* Corresponding author
[123] Critical charge and spin instabilities in superconducting LaNiO. X Chen, P Jiang, J Li, Z Zhong, Y Lu; arXiv preprint :2307.07154 (2023)
[122] Photoinduced Phase Transition in Infinite‐Layer Nickelates. Z Yang, K Jin, Y Gan, C Ma, Z Zhong, Y Yuan, C Ge, EJ Guo, C Wang, X Xu, M He, D Zhang, G Yang; Small, 2304146 (2023)
[121] Zero-point quantum diffusion of protons in the hydrogen-rich superconductor LaH10 from first principles. X Qin, H Wu, G Shi, C Zhang, P Jiang, Z Zhong*; Physical Review B 108 (6), 064102 (2023)
[120] Light‐Induced Giant Rashba Spin–Orbit Coupling at Superconducting KTaO3(110) Heterointerfaces. Y Gan, F Yang, L Kong, X Chen, H Xu, J Zhao, G Li, Y Zhao, L Yan, Z Zhong*, Y Chen, H Ding ; Advanced Materials 35 (25), 2300582 (2023)
[119] Unusual structural rearrangement and superconductivity in infinite layer cuprate superlattices. D Samal, N Gauquelin, Y Takamura, I Lobato, E Arenholz, S Van Aert, M Huijben, Z Zhong, J Verbeeck, G Tendeloo, G Koster; Physical Review Materials 7 (5), 054803 (2023)
[118] Unconventional ferroelectric domain switching dynamics in CuInP2S6 from first principles. R He, H Wang, F Liu, S Liu, H Liu, Z Zhong; arXiv preprint :2305.08321 (2023)
[117] Electronic structure of cuprate-nickelate infinite-layer heterostructure. D Chen, P Worm, L Si, C Zhang, F Deng, P Jiang, Z Zhong*; Chinese Physics B (2023)
[116] Enhanced Superconductivity and Upper Critical Field in Ta‐Doped Weyl Semimetal Td‐MoTe2 (Adv. Mater. 19/2023). Y Zhang, F Fei, R Liu, T Zhu, B Chen, T Qiu, Z Zuo, J Guo, W Tang, L Zhou, Z Zhong...; Advanced Materials 35 (19), 2370135 (2023)
[115] Structure, Magnetotransport, and Theoretical Study on the Layered Antiferromagnet Topological Phase EuCd2As2 under High Pressure. Z Yu, X Chen, W Xia, N Wang, X Lv, D Wu, W Wu, Z Liu, J Zhao, M Li, S Li, X Li, Z Dong, C Zhou, L Zhang, X Wang, N Yu, Z Zou, J Luo, J Cheng, L Wang, Z Zhong, Y Guo; Advanced Quantum Technologies 6 (5), 2200128 (2023)
[114] Enhanced Superconductivity and Upper Critical Field in Ta‐Doped Weyl Semimetal Td‐MoTe2. Y Zhang, F Fei, R Liu, T Zhu, B Chen, T Qiu, Z Zuo, J Guo, W Tang, L Zhou, X Xi, X Wu, D Wu, Z Zhong, F Song, R Zhang, X Wang; Advanced Materials 35 (19), 2207841 (2023)
[113] Spontaneous Hybrid Nano‐Domain Behavior of the Organic–Inorganic Hybrid Perovskites. P Tuo, L Li, X Wang, J Chen, Z Zhong*, B Xu, FZ Dai; Advanced Functional Materials, 2301663 (2023)
[112] Electron-doping Ruddlesden-Popper nickelate. X Chen, P Jiang, Z Zhong*; Europhysics Letters 142 (2), 26005 (2023)
[111] Extending the metal to insulator transitions of rare‐earth nickelates towards low temperature ranges. J Zhong, Z Li, Y Zheng, P Jiang, F Zhang, T Zhang, Y Cui, Z Zhong, N Chen, J Chen; Journal of the American Ceramic Society (2023)
[110] Suppressed charge-density-wave, robust ferromagnetism and Lifshitz transition in Sm2Ru3Ge5 crystal under high pressure. Z Li, X Chen, X Liu, Z Yu, N Su, Z Liu, W Xia, J Jiao, C Zhou, L Zhang, Z Zhong* ...; Journal of Alloys and Compounds 937, 168337 (2023)
[109] Light‐Induced Mott‐Insulator‐to‐Metal Phase Transition in Ultrathin Intermediate‐Spin Ferromagnetic Perovskite Ruthenates. R Liu, L Si, W Niu, X Zhang, Z Chen, C Zhu, W Zhuang, Y Chen, L Zhou, C Zhang, P Wang, F Song, L Tang, Y Xu, Z Zhong, R Zhang, X Wang; Advanced Materials 35 (12), 2211612 (2023)
[108] Magnetic tuning of band topology evidenced by exotic quantum oscillations in the Dirac semimetal EuMnSb2. K Zhao, X Chen, Z Wang, J Liu, J Wu, C Xi, X Lv, L Li, Z Zhong*, P Gegenwart; Physical Review B 107 (8), L081112 (2023)
[107] Large-scale atomistic simulation of dislocation core structure in face-centered cubic metal with Deep Potential method. F Deng, H Wu, R He, P Yang, Z Zhong*; Computational Materials Science 218, 111941 (2023)
[106] Local Joule heating targets catalyst surface for hydrocarbon combustion. Q Xiong, X Zhu, R He, X Mei, Y Zhang, Z Zhong*, W Zhao, W Nie, J Zhang; Journal of Industrial and Engineering Chemistry 117, 273-281 (2023)
[105] The evolution of band topology in two-dimensional Weyl half-metals. C Ma, X Chen, K Jin, W Ren, Z Zhong, C Ge, E Guo, X Xu, Q Zhang, C Wang; The Journal of Physical Chemistry Letters 14 (3), 825-831 (2023)
[104] Electronic and topological properties of kagome lattice LaV3Si2. XJ Chen, BW Zhang, D Han, ZC Zhong*; Tungsten, 1-8 (2023)
[103] Ultrafast switching dynamics of the ferroelectric order in stacking-engineered ferroelectrics. R He, B Zhang, H Wang, L Li, T Ping, G Bauer, Z Zhong; arXiv preprint :2212.14203 (2022)
[102] Large-scale atomistic simulation of quantum effects in SrTiO3 from first principles. H Wu, R He, Y Lu, Z Zhong*; Physical Review B 106 (22), 224102 (2022)
[101] Origin of negative thermal expansion and pressure-induced amorphization in zirconium tungstate from a machine-learning potential.R He, H Wu, Y Lu, Z Zhong*; Physical Review B 106 (17), 174101 (2022)
[100] Multifunctional Modulation of High‐Performance ZnxFe3−xO4 Nanoparticles by Precisely Tuning the Zinc Doping Content.H Du, F Yang, C Yao, Z Zhong, P Jiang, SG Stanciu, H Peng, J Hu, Small 18 (42), 2201669 (2022)
[99] Hybrid nano-domain structures of organic-inorganic perovskites from molecule-cage coupling effects.P Tuo, L Li, X Wang, B Xu, J Chen, Z Zhong, FZ Dai; arXiv preprint :2209.12445 (2022)
[98] Strain-tunable Dzyaloshinskii-Moriya interaction and skyrmions in two-dimensional Janus ( = Cl, Br, I, ) trihalide monolayers Z Shen, C Song, Y Xue, Z Wu, J Wang, Z Zhong*;Physical Review B 106 (9), 09440 (2022)
[97] Colossal Room-Temperature Ferroelectric Polarizations in SrTiO3/SrRuO3 Superlattices Induced by Oxygen Vacancies J. Lin, Y. Sun, R. He, Y. Li, Z. Zhong, P. Gao, X. Zhao, Z. Zhang, Z. Wang; Nano Lett. 10, 1021 (2022)
[96] Origin of negative thermal expansion and pressure induced amorphization in zirconium tungstate from machine-learning potential R. He, H. Wu, Y. Lu, Z. Zhong*; arXiv preprint. 2208, 02974 (2022)
[95] Magnetism in doped infinite-layer NdNiO2 studied by combined density functional theory and dynamical mean-field theory D. Chen, P. Jiang, L. Si, Y. Lu, Z. Zhong*; Phys. Rev. B 106, 045105 (2022)
[94] Theory of the magnetism in doped infinite-layer NdNiO2 D. Chen, P. Jiang, L. Si, Y. Lu, Z. Zhong*; arXiv preprint. 2206, 10094 (2022)
[93] Thickness-Dependent Magnetism and Topological Properties of EuSn2As2 X. Lv, X. Chen, B. Zhang, P. Jiang*, Z. Zhong*; ACS Appl. Electron. Mater. 10, 1021 (2022)
[92] Magnetic tuning of band topology evidenced by exotic quantum oscillations in the Dirac semimetal EuMnSb2 K. Zhao, X. Chen, Z. Wang, J. Wu, C. Xi, X. Lv, L. Li, Z. Zhong, P. Gegenwart; arXiv preprint. 2205, 12954 (2022)
[91] Large‐Scale Hf0.5Zr0.5O2 Membranes with Robust Ferroelectricity H. Zhong, M. Li, Q. Zhang, L. Yang, R. He, F. Liu, Z. Liu, G. Li, Q. Sun, D. Xie, F. Meng, Q. Li, M. He, E. Guo, C. Wang, Z. Zhong, X. Wang, L. Gu, G. Yang, K. Jin, P. Gao, C. Ge; Adv. Mater. 4, 2109889 (2022)
[90] Isostructural metal-insulator transition driven by dimensional-crossover in SrIrO3 heterostructures S. Kong, L. Li, Z. Lu, J. Feng, X. Zheng, P. Song, Y. Shi, Y. Wang, B. Ge, K. Rolfs, E. Pomjakushina, T. Schmitt, N. Plumb, M. Shi, Z. Zhong, M. Radovic, Z. Wang, R. Li; Phys. Rev. Materials 6, 034404 (2022)
[89] Calculation of the phase diagram of nickelate superconductors M. Kitatani, L. Si, O. Janson, Z. Zhong, P. Worm, J. Tomczak, R. Arita, K. Held; APS March Meeting. 3, 67 (2022)
[88] Structural phase transitions in SrTiO3 from deep potential molecular dynamics R. He, H. Wu, L. Zhang, X. Wang, F. Fu, S. Liu, Z. Zhong*; Phys. Rev. B 105, 064104 (2022)
[87] Pressure-induced ideal Weyl semimetal state in the layered antiferromagnet EuCd2As2 Z. Yu, X. Chen, W. Xia, N. Wang, X. Lv, X. Liu, H. Su, Z. Li, D. Wu, W. Wu, Z. Liu, J. Zhao, M. Li, S. Li, X. Li, Z. Dong, C. Zhou, L. Zhang, X. Wang, N. Yu, Z. Zou, J. Luo, J. Cheng, L. Wang, Z. Zhong, Y. Guo; arXiv preprint. 2202, 06016 (2022)
[86] Cooperative control of perpendicular magnetic anisotropy via crystal structure and orientation in freestanding SrRuO3 membranes Z. Lu, Y. Yang, L. Wen, J. Feng, B. Lao, X. Zheng, S. Li, K. Zhao, B. Cao, Z. Ren, D. Song, H. Du, Y. Guo, Z. Zhong, X. Hao*, Z. Wang*, R. Li; npj Flex Electron 10, 1038 (2022)
[85] Discovery of Robust Ferroelectricity in 2D Defective Semiconductor α‑Ga2Se3 W. Xue, Q. Jiang, F. Wang, R. He, R. Pang, H. Yang, P. Wang, R. Yang, Z. Zhong, T. Zhai, X. Xu; Small. 10, 210059 (2022)
[84] A flexible dual-gate hetero-synaptic transistor for spatiotemporal information processing X. Liu, C. Sun, Z. Guo, Y. Zhang, Z. Zhang, J. Shang, Z. Zhong, X. Zhu*, X. Yu*, R. Li; Nanoscale Adv. 4, 2142 (2022)
[83] Phase diagram of nickelate superconductors calculated by dynamical vertex approximation K. Held, L. Si, P. Worm, O. Janson, R. Arita, Z. Zhong, J. Tomczak, M. Kitatani; Front. Phys. 10, 810394 (2022)
[82] Antiferromagnetism in Ni-Based Superconductors X. Zhou, X. Zhang, J. Yi, P. Qin,Z. Feng, P. Jiang, Z. Zhong, H. Yan, X. Wang, H. Chen, H. Wu, X. Zhang, Z. Meng, X. Yu, M. Breese, J. Cao, J. Wang, C. Jiang, Z. Liu; Adv. Mater. 34, 2106117 (2022)
[81] Colossal angular magnetoresistance in the antiferromagnetic semiconductor EuTe2 H. Yang, Q. Liu, Z. Liao, L. Si, P. Jiang, X. Liu, Y. Guo, J. Yin, M. Wang, Z. Sheng, Y. Zhao, Z. Wang, Z. Zhong*, R. Li; Phys. Rev. B 104, 214419 (2021)
[80] Decreasing the catalytic ignition temperature of diesel soot using electrified conductive oxide catalysts X. Mei, X. Zhu, Y. Zhang*, Z. Zhang, Z. Zhong, Y. Xin*, J. Zhang*; Nature Catalysis 4, 1002 (2021)
[79] Ferroelectric structural transition in hafnium oxide induced by charged oxygen vacancies R. He, H. Wu, S. Liu, H. Liu; Z. Zhong*; Phys. Rev. B 104, L180102 (2021)
[78] First-principle study of Sr-doping effect in Nd1-x SrxNiO2 F. Deng, P. Jiang, Y. Lu, Z. Zhong*; Euro. Phys. Lett. 135, 67001 (2021)
[77] Electrically controllable zero-energy states in Rashba oxide heterostructure with in-plane magnetic field cooling H. Ma, X. Gan, L. Li, Y. Zhang, Y. Zhang, Y. Hui, J. Zhou, Z. Zhong*, J. Zhang, Y. Hao; Appl. Phys. Lett. 119, 192601 (2021)
[76] Antiferromagnetism in Ni‐Based Superconductors X. Zhou, X. Zhang, J. Yi, P. Qin, Z. Feng, P. Jiang, Z. Zhong, H. Yan, X. Wang, H. Chen, H. Wu, X. Zhang, Z. Meng, X. Yu, M. Breese, J. Cao, J. Wang, C. Jiang, Z. Liu*; Adv. Mater. 117, 2106 (2021)
[75] Lateral Modulation of Magnetic Anisotropy in Tricolor 3d–5d Oxide Superlattices X. Lu, J. Liu, L. Wen, J. Feng, S. Kong, X. Zheng, S. Li, P. Jiang, Z. Zhong, J. Zhu, X. Hao*, Z. Wang*, R. Li; ACS Appl.Electron.Mater. 3, 4210 (2021)
[74] Cooperative control of perpendicular magnetic anisotropy via crystal structure and orientation in single-crystal flexible SrRuO3 membranes Z. Lu, Y. Yang, L. Wen, J. Feng, B. Lao, X. Zheng, S. Li, K. Zhao, B. Cao, Z. Ren, D. Song, H. Du, Y. Guo, Z. Zhong, X. Hao*, Z. Wang*, R. Li; arXiv preprint. 2109.02061 (2021)
[73] Isostructural Metal-Insulator Transition Driven by Dimensional-Crossover in SrIrO3 Heterostructures S. Kong, L. Li, Z. Lu, J. Feng, X. Zheng, P. Song, Y. Shi, Y. Wang, B. Ge, K. Rolfs, E. Pomjakushina, T. Schmitt, N. Plumb, M. Shi, Z. Zhong*, M. Radovic*, Z. Wang*, R. Li; arXiv preprint. 2109.02056 (2021)
[72] Strain tunable skyrmions and strong Dzyaloshinskii-Moriya interaction in two-dimensional Janus Cr(X,Y) trihalides monolayers Z. Shen, C. Song, Y. Xue, Z. Wu, J. Wang, Z. Zhong*; arXiv preprint 2109.00723 (2021)
[71] Electric Field Control of the Magnetic Weyl Fermion in an Epitaxial SrRuO3 (111) Thin Film W. Lin, L. Liu, Q. Liu, L. Li, X. Shu, C. Li, Q. Xie, P. Jiang, X. Zheng, R. Guo, Z. Lim, S. Zeng, G. Zhou, H. Wang, J. Zhou, P. Yang, S. Pennycook, X. Xu, Z. Zhong*, Z. Wang*, J. Chen*; Adv. Mater. 33, 2101316 (2021)
[70] Interplay between structural and electronic properties with the metal-insulator transition in NdNiO3 thin films YE Suyolcu, K Fürsich, M Hepting, Z. Zhong, Y. Lu, Y. Lu, Y. Wang, G. Christiani, G. Logvenov, P. Hansmann, M. Minola, B. Keimer, PA. Aken*, E. Benckiser*; Microsc. Microanal. 27,144 (2021)
[69] Pitfalls and solutions for perovskite transparent conductors L. Si, J. Kaufmann, Z. Zhong*, JM. Tomczak, K. Held; Phys. Rev. B 104, L041112 (2021)
[68] Electric Field Control of the Magnetic Weyl Fermion in an Epitaxial SrRuO3 (111) Thin Film W. Lin, L. Liu, Q. Liu, L. Li, X Shu, C Li, Q Xie, P. Jiang, X. Zheng, R. Guo, Z. Lim, S. Zeng, G. Zhou, H. Wang, J. Zhou, P. Yang, SJ. Pennycook, X. Xu, Z. Zhong*, Z. Wang*, J. Chen*; Adv. Mater. 33, 2101316 (2021)
[67] Defect‐Engineered Dzyaloshinskii–Moriya Interaction and Electric‐Field‐Switchable Topological Spin Texture in SrRuO3 J. Lu, L. Si, Q. Zhang, C. Tian, X. Liu, C. Song, S. Dong, J. Wang, S. Cheng, L. Qu, K. Zhang, Y. Shi, H. Huang, T. Zhu, W. Mi, Z. Zhong, L. Gu, K. Held, L. Wang*, J. Zhang*; Adv. Mater. 33, 2102525 (2021)
[66] Charged Oxygen Vacancy Induced Ferroelectric Structure Transition in Hafnium Oxide R. He, H. Wu, S. Liu, H. Liu, XR. Wang, Z. Zhong*; arXiv preprint. 2106.12159 (2021)
[65] Electrochemical control of ferroelectricity in hafnia-based ferroelectric devices using reversible oxygen migration M. Shao, H. Liu, R. He, X. Li, L. Wu, J. Ma, X. Hu, R. Zhao, Z. Zhong, Y. Yu, CH. Wan, Y. Yang, CW. Nan, X. Bai*, T. Ren*, X. Wang*; arXiv preprint. 2106.10837 (2021)
[64] Control of the metal-insulator transition in thin films through the interplay between structural and electronic properties YE Suyolcu, K Fürsich, M Hepting, Z. Zhong, Y Lu, Y Wang, G Christiani, G Logvenov, P Hansmann, M Minola, B Keimer, PA Van Aken, E Benckiser*; Phys. Rev. Materials 5 (4), 045001 (2021)
[63] Observation of an Unusual Colossal Anisotropic Magnetoresistance Effect in an Antiferromagnetic Semiconductor H.Yang, Q. Liu, Z. Liao, L. Si, P. Jiang, X. Liu, Y. Guo, J. Yin, M.Wang, Z.Sheng, Y. Zhao, Z. Wang*, Z. Zhong*,R. Li; arXiv preprint. 2103.02818 (2021)
[62] Nonmonotonic crossover in electronic phase separated manganite superlattices driven by the superlattice period Y. Zhu, B. Ye, Q. Li, H. Liu, T. Miao, L. Wu, L. Li, L. Lin, Y. Zhu, Z. Zhang, Q. Shi, Y. Yang, K. Du, Y. Bai, Y. Yu, H. Guo, W. Wang, X. Xu, X. Wu, Z. Zhong, S. Dong, Y. Zhu, E. Dagotto*, L. Yin, and J. Shen Phys. Rev. B 102, 235107 (2020)
[60] Oxygen vacancy enhanced ferroelectricity in BTO:SRO nanocomposite films J. Lin#, R. He#, Z. Lu, Y. Lu, Z. Wang, Z. Zhong*, X. Zhao, R. Li, Z. Zhang, and Z. Wang* Acta Materialia 199, 9 (2020)
[59] Emergent Ferroelectricity in Otherwise Nonferroelectric Oxides by Oxygen Vacancy Design at Heterointerfaces R. He#, J. Lin#, Q. Liu, Z. Liao*, L. Shui, Z. Wang*, Z. Zhong*, and R. Li ACS Appl. Mater. Interfaces 12, 40 (2020)
[58] Nickelate superconductors—a renaissance of the one-band Hubbard model M. Kitatani#, L. Si#, O. Janson, R. Arita, Z. Zhong and K. Held* npj Quantum Materials 5, 59 (2020)
[57] Polar Rectification Effect in Electro-Fatigued SrTiO3-Based Junctions X. Xu, H. Zhang, Z. Zhong*, R. Zhang, L. Yin, Y. Sun, H. Huang, Y. Lu, Y. Lu, C. Zhou, Z. Ma, L. Shen, J. Wang, J. Guo, J. Sun*, and Z. Sheng* ACS Appl. Mater. Interfaces 12, 28 (2020)
[56] Materials with strong spin-textured bands Z. Liao, P. Jiang, Z. Zhong*, and R. Li npj Quantum Materials 5, 1-10 (2020)
[55] Topotactic Hydrogen in Nickelate Superconductors and Akin Infinite-Layer Oxides ABO2 L. Si, W. Xiao, J. Kaufmann, J. Tomczak, Y. Lu, Z. Zhong*, and K. Held* Phys. Rev. Lett. 124, 166402 (2020)
[54] Electric field controllable high-spin SrRuO3 driven by a solid ionic junction J. Lu, L. Si, X. Yao, C. Tian, J. Wang, Q. Zhang, Z. Lai, I. Malik, X. Liu, P. Jiang, K. Zhu, Y. Shi, Z. Luo, L. Gu, K. Held, W. Mi, Z. Zhong*, C. Nan, and J. Zhang*, Phys. Rev. B 101, 214401 (2020)
[53] Controllable and Stable Quantized Conductance States in a /HfOx/ITO Memristor, Xue, Yi Li, Gang Liu, Wang, Wen Xiao, Kemin Jiang, Z. Zhong, Shuang Gao, Jun Ding, Xiangshui Miao, Xiao‐Hong Xu, Run‐Wei Li, Adv. Electron. Mater. 6, 1901055 (2020)
[52] Atomic‐Scale Metal–Insulator Transition in SrRuO3 Films Triggered by Surface Termination Conversion, Han Gyeol Lee, Lingfei Wang, L. Si, Xiaoyue He, Daniel G Porter, Jeong Rae Kim, Eun Kyo Ko, Jinkwon Kim, Sung Min Park, Bongju Kim, Andrew Thye Shen Wee, Alessandro Bombardi, Z. Zhong, Tae Won Noh, Adv. Mater. 6, 1905815 (2020)
[51] Emergent Magnetic State in (111)-Oriented Quasi-Two-Dimensional Spinel Oxides, Xiaoran Liu, Sobhit Singh, Brian J. Kirby, Z. Zhong, Yanwei Cao, Banabir Pal, Mikhail Kareev, Srimanta Middey, John W. Freeland, Padraic Shafer, Elke Arenholz, David Vanderbilt and Jak Chakhalian, Nano Lett. 19, 8381-8387 (2019)
[50] Electronic structure of rare-earth infinite-layer RNiO2 R = La, Nd), P. Jiang#, L. Si#, Zhaoliang Liao and Z. Zhong*, Phys. Rev. B 100, 201106 (2019)
[49] Rationally Designed High-Performance Spin Filter Based on Two-Dimensional Half-Metal Cr2NO2, Yang, Shaozheng Zhang, L. Li, Anping Wang, Z. Zhong* and Liang Chen*, Matter 1, 1304–1315 (2019)
[48] Diluted Oxide Interfaces with Tunable Ground States, Yulin Gan, Dennis Valbjørn Christensen, Yu Zhang, Hongrui Zhang, Dileep Krishnan, Z. Zhong, Wei Niu, Damon James Carrad, Kion Norrman, Merlin von Soosten, Thomas Sand Jespersen, Baogen Shen, Nicolas Gauquelin, Johan Verbeeck, Jirong Sun, Nini Pryds and Yunzhong Chen, Adv. Mater. 31, 1805970 (2019)
[47] Coexistence of and magnetism in two-dimensional vanadium Jianhui Yang, Anping Wang, Shaozheng Zhang, Jia Liu, Z. Zhong and Liang Chen*, Phys. Chem. Chem. Phys., 21,132 (2019)
[46] Noncollinearity-modulated Electronic Properties of Monolayer
[45] Tunable band gap and enhanced by surface adsorption in Cr2Ge26, C. Song#, W. Xiao#, L. Li, Yi Lu, P. Jiang*, Chaorong Li, Aixi Chen*, and Z. Zhong*, Phys. Rev. B, 99, 2144352019)
[44] Stacking tunable magnetism in 3, P. Jiang#, Cong Wang#, Chen, Z. Zhong*, Yuan, Zhong-Yi Lu, and Wei Ji*, Phys. Rev. B, 99,1444012019)
[43] Interface-based tuning of Rashba spin-orbit interaction in asymmetric oxide with 3d electrons, Weinan Lin, L. Li, Fatih Doğan, Changjian Li, Hélène Rotella, Xiaojiang Yu, Bangmin Zhang, Yangyang Li, Wen Siang Lew, Shijie Wang, Wilfrid Prellier , Stephen J. Pennycook, Jingsheng Chen*, Z. Zhong*, Aurelien Manchon* & Tom Wu*, Nat. Comm. 10,3052(2019)
[42] Complex magnetic order in slabs, M. , R. Green, Z. Zhong, M. , Y. , S. Macke, A. , S. Catalano, M. , R. , F. He, G. , G. , Y. Wang, P. A. , P. Hansmann, M. Le Tacon, J-M. , G. A. Sawatzky, B. E. Benckiser, Nat. Phys. (2018)
[41] Spin direction controlled electronic band structure in two dimensional ferromagnetic 3, P. Jiang, L. Li, Z. , Y. X. Zhao, and Z. Zhong*, Nano Lett. 18, 3844 (2018)
[40] Symmetry mismatch-driven perpendicular magnetic anisotropy for / heterostructures, J. Zhang#, Z. Zhong#, X. Guan, X. Shen, J. Zhang, F. Han, H. Zhang, H. Zhang, X. Yan, Q. Zhang, L. , F. Hu, R. Yu, B. Shen, and J. Sun, Nat. Comm. 9, 1923 (2018)
[39] First-principle study of metal oxide thin films: Electronic and magnetic properties of confined d electrons, Z. Zhong* and Y. Lu, Elsevier book chapter "Metal Oxide-Based Thin Film Structures" (2018)
[38] Dynamical mean field theory for oxide O. Janson, Z. Zhong, G. Sangiovanni, and K. Held, Springer book chapter "Spectroscopy of Complex " (2018)
[37] Chiral d-wave superconductivity in a triangular surface lattice mediated by long-range interaction, X. , T. , Z. Zhong, O. , D. Manske, and P. Hansmann, Phys. Rev. B 97, 155145 (2018)
[36] Electronic structure of the candidate 2D Dirac SrMnSb2: a combined experimental and theoretical study, S. , J. Henke, A. Schiphorst, R. , S. , G. -, S. Mishra, L. Li, Y. Huang, T. Kim, M. Hoesch, C. Schlueter, T. Lee, A. Visser, Z. Zhong, J. Wezel, E. Heumen, and M. Golden, Sci. Post 4, 010 (2018)
[35] Topological Phase Transition with Nanoscale in (Bi1-xInx2Se3, W. Zhang, M. Chen, J. , X. Wang, Z. Zhong, S. Cheong, and W. Wu, Nano Letters 18, 2677 (2018
[34] 2 p-insulator Creation of half- and via double exchange; B. Zhang, C. , G. Li, F. Li, W. , S. Zhang, M. , H. Zhang, R. Zhang, Z. Zhong, Z. Yuan, S. Yuan, and G. Blake, Phys. Rev. B 97, 165109 (2018)
[33] Localized Control of Curie Temperature in Perovskite Oxide Film by Capping-Layer-Induced Octahedral Distortion; S. Thomas, B. Kuiper, J. Hu, J. Smit, Z. , Z. Zhong, G, Rijnders, A. , R. Wu, Koster, and J. Xia; Phys. Rev. Lett. 119 177203 (2017)
[32] A 1D Vanadium Dioxide Nanochannel Constructed via Electric-Field-Induced Ion Transport and its Superior Metal-Insulator Transition; W. Xue, G. Liu, Z. Zhong, Y. , J. Shang, YLiu, H. Yang, X. , H. Tan, L. Pan, S. Gao, J. Ding, X. Xu, and R. Li; Advanced Materials 29 1702162 (2017)
以往文章:
[31] Band Alignment and Charge Transfer in Complex Oxide Interfaces; Z. Zhong* and P. Hansmann Phys. Rev. X 7, 011023 (2017)
[30] A Atomically Precise Lateral Modulation of a Two-Dimensional Electron Liquid in Anatase TiO2 Thin Films Z. Wang, Z. Zhong, Z. Ristic, J. Ma, F. Y. Bruno, S. , G. Sangiovanni, G. , N. C. Plumb, L. , M. , J. , F. Baumberger and M. Radovic; Nano Letters 17, 2561 (2017)
[29] Quantum anomalous Hall state in ferromagnetic SrRuO3 (111) L. , O. Janson, G. Li, Z. Zhong Z. , G. , and K. Held; Phys. Rev. Lett. 119, 026402 (2017)
[28] Thickness Dependent Properties in Oxide Heterostructures Driven by Structurally Induced Metal-Oxygen Hybridization Variations; Z. , N. , R. J. Green, S. Macke, J. , S. Thomas, Z. Zhong, L. Li, L. , S. , P. Hansmann, K. Held, J. Xia, J. Verbeeck, G. Van Tendeloo, G. A. Sawatzky, G. , M. , G. ; Advanced Functional Materials, 27, 1606717 (2017)
[27] Origins of bond and spin order in rare-earth bulk and heterostructures; Y. Lu, Z. Zhong, M. W. , and P. Hansmann; Phys. Rev. B 95, 195117 (2017)
[26] Tailoring the structure and properties of BaTiO3 via 2+ substitution; X. Xiao, M. , W. Xie, T. , S. Yoon, M. , S. , Z. Zhong P. Hansmann, S. , A. , and A. ; Phys. Chem. Chem. Phys. 19, 13469 (2017)
[25] Anomalous orbital structure in a spinel– interface; Y. , X. Liu, P. Shafer, S. , D. Meyers, M. , Z. Zhong, J. Kim, P. Ryan, E. , and J. ; Quantum Materials 1, 16009 (2016)
[24] Quantum Hall effect at a modulation-doped oxide interface; F. Trier, G. , Z. Zhong, Christensen, M. , A. , J. , Y. Chen, T. Jespersen, N. ; Phys. Rev. Lett. 117 096804 (2016)
[23] Engineering properties long range symmetry propagation initiated at ; ZL Liao, RJ Green, N. , S. Macke, L. Lin, J. , R. Sutarto, EP Houwman, Z. Zhong, S. Van Aert, J. Verbeeck, GA Sawatzky, G. *, M. , G. ; Adv. Fun. Mater 26 6627 (2016)
[22] Tuning the work function in transition metal oxides and their heterostructures; Z. Zhong* and P. Hansmann; Phys. Rev. B 93, 235116 (2016)
[21] Controlled lateral anisotropy in correlated by interface-engineered oxygen octahedral coupling; Z. , M. , Z. Zhong, N. , S. Macke, RJ Green, S. Van Aert, J. Verbeeck, G. Van Tendeloo, K. Held, GA Sawatzky, G. & G. ; Nat. Mat. 15, 425 (2016)
[20] Designing substrates for and First-principles calculations; M. Chen, Z. Zhong, and M. Weinert; Phys. Rev. B. 94, 075409 (2016)
[19] Electronics with correlated oxides: SrVO3/SrTiO3 as a Mott transistor; Z. Zhong*, M. , J. M. Tomczak, C. Taranto, N. , A. Toschi, G. Sangiovanni, and K. Held; Phys. Rev. Lett. 114, 246401 (2015)
[18] A route to room temperature ferromagnetic SrRuO3 films; L. , Z. Zhong*, Jan M. Tomczak, and Karsten Held; Phys. Rev. B (R) 92, 041108 (2015)
[17] Surface effects on the Mott-Hubbard transition in archetypal V2O3; G. Lantz, M. , E. , V. L. R. Jacques, A. Mazzotti, M. Marsi, S. , M. , L. , L. , Z. Zhong, and K. Held; Phys. Rev. Lett. 115, 236802 (2015)
[16] Unified picture for the colossal compound thermopower FeSb2; M. Battiato, J. M. Tomczak, Z. Zhong, and K. Held; Phys. Rev. Lett. 114, 236603 (2015)
[15] First Principles Prediction of Topological Phases in Thin Films of Pyrochlore Iridates; X. Hu, Z. Zhong, and G. A. ; Scientific. Rep. 5, 11072 (2015)
[14] Giant Rashba effect in oxide heterostructures; Z. Zhong*, L. , Q. Zhang, W. Yin, S. , and K. Held; Adv. Mater. Interfaces 2, 1400445 (2015)
[13] Electronic reconstruction at the Isopolar LaTiO3/LaFeO3 interface: an X-Ray photoemission and density-functional theory study; J. E. , Z. Zhong, H. Nishikawa, A. Muller, F. Pfaff, D. H. A. Blank, M. , G. , K. Held, R. Claessen, and G. ; Phys. Rev. Lett. 113, 237402 (2014)
[12] Anisotropic two-dimensional electron gas at SrTiO3110) protected by its native; Z. Wang, Z. Zhong, X. , S. , B. , M. Schmid, J. Sanchez-Barriga, A. , C. Franchini, K. Held, and U. Diebold; Proc. Natl. Acad. Sci. U.S.A. 111, 3933 (2014)
[11] Structural, magnetic, and electrical properties of Li2Ir1-xRuxO3; H. Lei, W. Yin, Z. Zhong, and Hideo Hosono; Phys. Rev. B (R) 89, 020409 (2014)
[10] Native topological crystalline insulators; Y. Sun, Z. Zhong, T. Shirakawa, C. Franchini, D. Li, Y. Li, S. , and X. Chen; Phys. Rev. B 88, 235122 (2013)
[9] Quantum confinement in oxide Tight binding instead of a nearly free electron picture; Z. Zhong*, Q. Zhang, and K. Held; Phys. Rev. B 88, 125401 (2013)
[8] Theory of spin-orbit coupling at LaAlO3/SrTiO3 interfaces and SrTiO3 surfaces; Z. Zhong*, Anna Toth, and Karsten Held; Phys. Rev. B (R) 87, 161102 (2013)
[7] Hard x-ray photoemission and density functional theory study of the internal electric field in SrTiO3/LaAlO3 oxide heterostructures; E. , Z. Zhong, H. , P. , S. , F. Massee, E. Heumen, M. , S. , J. , M. , H. , A. Brinkman, M. , G. , D. Blank, G. , P. J. Kelly, and M. Golden; Phys. Rev. B 87, 085128 (2013)
[6] Microscopic understanding of the orbital splitting and its tuning at oxide interfaces; Z. Zhong*, P. , K. Held, and G. Sangiovanni; Euro. Phys. Lett. 99, 37011 (2012)
[5] Prediction of thickness limits of ideal polar films; Z. Zhong*, G. , and Paul J. Kelly; Phys. Rev. B (R) 85, 121411 (2012)
[4] Electrostatic Doping of Graphene through Hexagonal Boron Nitride Films; M. , P. A. , G. Brocks, Z. Zhong, and P. J. Kelly; Nano Lett. 11, 4631 (2011)
[3] Polarity-induced oxygen vacancies at LaAlO3/SrTiO3 interfaces; Z. Zhong*, P. X. Xu, and P. J. Kelly; Phys. Rev. B 82, 165127 (2010)
[2] Electronic-structure-induced reconstruction and magnetic ordering at the LaAlO3/SrTiO3 interface; Z. Zhong* and P. J. Kelly* Euro. Phys. Lett. 84, 27001 (2008)
[1] Enhancement of polarization in a spin-orbit coupling quantum wire with a constriction; J. Liu, Z. Zhong, L. Chen, D. Li, C. Zhang and Z. Ma; Phys. Rev. B 76, 195304 (2007)