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教师主页 团队成员 科研项目 研究领域 学术成果 教学 科研分享 新闻动态 疼痛医学中心 成果介绍 软件 毕业去向 加入我们 联系我们 Yuan-Zhu Zhang ResearcherID 副教授 化学系 张元竹博士，南方科技大学化学系长聘副教授，国家特聘专家（青年），深圳孔雀B类人才，南山区领航人才。2000年和2005年分获北京大学化学与分子工程学院学士、博士学位，导师高松院士。2007年获全国百篇优秀博士论文提名奖。2005年至2013年先后在日本九州大学先导物质化学研究所、美国肯塔基大学及密苏里州立大学圣路易斯分校从事博士后研究。2013-2015年美国德州农工大学化学系Dunbar教授组研究员。先后在CCS Chem., J. Am. Chem. Soc., Angew. Chem., Chem. Sci., 等发表论文七十余篇，引用次数3600+，H-index 27。课题组主要从事新型双稳态分子磁性材料、分子基光磁材料及多稳态复合功能材料的设计、开发。目前主持中组部特聘青年专家、国自然面上项目1项、深圳市科创委稳定支持计划面上项目1项等。 个人简介 个人简介 研究领域 1. 金属离子磁各向异性的优化及其定向组装 2. 单分子、单链磁体的设计、组装及优化 3. 分子基光磁及复合多功能材料 4. 电子转移、自旋翻转组合体系的开发研究 教学 （1）普通化学 （2）X-射线单晶结构解析 学术成果 查看更多 Y.-F. Deng, Y.-N. Wang, X.-H. Zhao, Y.-Z. Zhang,* “Synergetic Spin-Crossover and Structural Phase Transition in a Cobalt(II) Coordination Polymer Leading to a Dramatic 75 K Slide of Magnetic Bistability”, CCS Chem. accepted. Z.-L. Guo, M.-L. You, Y.-F. Deng, Z. Pikramenou,* and Y.-Z. Zhang,* “An azido-bridged [FeII4] molecule showing spin crossover behaviour”, Dalton Trans. 2021, 50, 14303-14308. L.-Y. Meng, Y.-F. Deng,* and Y.-Z. Zhang,* “Anion-dependent electron transfer in the cyanide-bridged [Fe2Co2] capsules”, Inorg. Chem. 2021, 60, 14330-14335. M.-L. You,# D.-X. Gan,# Y.-F. Deng,* D. Shao, Y.-S. Meng, X.-Y. Chang, and Y.-Z. Zhang,* “Realizing reversible metal-to-metal charge transfer rather than spin crossover in mixed-valence {FeIII4FeII4} cubes”, CCS Chem. 2021, 3, 2593-2600. L.-Y. Meng,# Y.-F. Deng,# S. Liu, Z.-P. Zheng, and Y.-Z. Zhang,* “A smart post-synthetic route towards [Fe2Co2] molecular capsules with electron transfer and bidirectional switching behaviors”, Sci. China Chem. 2021, 64,1340–1348, Featured on the Front Cover. Y.-H. Zhao, D. Shao, J.-T. Chen, M. Liu, T. Li, J. Yang, and Y.-Z. Zhang,* “Spin and Valence Isomerism in Cyanide-Bridged {FeIII2MII} (M = Fe, Co) Clusters”, Dalton Trans. 2021, 50, 9768-9774. X.-S. Yang, T. Liu, R. Li, X. Yang; L, Min, L. Fang, L. Zhang, K. Wang, A. Zhu, L. Zhang, C. Qiu, Y.-Z. Zhang, X. Wang,* L.-M. Peng, F. Yang,* Y. Li,* “Host-Guest Molecular Interaction Enabled Separation of Large-Diameter Semiconducting Single-Walled Carbon Nanotubes”, J. Am. Chem. Soc. 2021, 143, 10120-10130. S.-H. Liu, C. Li, B. Yao, Y. Cui, Y. Cheng, Y.-F. Deng, Z.-Y. Chen,* and Y.-Z. Zhang,* “Self-assembly of dodecanuclear [Ni12] wheel”, Eur. J. Inorg. Chem. 2021, 1305-1310. Z.-L. Guo, Y.-F. Deng,* Z. Pikramenou, K. R. Dunbar,* and Y.-Z. Zhang,* “Strong coupling and slow relaxation of the magnetization for an air-stable [Co4] square with both tetrazine radicals and azido bridges”, Inorg. Chem. 2021, 60, 3651–3656; Highlighted in http://www.molmag.de/ R.-R. Wang, B. Yao, F. Bai, W. Wang, L.-C. Li, Y. Ma,* Q. Wang, B. Zhao, and Y.-Z. Zhang,* “A seven-coordinated DyIII single ion magnet with C2v symmetry constructed by multidentate Schiff-base ligand”, CrystEngComm. 2021, 23, 1718-1722. H. Chen,# H. Lai,# Z.-Y. Chen,# Y.-l. Zhu, H. Wang, L. Han, Y.-Z. Zhang, and F. He,* “17.1%-efficient eco-compatible organic solar cells from a dissymmetric 3D network acceptor”, Angew. Chem. Ed. Int. 2020, 50, 3238-3246. S.-H. Liu,# Y.-F. Deng,# Z.-Y. Chen, L. Meng, X.-Y. Chang, Z.-P. Zheng, and Y.-Z. Zhang,* “Secondary metal coordination using a tetranuclear complex as ligand leading to hexanuclear complexes with enhanced thermal barriers for electron transfer”, CCS Chem. 2020, 2, 2530–2538. Highlighted in http://www.molmag.de/ J. Yang,# X.-H. Zhao,# Y.-F. Deng,* X.-Y. Zhang, X.-Y. Chang, Z.-P. Zheng, Y.-Z. Zhang,* “Azido-cyanide mixed-bridged FeIII-NiII complexes”, Inorg. Chem. 2020, 59, 16215-16224. Z.-L. Guo, Y.-F. Deng,* Y.-P. Zhang, Z. Pikramenou, and Y.-Z. Zhang,* “Two azido-bridged [2 × 2] cobalt(II) grids featuring single-molecule magnet behavior”, Dalton Trans. 2020, 49, 9218-9222. B.-L. Yao, F. Lu, D.-X. Gan, S. Liu, Y.-Q. Zhang, Y.-F. Deng,* and Y.-Z. Zhang,* “Incorporating the trigonal prismatic cobalt(II) blocks into an exchange-coupled [Co2Cu] system”, Inorg. Chem. 2020, 59, 10389−10394. Y. Cheng,# Z.-Y. Chen,# K.-P. Xie, Y.-F. Deng, Y.-X. Jiang, Q. Liu, and Y.-Z. Zhang,* “Cyanide-bridged Fe-Co polynuclear clusters based on 4-coordinate cobalt(II)”, Inorg. Chem. 2020, 59, 8025−8033. B.-L. Yao, M. K. Singh, Y.-F. Deng,* Y.-N. Wang, K. R. Dunbar, and Y.-Z. Zhang,* “Trigonal prismatic Co(II) single-ion magnets: manipulating magnetic relaxation through symmetry control”, Inorg. Chem. 2020, 59, 8505−8513. Y.-F. Deng, M. K. Singh, D.-X. Gan, T. Xiao, Y.-N. Wang, S. Liu, Z. Wang, Z. Ouyang, Y.-Z. Zhang,* and K. R. Dunbar,* “Probing the axial distortion effect on the magnetic anisotropy of octahedral Co(II) complexes”, Inorg. Chem. 2020, 59, 7622−7630. J.-T. Chen,# X.-H. Zhao,# and Y.-Z. Zhang,* “Manipulating the spin crossover behavior in a series of {FeIII2FeII} complexes”, Dalton Trans. 2020, 49, 5949-5956. J. Yang, Y.-F. Deng,* and Y.-Z. Zhang,* “Two azido-bridged homospin Fe(II)/Co(II) coordination polymers featuring single-chain magnet behavior”, Dalton Trans. 2020, 49, 4805-4810. H. Lai,# Q. Zhao,# Z.-Y. Chen,# H. Chen, P. Chao, Y. Zhu, Y. Lang, N. Zhen, D. Mo, Y.-Z. Zhang, and F. He,* “Trifluoromethylation enables a 3D interpenetrated low-band-gap acceptor for efficient organic solar cells”, Joule 2020, 4, 688-700. Y.-Z. Zhang, N. P. Rath, J. M. Cain, M. W. Meisel, and S. M. Holmes,* “Structure-property studies of a new one-dimensional Fe(III)/Mn(II) chain”, Polyhedron 2020, 179, 114376-114380. D. Davis, A. J. Carrod, Z. Guo, B. M. Kariuki, Y.-Z. Zhang, and Z. Pikramenou,* “Imidodiphosphonate ligands for enhanced sensitization and shielding of visible and near-infrared lanthanides”, Inorg. Chem. 2019, 58, 13268-13275. J. Yang,# Y.-F. Deng,# X.-Y. Zhang, X.-Y. Chang, Z.-P. Zheng, and Y.-Z. Zhang,* “An azido-cyanide mixed-bridged [Fe4Ni4] single-molecule magnet”, Inorg. Chem. 2019, 58, 7127-7130. Y.-F. Deng, B. Yao, P.-Z. Zhan, D.-X. Gan, Y.-Z. Zhang,* and K. R. Dunbar,* “Synthesis and magnetic studies of pentagonal bipyramidal metal complexes of Fe, Co and Ni”, Dalton Trans. 2019, 48, 3243 B.-L. Yao,# Y.-F. Deng,# T. Li, J. Xiong, B.-W. Wang, Z.-P. Zheng, and Y.-Z. Zhang,* “Construction and magnetic study of a trigonal prismatic Co(II) single-molecule magnet”, Inorg. Chem. 2018, 57, 14047. S.-H. Liu,# Y.-F. Deng,# C. Li, X. Chang, and Y.-Z. Zhang,* “A linear trinuclear ferrous single molecule magnet”, Dalton Trans. 2018, 47, 16704-16708. Y-Z. Zhang, B. S. Dolinar, S. Liu, A. J. Brown, X. Zhang, Z.-X. Wang, and K. R. Dunbar,* “Enforcing ising-like magnetic anisotropy via trigonal distortion in the design of a W(V)–Co(II) cyanide single-chain magnet”, Chem. Sci. 2018, 9, 119-124. M. S. Pellizzeri, Y.-Z. Zhang, J. Gooch, A. Lau, S. McLeish, K. R. Dunbar,* and J. Zubieta,* “Hydrothermal syntheses and structures of cobalt(II) and copper(II) coordination polymers with 1-tetrazole-phenyl-4-methylphosphonate ligands”, Inorg. Chem. Acta. 2017, 458, 109–115. D.-Q. Wu, D. Shao, X.-Q. Wei, F.-X. Shen, L. Shi, D. Kempe, Y.-Z. Zhang,* K. R. Dunbar,* and X.-Y. Wang,* “Reversible on−off switching of a single-molecule magnet via a crystal-to-crystal chemical transformation”, J. Am. Chem. Soc. 2017, 139, 11714−11717. N. A. G. Bandeira,* O. Sadeghi, T. J. Woods, Y.-Z. Zhang, J. Schnack,* K. R. Dunbar, M. Nyman, and C. Bo, “Magneto-structural analysis of Fe(III) Keggin polyoxometalates”, J. Phys. Chem. A 2017, 121, 1310−1318. F. J. Ferkoa, J. R. Withers, H. Nguyen, C. Allison, J. Ema, T. Ema, N. P. Rath, Y.-Z. Zhang, and S. M. Holmes,* “Synthesis and characterization of first row transition metal p-toluenesulfonate complexes and chains”, Polyhedron 2017, 123, 344-352. Y.-Z. Zhang,# S. Gómez-Coca,# A. J. Brown, M. R. Saber, and K. R. Dunbar,* “Trigonal antiprismatic Co(II) single molecule magnets with large uniaxial anisotropies: importance of Raman and tunneling mechanisms”, Chem. Sci. 2016, 7, 6519-6527. Y.-Z. Zhang, U. P. Malik, B. Quiggins, H. Nguyen, C. C. Beedle, A. E. Kovalev, R. Clérac, S. Hill, B. J. Bythell, and S. M. Holmes,* “Structure-property relationships in tricyanoferrate(III) building blocks and trinuclear cyanide-bridged complexes”, Eur. J. Inorg. Chem. 2016, 15, 2432-2442. Prior to faculty appointment at SUSTech: Y.-Z. Zhang, E. Funck, H.-H. Zhao,* and K. R. Dunbar,* “A single chain magnet tape based on hexacyanomanganate(III)”, Angew. Chem. Ed. Int. 2015, 54, 5583-5587, High-lighted in Wiley-VCH Hot Topics. Y.-Z. Zhang,* A. J. Brown, Y.-S. Meng, H.-L. Sun, and S. Gao,* “Linear trinuclear cobalt(II) single-molecule magnets”, Dalton Trans. 2015, 44, 2865-2870. Y.-Z. Zhang,* S. Gao, and O. Sato,* “In situ tetrazole templated chair-like decanuclear azido-cobalt(II) SMM containing both tetra- and octahedral Co(II) ions”, Dalton Trans. 2015, 44, 480-483. Y.-Z. Zhang, P. Ferko, D. Siretanu, R. Ababei, N. Rath, M. Shaw, R. Clérac,* C. Mathoniere,* and S. M. Holmes,* “Thermochromic and photoresponsive cyanometalate Fe/Co squares: towards control of the electron transfer temperature”, J. Am. Chem. Soc. 2014, 136, 16854-16864, Highlighted in CNRS News. Z.-X. Wang,# X. Zhang,# Y.-Z. Zhang, H.-H. Zhao, and K. R. Dunbar,* “Inducing single-chain magnet behavior in a hetero-tri-spin complex through supramolecular interactions of TCNQF radicals”, Angew. Chem. Int. Ed. 2014, 53, 11567-11570. T. M. Smith, M. Tichenor, Y.-Z. Zhang, K. R. Dunbar,* and J. Zubieta,* “Hydrothermal synthesis, structure and magnetic properties of a three-dimensional cobalt(II)–aminophenyltetrazolate coordination polymer”, Dalton Trans. 2014, 43, 7263-7268. -L. Wang,* Y.-Z. Zhang, H. Southerland, A. V. Prosvirin, H. Zhao, and K. R. Dunbar,* “Variations in topology and magnetic properties of hepta- and in-situ octacyanometallates of molybdenum”, Dalton Trans. 2014, 43, 6802-6810. C. C. Beedle, Y.-Z. Zhang, S. M. Holmes, and S. Hills,* “EPR studies of a cyano-bridged Fe2IIINiII coordination complex and its corresponding FeIII Mononuclear Building-Block”, Polyhedron 2013, 59, 279. Y.-Z. Zhang, D.-F. Li, R. Clérac,* and S. M. Holmes,* “A cyano-bridged trinuclear {FeIII2NiII} complex decorated with organic radicals”, Polyhedron 2013, 59, 393-398. Y.-Z. Zhang, U. P. Mallik, R. Clérac,* N. P. Rath, and S. M. Holmes,* “Structure-property trends in cyano-bridged tetranuclear FeIII/NiII single molecule magnets”, Polyhedron 2013, 59, 115-120. M. Tang, D.-F. Li, U. P. Mallik, Y.-Z. Zhang, R. Clérac,* G. T. Yee, M.-H. Whangbo, A. Mungalimane, and S. M. Holmes,* “Synthesis and characterization of di- and trivalent pyrazolylborate b-diketoneates and cyanometalates”, Inorg. Chem. 2011, 50, 5153-5164. Y.-Z. Zhang, U. P. Mallik, N. Rath, R. Clérac,* and S. M. Holmes,* “Pyrazolylborates and their importance in tuning single-molecule magnet properties of {FeIII2NiII} complexes”, Inorg. Chem. 2011, 50, 10537-10539, Highlighted in an Editorial’s Choice. Y.-Z. Zhang, U. P. Mallik, R. Clérac,* N. Rath, and S. M. Holmes,* “Irreversible solvent-driven conversion in cyanometalate {Fe2Ni}n (n = 2, 3) single-molecule magnets”, Chem. Commun. 2011, 47, 7194-7200. Y.-Z. Zhang, B.-W. Wang, O. Sato,* and S. Gao,* “First Fe(II)-based cyano-bridged single molecule magnet [CrIIIFeII2] with a large anisotropy”, Chem. Commun. 2010, 46, 6959-6961, Highlighted in CrystEngSelects, 2010 Sep Y.-Z. Zhang, U. P. Mallik, N. Rath, G. T. Yee, R. Clérac,* and S. M. Holmes,* “A cyano-based octanuclear {FeIII4NiII4} single-molecule magnet”, Chem. Commun. 2010, 46, 4953-4960. Y.-Z. Zhang, D.-F. Li, R. Clérac,* M. Kalisz, C. Mathonière,* and S. M. Holmes,* “Reversible thermally and photoinduced electron transfer in a cyano-bridged {Fe2Co2} square complex”, Angew. Chem. Int. Ed. 2010, 49, 3752-3756, Highlighted in CNRS News. Y.-Z. Zhang, and O. Sato,* “A cyano-bridged CrIIICoII ferromagnet with a chiral nanotubular structure constituted of interlocked single and double helices”, Inorg. Chem. 2010, 49, 1271-1280, Featured on the Front Cover. F. Wang, F. Zhao, B.-W. Wang, M.-W. Wang, Y.-Z. Zhang, W. Wang, S. Gao,* and Z.-D. Chen,* “Orbital-dependent magnetic properties of molecular cluster containing high-spin Co(II) ions”, Int. J. Quantum Chem. 2009, 109(14), 3368-3372. O. Sato,* J. Tao, and Y.-Z. Zhang, “Control of magnetic properties through external stimuli”, Angew. Chem. Int. Ed. 2007, 46, 2152-2160. (Review) J. Tao, Y.-Z. Zhang, Y.-L. Bai, and O. Sato,* “One dimensional ferromagnetic complexes built with MnIII3O units”, Inorg. Chem. 2006, 45, 4877-4882. Y.-Z. Zhang, Z.-M. Wang, and S. Gao,* “Three-dimensional heterometallic Cr−Mn compound constructed by cyanide and dicyanamide bridges”, Inorg. Chem. 2006, 45, 10404-10406. Y.-Z. Zhang, Z.-M. Wang, and S. Gao,* “Heterometallic Cr−Mn complexes containing cyanide and oxalate”, Inorg. Chem. 2006, 45, 5447-5454. Y.-Z. Zhang, S. Gao,* Z.-M. Wang, and F. Pan, “An azido-bridged disk-like hepta-nuclear cobalt(II) complex towards single-molecule magnet”, Chem. Commun. 2006, 3302-3304. Y.-Z. Zhang, G.-P. Duan, O. Sato, and S. Gao,* “Structures and magnetism of cyano-bridged grid-like two-dimensional 4f-3d arrays”, J. Mater. Chem. 2006, 16, 2625-2634, Featured on the Back Cover. Y.-Z. Zhang, H.-Y. Wei, F. Pan, Z.-M. Wang, Z.-D. Chen, and S. Gao,* “Two molecular tapes consisting of serial or parallel cyclic azido-bridged octanuclear copper rings”, Angew. Chem. Int. Ed. 2005, 44, 5841. Y.-Z. Zhang, S. Gao,* Z.-M. Wang, G. Su, H.-L. Sun, and F. Pan, “Rational synthesis and magnetic properties of a family of low-dimensional heterometallic Cr−Mn complexes based on versatile building block [Cr(2,2¢-bpy)(CN)4]–”, Inorg. Chem. 2005, 44, 4534-4545. Y.-Z. Zhang, S. Gao,* H.-L. Sun, G. Su, Z.-M. Wang, and S.-W. Zhang, “Linking cyano-bridged ladders by azide to form a layered metamagnet”, Chem. Commun. 2004, 1906-1907. S. Wang, J.-L. Zuo,* S. Gao,* Y. Song, H.-C. Zhou, Y.-Z. Zhang, and X.-Z. You, “The observation of superparamagnetic behavior in molecular nanowires”, J. Am. Chem. Soc. 2004, 126, 8900-8901. N. Shaikh, A. Panja, S. Goswami, P. Banerjee, P. Vojtíšek, Y.-Z. Zhang, G. Su, and S. Gao,* “Slow magnetic relaxation in a mixed-valence Mn(II/III) complex: [MnII2(bispicen)2(m3-Cl)2MnIII(Cl4Cat)2- MnIII(Cl4Cat)2(H2O)2]∞”, Inorg. Chem. 2004, 43, 849-851. D. Li, L.-M. Zheng, Y.-Z. Zhang, J. Huang, S. Gao,* and W. Tang,* “Coexistence of long-range ferromagnetic ordering and glassy behavior in one-dimensional bimetallic cyano-bridged polymers”, Inorg. Chem. 2003, 42, 6123-6129. T.-F. Liu, D. Fu, S. Gao,* Y.-Z. Zhang, H.-L. Sun, G. Su, and Y.-J. Liu, “An azide-bridged homo-spin single-Chain magnet: [Co(2,2¢-bithiazoline)(N3)2]n”, J. Am. Chem. Soc. 2003, 125, 13976-13977. Y.-Z. Zhang, J.-R. Li,* S. Gao,* H.-Z. Kou, H.-L. Sun, and Z.-M. Wang, “Two-dimensional rare earth coordination polymers involving different coordination modes of thiodiglycolic acid”, Inorg. Chem. Commun. 2002, 5, 28-31. 新闻动态 更多新闻 关于“2019分子磁性前沿研讨会”（2019年12月13-15日）第一轮通知 2019-11-05 团队成员 查看更多 PrevNext UpDown 加入团队 CFM3 Group招聘领域及要求1、具有良好的实验室安全习惯；2、已获得或即将获得无机化学、材料化学等相关专业的博士学位；3、具备较强的有机合成功底；4、已在相关研究领域取得较好科研成果，有高质量的英文论文发表或被正式接收；5、口头和书面表达能力强，善于沟通，有出色团队合作精神。 薪酬待遇及聘期：博士后聘期两年。博士后年薪33.5万元，含广东省补助15万元（税前）及深圳市生活补助6万元（税后），并按深圳市有关规定参加社会保险及住房公积金。博士后福利费参照学校员额内教职工标准发放。其他待遇政策：1、特别优秀者可以申请校长卓越博士后，年薪可达41.5万元。（含广东省及深圳市补助）。2、课题组提供优良的工作环境和境内外合作交流机会，博士后在站期间享受两年共计2.5万学术交流经费资助。3、根据博士后具体科研工作业绩情况，可享受院系、课题组相应的科研绩效奖励。4、课题组提供充足的科研支持，并协助博士后本人作为负责人申请中国博士后科学基金、国家自然科学基金及广东省、深圳市各级科研项目。5、课题组可协助符合条件的博士后申请“广东省海外青年博士后引进项目”。即在世界排名前200名的高校（不含境内，排名以上一年度泰晤士、USNEWS、QS和上海交通大学的世界大学排行榜为准）获得博士学位，在广东省博士后设站单位从事博士后研究，并承诺在站2年以上的博士后，申请成功后省财政给予每名进站博士后资助60万元生活补贴；对获得本项目资助，出站后与广东省用人单位签订工作协议或劳动合同，并承诺连续在粤工作3年以上的博士后，省财政给予每人40万元住房补贴。6、博士后出站选择留深从事科研工作，且与本市企事业单位签订3年以上劳动（聘用）合同的，可以申请深圳市博士后留深来深科研资助。深圳市政府给予每人30万元的科研启动经费资助。7、对于落户深圳的博士后，可以按博士落户的身份向深圳市申请一次性租房和生活补贴3万元（免税，自主网上申请）。8、依据自身符合的条件情况，在站或出站留深博士后可申请 "深圳市孔雀计划C类人才"或者"深圳市后备级人才"，享受5年160万的奖励津贴（免税）。9、对于优秀的出站博士后将积极推荐协助其申请南方科技大学研究助理教授岗位。 查看更多 联系我们 联系地址 广东省深圳市南山区学苑大道1088号慧园6栋205室 办公电话 0755-88018305 电子邮箱 zhangyz@sustech.edu.cn