教师主页移动版

个人经历 personal experience 教育经历 工作经历 1994年：山东工业大学获学士学位 1999-2000：中德联合培养博士学位 2001年：西北工业大学获材料物理与化学博士学位。  1994-1999：西北工业大学应用物理系，助教1999-2001：西北工业大学应用物理系，讲师2002-今：    西北工业大学应用物理系，教授1999-2000：德国宇航院(DLR)，BMBF访问学者2006-2007：柏林歌德学院、德累斯顿固体与材料研究所(IFW Dresden)，洪堡学者（AvH Fellow)2011.1-3：   IFW Dresden，高级研究学者2013.7-9：   IFW Dresden，高级研究学者 2014-2015：Rice University，高级研究学者

教育教学

教育教学 Education and teaching 招生信息 招生专业：材料物理与化学，凝聚态物理，材料与化工招生计划：每年招收博士生、硕士生，学术型或专业型。招生对象：材料类、物理类、冶金类、化学类等专业的学生 Email: caocd@nwpu.edu.cn

荣誉获奖

科学研究 Scientific Research 1、新材料设计与制备2、金属与非金属功能材料晶体生长3、新型高性能软磁材料4、新材料凝聚态结构与电、磁、热、超导等物理性能5、非晶及高/中熵合金6、凝固与相变

科学研究

荣誉获奖 Awards Information [1]    2003年，国家自然科学奖二等奖[2]    1997年，国家技术发明奖二等奖[3]    2006-2007年，德国洪堡基金（Alexander von Humboldt Fellowship）

学术成果

学术成果 Academic Achievements 发表论文：[1]      Song, J.X., Qin, Y.Q., Shi, D.W.*, Chen, X.Y., Li, W.Q., Ren, R.R., Wang, Y.C., Yang, X.G., and Cao, C.D.* (2023): A high-throughput screening and discovery of lanthanum based ternary noncentrosymmetric superconductors with ZrNiAl-structure from ab initio calculations, Journal of Physics and Chemistry of Solids, in press.[2]      Kang, H., Song, K.K.*, Li, L.L., Liu, X.M., Wang, Y.C., Lin, X.* and Cao, C.D.* (2023): Simultaneously healing cracks and strengthening additively manufactured Co34Cr32Ni27Al4Ti3 high-entropy alloy by utilizing Fe-based metallic glasses as a glue. Journal of Materials Science and Technology, in press. [3]      Qin, Y.Q., Song, J.X., Chen, X.Y., Shi, D.W.*, Ren, R.R., Wang, Y.C., Bai, X.J., Yang, X.G.* and Cao, C.D.* (2023): Scanning the latent phases and superconductivity in the Nb-Pb system at high pressure. Physical Chemistry Chemical Physics 25, 15146-15152.[4]      Gao, Q.W., Liu, P.P., Gong, J.H., Xie, M.T., Song, K.K., Liu, X.M., Zhang, J.Y., Wang, Y.Y., Das, J., Cao, C.D., Zadorozhnyy, V., Ramasamy, P. and Eckert, J. (2023): Tailoring microstructures and mechanical properties of lightweight refractory Ti22Sc22Zr22Nb17V17 multi-phase high-entropy alloys by hot extrusion and annealing. Materials Characterization 202, 113025.[5]      Wan, F., Bai, X.J., Wang, Y.C., Hao, Z.Y., Gao, L., Li, J.L.*, Perov, N. and Cao, C.D.* (2023): Effect of Zr-doping on the structure and magnetic properties of YMnO3 ceramics. Journal of Materials Science: Materials in Electronics 33, 17361-17371.[6]      Song, J.X., Qin, Y.Q., Chen, X.Y., Wang, Y.C., Bai, X.J., Shi, D.W.*, Yang, X.G., Wang, F. and Cao, C.D.* (2023): Scanning the intrinsic superconductivity and spin Hall Effect in niobium borides. Crystal Growth & Design 23, 3562-3571.[7]      Li, L.L., Kang, H., Yang, H.O., Song, K.K., Wang, Y.C., Bai, X.J., Lin, X.* and Cao, C.D.* (2023): Effect of Al-5Ti-0.3C-0.2B master alloy on the structure and properties of Ti6Al4V by Laser Solid Forming. Advanced Engineering Materials 2201895.[8]      Liu, X.M., Kou, Z.D., Qu, R.T., Song, W.D., Gu, Y.J., Zhou, C.S., Gao, Q.W., Zhang, J.Y., Cao, C.D., Song, K.K., Zadorozhnyy, V., Zhang, Z.Q. and Eckert, J. (2023): Accelerating matrix/boundary precipitations to explore high-strength and high-ductile Co34Cr32Ni27Al3.5Ti3.5 multicomponent alloys through hot extrusion and annealing. Journal of Materials Science and Technology 143:62-83.[9]      Song, J.X., Shi, D.W.*, Qin, Y.Q., Chen, X.Y., Li, W.Q., Qin, P.B., Ren, R.R., Wang, Y.C., Bai, X.J., Yang, X.G. and Cao, C.D.* (2023): First-principles study of topological surface states and pressure induced phase transitions in a novel noncentrosymmetric superconductor PbTiSe2. Computational Materials Science 218, 111982.[10]  Hao, Z.Y., Wei, L.Z., Cai, Y.F., Wang, Y.C.*, Xiang, M.L., Zhao, F., Zhang, Y.*, N.S. Perov and Cao, C.D.* (2022): Effect of multi-step annealing with different heating rates on magnetic properties of Fe-Si-B-P-Cu nano-crystalline alloy. Materials Research Express 9, 126102.[11]  Hao, Z.Y., Wei, L.Z., Gao, L., Wang, Y.C.*, Bai, X.J., Tong, X., Liang, X.Y., Yodoshi, Umetsu, R., Kawazoe, Y., Zhang, Y.* and Cao, C.D.*(2022): Effect of P addition on soft magnetic properties of Fe–Si–B–P–Cu–C nano-crystalline alloys. Intermetallics 151, 107713.[12]  Wan, F., Li, L.L., Bai, X.J., Wang, Y.C.*, Gao, L., Li, J.L. and Cao, C.D.* (2022): Structure and dielectric relaxation behaviors of Co-doped YMnO3 multiferroic ceramics. Journal of Materials Science: Materials in Electronics 33, 17361–17371.[13]  Hao, Z.Y., Wei, L.Z., Wang, Y.C.*, Kawazoe, Y., Liang, X.Y., Umetsu, R.,Yodoshi, N., Tong, X., Xia, W.X., Zhang, Y.* and Cao, C.D.* (2022):Effect of Si addition on the magnetic properties of FeNi-based alloys with L10 phase through annealing amorphous precursor. Journal of Alloys and Compounds 920, 166029. [14]  Li, W.Q., Song, J.X., Qin, Y.Q., Qin, P.B., Ren, R.R., Wang, Y.C., Bai, X.J.*, Yang, X.G. and Cao, C.D.* (2022): The electronic structure and elastic properties of NbSiSb and NbGeSb: A first-principles study. Physics Letters A 446, 128277.[15]  Sun, K.T., Zhu, Y.H., Wu, S., Xia,J.C., Zhou,P.F., Zhao, Q., Cao, C.D.* and Li, H.F.* (2022): Temperature-dependent structure of an intermetallic ErPd2Si2 single crystal: a combined synchrotron and in-house X-ray diffraction study. Powder Diffraction 1, 0885-7156. [16]  Song, J.X., Qin, Y.Q., Wang, Y.C.* and Cao, C.D.* (2022): Superconductivity and topologically nontrivial states in noncentrosymmetric XVSe2 (X=Pb, Sn): a first-principles study. Physical Chemistry Chemical Physics 24, 1770–1778, DOI: 10.1039/D1CP04111H. [17]  Wang, Y.C.*, Hao, Z.Y., Zhang, Y.*, Liang, X.Y., Bai, X.J. and Cao, C.D.* (2022): Formation of L10-FeNi hard magnetic material from FeNi-based amrophous alloys. Chinese Physics B 31, 046301.[18]  Hao, Z.Y., Qin, K, Song, K.K.* and Cao, C.D.* (2021): Effect of Fe addition on glass-forming ability, thermal stability of B2 CuZr phase and crystallization kinetics for CuZr-based amorphous alloys. Journal of Materials Research and Technology 15, 6464-6475.[19]  Bai, X.J., Wang, L.Y., Pan, Z.Y., Song, R.B., Wang, Y.C., Duan L.B., Lin, X., Perov, N.S. and Cao, C.D.* (2021): Magnetic properties and evidence of a new spin-glass transition induced by Mn-doping in Tb2Ni0.8Mn0.2Si3. Journal of Magnetism and Magnetic Materials 539, 168396.[20]  Song, Y.*, Wang,W.Y.,Cao, C.D.*, Yamani, Z., Xu, Y.J., Sheng,Y.T., L？ser, W., Qiu, Y.M., Yang, Y.F., Birgeneau, R.J. and Dai, P.* (2021): High-energy magnetic excitations from heavy quasiparticles in CeCu2Si2. npj Quantum Materials 6, 60.[21]  Qin, P., Chen, Y., Zhao, C.H.,  Liu, Y.J., Cao, C.D.*, Sun, H. and Zhang, L.C.* (2021): Corrosion behaviour and mechanism of selective laser melted Ti35Nb alloy produced using pre-alloyed and mixed powder in Hank’s solution. Corrosion Science 189, 109609.[22]  Song, Y., Wang,W.Y., Paris, E., Lu, X.Y., Pelliciari, J., Tseng, Y., Huang, Y.B., McNally, D., Dantz, M., Cao, C.D., Yu, R., Birgeneau, R.J., Schmitt, T. and Dai, P.(2021): Spin dynamics in NaFeAs and NaFe0.53Cu0.47As probed by resonant inelastic X-ray scattering. Physical Review B, 103, 075112.[23]  K.K. Song, S. Wu, I. Kaban, M. Stoica, J. Bednarcik, B.A. Sun, C.D. Cao, G. Wang, L. Wang, J. Eckert (2020): In situ high-energy X-ray diffraction study of thermally-activated martensitic transformation far below room temperature in CuZr-based bulk metallic glass composites. Journal of Alloys and Compounds 841, 155781.[24]  Zhang, Z.Q., Song, K.K., Guo, S., Xue, Q.S. Xing, H., Cao, C.D., Dai, F.P., V？lker, B., Hohenwarter, A., Maity, T., Chawake, N., Kim, J.T., Wang, L., Kaban, I. and Eckert, J. (2019): Optimizing mechanical properties of Fe26.7Co26.7Ni26.7Si8.9B11 high entropy alloy by inducing hypoeutectic to quasi-duplex microstructural transition. Scientific Reports 9, 360.[25]  Wang, L.R., Tran, B., He, M.Q.,Meingast, C.,Abdel-Hafiez, M.,Cao, C.D.,Bitterlich, H.,L？ser, W.,Klingeler, R. (2019): The Complex Electronic Phase Diagram of Single-Crystalline R2PdSi3 (R = Ho, Dy) Studied by Thermal Expansion and Magnetostriction. Journal of The Physical Society of Japan 88 (9) 094709.[26]  Qin, P., Chen, Y., Liu, Y.J., Zhang, J.X., Chen, L.Y., Li, Y.H., Zhang, H.X., Cao, C.D.*, Sun, H.Q. and Zhang, L.C. *(2019): Resemblance in Corrosion Behavior of Selective Laser Melted and Traditional Monolithic beta Ti-24Nb-4Zr-8Sn Alloy. ACS Biomaterials Science & Engineering 5(2) 1141-1149.[27]  Wang, W.Y., Song, Y., Cao, C.D.*, Tseng, K.F., Keller, T., Li, Y., Harriger, L.W., Tian, W., Chi, S.X., Yu, R., Nevidomskyy, A.H. and Dai, P.* (2018): Local orthorhombic lattice distortions in the paramagnetic tetragonal phase of superconducting NaFe1？xNixAs. Nature Communications 9, 3128.[28]  Zhang, W.L., Song, Y., Wang, W.Y., Cao, C.D., Dai, P.C., Jin, C.Q. and Blumberg, G.(2018): Raman scattering study of NaFe0.53Cu0.47As. Physical Review B 98, 094512[29]  Bai, X.J., Wang, Y.C. and Cao, C.D.* (2018): Metastable phase separation and rapid solidification of undercooled Co40Fe40Cu20 alloy. Chinese Physics B 27 (11) 116402.[30]  Wang, Y.C., Zhang, Y., Kawazoe, Y. and Cao, C.D. (2018): Ab initio molecular dynamics simulations of nano-crystallization of Fe-based amorphous alloys with early transition metals. Chinese Physics B 27 (11) 116401.[31]  Qin, P., Liu, Y.J., Sercombe, T., Li, Y.H., Zhang, C.W., Cao, C.D., Sun, H.Q. and Zhang, L.C. (2018): Improved corrosion resistance on selective laser melting produced Ti-5Cu alloy after heat treatment. ACS Biomaterials Science & Engineering, 4 (7), 2633–2642.[32]  Han, X.L., Ding, F.L., Qin, Y.S., Wu, D.Y., Xing, H., Shi, Y., Song, K.K.*, Cao, C.D.* (2018): Compositional dependence of crystallization kinetics in Zr-Ni-Al metallic glasses. Vacuum 151, 30-38.[33]  Cheung, S.C., Guguchia, Z., Frandsen, B.A., Gong, Z.Z., Yamakawa, K., Almeida, D.E., Onuorah, I.J., Bonfá, P., Miranda, E., Wang, W.Y., Tam, D.W., Song, Y., Cao, C.D., Cai, Y.P., Hallas, A.M., Wilson, M.N., Munsie, T.J.S., Luke, G., Chen, B.J., Dai, G.Y., Jin, C.Q., Guo, S.L., Ning, F.L., Fernandes, R.M., Renzi, R.D., Dai, P., and Uemura, Y.J. (2018): Disentangling Superconducting and Magnetic Orders in NaFe1-xNixAs using Muon Spin Rotation. Physical Review B 97, 224508.[34]  Charnukha, A., Yin, Z.P., Song, Y., Cao, C.D., Dai, P., Haule, K., Kotliarand, G. and Basov, D.N. (2017): Correlation-driven metal-insulator transition in proximity to an iron-based superconductor. Physical Review B 96, 195121.[35]  Wan, F., Bai, X.J.*, Song, K.K., Han, X.M., Zheng, J.B., Lin, X. and Cao, C.D.*(2017): Effect of Co substitution on magnetic and magnetocaloric properties in multiferroic hexagonal YMnO3. Journal of Materials Science: Materials in Electronics 28, 15819–15825.[36]  Wan, F., Bai, X.J.*, Song, K.K., Zheng, J.B., Lin, X. and Cao, C.D.* (2017): High pressure floating-zone growth and property characterization of Cr-doped hexagonal YMnO3 crystals. Journal of Materials Science and Technology 33, 1061-1066.[37]  Wan, F., Bai, X.J., Song, K.K., Lin, X., Han, X.M., Zheng, J.B. and Cao, C.D.* (2017): Structure and Magnetism of Cr-doped h-YMnO3. Journal of Magnetism and Magnetic Materials 424, 371-375.[38]  Wang, X.Y., Zheng, J.B.*, Chen, L., Li, X.J. and Cao C.D.* (2017): Studies on structure and spectra characterization of Ni-doped PTCDA films. Journal of Materials Science: Materials in Electronics 28, 2037-2043.[39]  Wang, X.Y., Zheng, J.B.*, Chen, L., Li, X.J. and Cao C.D.* (2017): Intrinsic Electronic Structures and Optical Anisotropy of α- and β-Phase Copper Phthalocyanine Molecular Crystals. Applied Mechanics and Materials 864, 133-141.[40]  Song, Y., Yamani, Z., Cao, C.D., Li, Y., Zhang, C.L., Chen, J., Huang, Q.Z., Wu, H., Tao, J., Zhu, Y.M., Tian, W., Chi, S.X., Cao, H.B., Huang, Y.B., Dantz, M., Schmitt, T., Yu, R., Nevidomskyy, A.H., Morosan, E., Si, Q. and Dai, P. (2016): A Mott insulator continuously connected to iron pnictide superconductors. Nature Communications 7, 13879.[41]  Matt, C. E., Xu, N., Lv, B.Q., Ma, J., Bisti, F., Park, J., Shang, T., Cao, C.D., Song, Y., Nevidomskyy, A.H., Dai, P., Patthey, L., Plumb, N.C., Radovic, M., Mesot, J. and Shi, M. (2016), NaFe0.56Cu0.44As: A pnictide insulating phase induced by on-site Coulomb interaction. Physical Review Letters 117, 097001.[42]  Wang, X.Y., Zheng, J.B., Li, X.J. and Cao, C.D. (2016): Electronic structures and optical properties of β-PTCDA based on the first-principles investigation. Acta Photonica Sinica 45, 0616001.[43]  Qin, Y.S., Shi, Y., Song, K.K.*, Cao, C.D. *, He, J., Wu, D.Y., Wang, L., Kaban, I. and Eckert, J. (2016): Formation and phase evolution of liquid phase-separated metallic glasses with double glass transition, crystallization and melting. Materials Today Communications 8, 64-67.[44]  Bai, X.J., Shi, X.X., Cao, C.D.*, Yang, M. and Zhang, W.X. (2016): Subloop magnetic moment reversal-induced recovery effect in exchange-biased IrMn/Pt/Co/Pt multilayers. Journal of Superconductivity and Novel Magnetism 29, 905-910.[45]  Wu, D.Y., Song, K.K.*, Gargarella, P.*, Cao, C.D.*, Li, R. and Eckert, J. (2016): Glass-forming Ability, Thermal Stability of B2-CuZr Phase, and Crystallization Kinetics for rapidly solidified Cu-Zr-Zn alloys. Journal of Alloys and Compounds 664, 99-108.[46]  Wan, F., Lin, X., Bai, X.J.*, Han, X.M., Song, K.K., Zheng, J.B. and Cao, C.D. * (2016): Crystalline structure and dielectric properties of multiferroic Cr-doped YMnO3. Journal of Materials Science: Materials in Electronics 27,3082–3087.[47]  Song, K.K., Wu, D.Y., Ding, F.L., Shi, Y., Wan, F., Cheng, M.W., Bai, X.J. and Cao, C.D. * (2016): Influence of Zn addition on martensitic transformation in CuZr-based alloys. Journal of Iron and Steel Research International 23, 31-36.[48]  Li, H.F., Cao,C.D., Wildes,A., Schmidt,W., Schmalzl,K., Hou,B., Regnault,L.P., Zhang, C., Meuffels, P., L？ser, W. and Roth, G. (2015): Distinct itinerant spin-density waves and local-moment antiferromagnetism in an intermetallic ErPd2Si2 single crystal. Scientific Reports 5, 7968, 1-7.[49]  Wu, D.Y., Song, K.K.*, Cao, C.D. *, Li, R., Wang, G., Wu, Y., Wan, F., Ding, F.L., Shi, Y., Bai, X.J., Kaban, I., and Eckert, J. (2015): Deformation-Induced Martensitic Transformation in Cu-Zr-Zn Bulk Metallic Glass Composites. Metals 5, 2134-2147.[50]  Wang, X.Y., Zheng, J.B., Chen, L, Qiao, K., Xu, J.W. and Cao, C.D. (2015): Near room temperature ferromagnetism of copper phthalocyaninethin films. Applied Surface Science 356, 1070–1076.[51]  Bai, X.J., Wang, J.L., Guan, X.J., Shi, X.X. and Cao, C.D.* (2015): Spin Currents Excited by Temperature Gradient and Electric Field in Pt/Co/Pt Multilayer Films. IEEE Magnetics Letters 6, 3000904.

综合介绍

综合介绍 General Introduction        博士，教授，博士生导师，德国洪堡学者，先后主持国家和省部级科研课题20余项，作为主要完成人参加完成国家和省部级科研课题10余项。      在Nature Communications、Physical Review Letters、Physical Review B、npj Quantum Materials、Applied Physics Letters、Physical Review E、Crystal Growth & Design、Scripta Materialia、Journal of Crystal Growth等国内外重要学术期刊及学术会议上发表论文150余篇，H-index 26，被SCI收录100余篇，EI收录100余篇，被引用2338次（Google Scholar）。受邀在国际会议及重要学术机构作特邀报告10 余次。      获国家自然科学二等奖1项，国家发明二等奖1项，省部级科技进步一等奖3项、二等奖1项、三等奖1项。获国家发明专利7项、实用新型专利5项。      已与美国Rice University、密苏里科技大学、德国德累斯顿固体与材料研究所（IFW Dresden）、海德堡大学等国际著名研究机构建立正式长期合作关系。担任多种国际期刊审稿人。  个人相册