3–PbTiO3 heterostructure”, Journal of Physics D: Applied Physics, 8, 30336-30343 (2017)3. K. Mi, J. F. Xie, M. S. Si*, C. X. Gao*, “Layer-stacking effect on electronic structures of bilayer arsenene”, Euro Physics Letters, 117, 27002 (2017) 20161. P. Zhang, B. H. Xu, C. X. Gao*, G. L. Chen, M. Z. Gao*, “Facile synthesis of Co9Se8 quantum dots as charge traps for flexible organic resistive switching memory device”, ACS Applied Materials & Interfaces, 8, 30336-30343 (2016)2. F. Z. Lv, C. X. Gao*, H. A. Zhou, P. Zhang, K. Mi, and X. X. Liu, “Nonvolatile bipolar resistive switching behavior in the perovskite-like (CH3NH3)2FeCl4”, ACS Applied Materials & Interfaces, 8, 18985-18990 (2016)3. Y. P. Wei, C. X. Gao*, Z. D. Chen, S. B. Xi, W. X. Shao, P. Zhang, G. L. Chen, and J. G. Li, “Four-state memory based on a giant and non-bolatile converse magnetoelectric effect in FeAl/PIN-PMN-PT structure”, Scientific Reports, 6, 30002 (2016)4. P. Zhang#, C. X. Gao*, B. H. Xu#, L. Qi, C. J. Jiang, M. Z. Gao, and D. S. Xue*, “Structural phase transition effect on resistive switching behavior of MoS2-polyvinylpyrrolidone nanocomposites films for flexible memory device”, Small, 12, 2077-2084 (2016)5. J. K. Zhou, T. Wang, W. Wang, S. W. Chen, Y. Cao, H. P. Liu, M. S. Si, C. X. Gao, D. Z. Yang*, and D. S. Xue*, " Enhancement of magneto-photogalvanic effect in periodic GaAs dot arrays by p-n junctions coupling", Applied Physics Letters, 109, 232404 (2016) 20151. C. X. Gao*, C. H. Dong, C. L. Jia, D. S. Xue*, J. Herfort, and O. Brandt, “In-plane sixfold symmetry for α-Fe(110) on GaN{0001}: Measurement of the cubic anisotropy constant K3 of Fe”, Physical Review B, 92, 094404 (2015)2. C. X. Gao#, Y. T. Wang#*, C. Y. Li, Y. P. Wei, Z. D. Chen, G. Z. Chai, and D. S. Xue*, “Multidirectional available high frequency response with zero-field resonance above 8 GHz in epitaxial α-Fe(001) films”, Applied Physics Express, 8, 053001 (2015)3. C. X. Gao, P. Zhang*, B. H. Xu, Z. D. Chen, L. Qi, C. Zhang, C. H. Dong, C. J. Jiang, Q. F. Liu, and D. S. Xue*, “Nonvolatile bipolar resistive switching behavior of epitaxial NdFeO3-PbTiO3 films grown on Nb:SrTiO3 (001) substrate”, Applied Physics Express, 8, 051102 (2015)4. C. X. Gao#, F. Z. Lv#*, P. Zhang, C. Zhang, S. M. Zhang, C. H. Dong, Y. C. Gou, C. J. Jiang, and D. S. Xue*, “Tri-state bipolar resistive switching behavior in a hydrothermally prepared epitaxial BiFeO3 film”, Journal of Alloys and Compounds, 649, 694-698 (2015)5. F. Z. Lv, C. X. Gao*, P. Zhang, C. H. Dong, C. Zhang, and D. S. Xue*, “Bipolar resistive switching behavior of CaTiO3 films grown by hydrothermal epitaxy”, RSC Advances, 5, 40714-40718 (2015)6. C. X. Gao#, P. Zhang#*, C. Zhang, C. H. Dong, C. J. Jiang, Q. F. Liu, and D. S. Xue*, “Multiferroic and multilevel resistive switching properties of LaFeO3-PbTiO3 films grown on Nb:SrTiO3 (001) substrate”, Ceramics International, 41, S851-S855 (2015)7. C. Zhang, F. L. Wang, C. H. Dong, C. X. Gao, C. L. Jia, C. J. Jiang*, and D. S. Xue*, “Electric field mediated non-volatile tuning magnetism at the single-crystalline Fe/Pb(Mg1/3Nb2/3)0.7Ti0.3O3 interface”, Nanoscales, 7, 4187-4192 (2015) 20141. X. L. Fan*, W. Wang, Y. T. Wang, H. A. Zhou, J. W. Rao, X. B. Zhao, C. X. Gao, Y. S. Gui, C. M. Hu, and D. S. Xue, "Rapid characterizing of ferromagnetic materials using spin rectification", Applied Physics Letters, 105, 262404 (2014)2. J. Zhang#, Z. L. Yang, F. Z. Lv, C. X. Gao#*, and D. S. Xue*, "Tuning unexpected room temperature ferromagnetism in heteroepitaxial PbTiO3 thin films fabricated by hydrothermal epitaxy: crystal quality", RSC Advances, 4, 61046-61050 (2014)3. P. Zhang#, C. X. Gao#*, F. Z. Lv, Y. P. Wei, C. H. Dong, C. L. Jia, Q. F. Liu, and D. S. Xue*, "Hydrothermal epitaxial growth and nonvolatile bipolar resistive switching behavior of LaFeO3-PbTiO3 films on Nb:SrTiO3(001) substrate", Applied Physics Letters, 105, 152904 (2014)4. F. Z. Lv, J. Zhang, C. X. Gao*, L. Ma, D. Q. Gao, S. M. Zhou, and D. S. Xue*, "Hydrothermal epitaxy and resultant properties of EuTiO3 films on SrTiO3(001) substrate", Nanoscale Research Letters, 9, 266 (2014)5. Y. T. Wang, F. Z. Lv, O. Brandt, J. Herfort, C. X. Gao*, and D. S. Xue, "Uniaxial magnetic anisotropy in epitaxial α-Fe(h0l) films", Annalen der Physik, 526, L1–L5 (2014)6. Y. P. Wei, C. X. Gao*, C. H. Dong, Z. K. Ma, J. G. Li, and D. S. Xue, "Thermal stability of epitaxial Fe films grown on Si substrates by molecular beam epitaxy", Applied Surface Science, 293, 71-75 (2014) 20121. S. Fernández-Garrido*, K. U. Ubben, J. Herfort, C. X. Gao, and O. Brandt, “Electrical characterization of all-epitaxial Fe/GaN(0001) Schottky tunnel contacts”, Applied Physics Letters, 101, 032404 (2012) 20111. S. C. Erwin, C. X. Gao, C. Roder, J. L?hnemann, and O. Brandt, “Epitaxial interfaces between crystallographically mismatched materials”, Physical Review Letters, 107, 026102 (2011)2. C. X. Gao*, R. Farshchi, C. Roder, P. Dogan, and O. Brandt, “GaN/Fe core/shell nanowires for nonvolatile spintronics on Si”, Physical Review B, 83, 245323 (2011)3. C. X. Gao*, O. Brandt, J. L?hnemann, J. Herfort, H.-P. Sch?nherr, U. Jahn, and B. Jenichen, “Effect of growth temperature on the structural, morphological and magnetic properties of Fe films on GaN(0001)”, Journal of Crystal Growth, 323, 359-362 (2011) 20101. C. X. Gao*, O. Brandt, S. C. Erwin, J. L?hnemann, U. Jahn, B. Jenichen, and H.-P. Sch?nherr, “’Cube-on-hexagon’ orientation relationship for Fe on GaN(000-1): the missing link in bcc/hcp epitaxy”, Physical Review B, 82, 125415 (2010)2. C. X. Gao*, H.-P. Sch?nherr, and O. Brandt, “Re?ection high-energy electron diffraction φ scans for in situ monitoring the heteroepitaxial growth of Fe on GaN(0001) by molecular beam epitaxy”, Applied Physics Letters, 97, 031906 (2010) 20091. C. X. Gao*, O. Brandt, H.-P. Sch?nherr, U. Jahn, J. Herfort, and B. Jenichen, “Thermal stability of epitaxial Fe films on GaN(0001)”, Applied Physics Letters, 95, 111906 (2009)2. C. X. Gao, F. C. Yu, D. J. Kim*, H. J. Kim, Y. E. Ihm, M. H. Jung, Y. H. Jo, C. G. Kim, and C. S. Kim, “Magnetic properties of Mn doped GaN grown using single GaN precursor via molecular beam epitaxy”, Journal of the Korean Physical Society, 54, 633-636 (2009) 20071. C. X. Gao, F. C. Yu, D. J. Kim*, H. J. Kim, Y. E. Ihm, C. G. Kim, and C. S. Kim, “p-GaN growth from a single GaN precursor via molecular beam epitaxy and dopant activation”, Journal of the Korean Physical Society, 51, 112-119 (2007)2. H. M. Jin*, D. S. Sun, C. X. Gao, and H. J. Kim, “Inverted hysteresis loops: Experimental artifacts arising from inappropriate or asymmetric sample positioning and the misinterpretation of experimental data”, Journal of Magnetism and Magnetic Materials, 308, 56-60 (2007) 20061. P. Parchinskiy, F. C. Yu, C. X. Gao, S. W. Lee, D. J. Kim*, H. J. Kim, and Y. E. Ihm, “Transport properties in MnAs-precipitated GaMnAs layer”, Journal of Electroceramics, 17, 1047-1050 (2006)2. C. X. Gao, F. C. Yu, A. R. Choi, D. J. Kim*, C. G. Kim, C. S. Kim, H. J. Kim, and Y. E. Ihm, “A comparative study on Be and Mg doping in GaN films grown using a single GaN precursor via molecular beam epitaxy”, Journal of Crystal Growth, 291, 60-65 (2006)3. C. X. Gao, F. C. Yu, S. Y. Jeong, A. R. Choi, P. Parchinskiy, D. J. Kim*, H. J. Kim, Y. E. Ihm, C. G. Kim, and C. S. Kim, “The magnetic properties of Be-codoped GaMnN grown via molecular beam epitaxy”, Journal of Magnetism and Magnetic Materials, 304, e158-e160 (2006)4. F. C. Yu, C. X. Gao, S. Y. Jeong, P. Parchinskiy, D. J. Kim*, H. J. Kim, and Y. E. Ihm, “Effect of annealing on the electric and magnetic properties of GaMnAs and Be-codoped GaMnAs”, Journal of Magnetism and Magnetic Materials, 304, e155-e157 (2006)5. F. C. Yu, C. X. Gao, D. J. Kim*, S. K. Hong, H. J. Kim, Y. E. Ihm, and C. S. Kim, “Effects of Be-codoping on the properties of GaMnAs films grown via low-temperature molecular beam epitaxy”, Journal of the Korean Physical Society, 49, 596-603 (2006)6. P. Parchinskiy, F. C. Yu, C. X. Gao, S. W. Lee, D. J. Kim*, H. J. Kim, and Y. E. Ihm, “Influence of phase segregation process on transport properties of dilute magnetic semiconductors”, Journal of Magnetism and Magnetic Materials, 304, e137-e139 (2006)7. P. Parchinskiy, F. C. Yu, S. Y. Jeong, C. X. Gao, D. J. Kim*, H. J. Kim, and Y. E. Ihm, “Optical characteristics of MBE grown GaMnAs embedded with MnAs clusters”, Applied Surface Science, 253, 515-518 (2006) 20041. D. S. Xue, L. Y. Zhang*, C. X. Gao, X. F. Xu, and A. B. Gui, “Synthesis, M?ssbauer spectra and magnetic properties of quasi-one-dimensional Fe3O4 nanowires”, Chinese Physics Letters, 21, 733-736 (2004)2. L. Y. Zhang, D. S. Xue*, X. F. Xu, and A. B. Gui, C. X. Gao, “The fabrication and magnetic properties of nanowire-like iron oxide”, Journal of Physics: Condensed Matter, 16, 4541-4548 (2004)3. K. J. Lee, K. H. Kim, F. C. Yu, W. S. Im, C. X. Gao, D. J. Kim*, H. J. Kim, and Y. E. Ihm, “Magnetic properties of GaMnN grown via molecular beam epitaxy using a single precursor”, Physica Status Solidi (b), 241, 2854-2857 (2004) 20031. L. Y. Zhang, D. S. Xue*, and C. X. Gao, “Anomalous magnetic properties of antiferromagnetic CoO nanoparticles”, Journal of Magnetism and Magnetic Materials, 267, 111-114 (2003)2. D. S. Xue*, C. X. Gao, Q. F. Liu, and L. Y. Zhang, “Preparation and characterization of haematite nanowire arrays”, Journal of Physics: Condensed Matter, 15, 1455-1459 (2003)3. Q. F. Liu, C. X. Gao, J. J. Xiao, and D. S. Xue*, “Size effects on magnetic properties in Fe0.68Ni0.32 alloy nanowire arrays”, Journal of Magnetism and Magnetic Materials, 260, 151-155 (2003) 20021.C. X. Gao, Q. F. Liu, and D. S. Xue*, “Preparation and characterization of amorphous β-FeOOH nanowire arrays”, Journal of Materials Science Letters, 21, 1781-1783 (2002)
社会工作
2017/05 – 至今 兰州大学，物理科学与技术学院 教授2011/09 – 2017/05 兰州大学，物理科学与技术学院 副教授2007/09 – 2011/08 德国Paul-Drude固体电子学研究所，博士后研究