姓名:郭海中 教授,博士生导师
电子邮箱:hguo@zzu.edu.cn
课题组主页:http://www7.zzu.edu.cn/nanolab/
教育背景:
2000.9-2005.7,中国科学院物理研究所,直博研究生
1996.9-2000.7,中国科学技术大学物理系,本科
工作履历:
2017.4-至今,郑州大学物理学院,教授,省特聘教授,院长助理
2019.2-2021.2,国家自然科学基金委数理学部,物理一处流动项目主任
2009.4-2017.3,中国科学院物理研究所,副研究员,博士生导师
2009.1-2009.4,美国路易斯安娜州立大学物理与天文系,研究助理
2007.5-2008.12,美国佛罗里达国际大学物理系,研究助理
2007.1-2007.4,美国加州大学戴维斯分校化工与材料系,博士后
2005.7-2006.12,美国阿拉巴马大学信息材料研究中心,博士后
研究领域:
(1)氧化物薄膜量子材料的制备、表征及物性调控。
(2)光与量子材料低维结构相互作用及超快研究。
(3)低维纳米结构的构筑、性能及催化研究。
科研项目:
1.国家重点研发计划-物态调控重点专项课题-复杂体系的激发态物性及应用,课题编号:2021YFA1400204;资助金额:506万;2021年12月-2026年11月,课题负责人。
2.国家重点研发计划重点专项课题:铁电薄膜外延生长及跨尺度物性研究,2021YFA0718701.资助金额:176万元。2021年12月-2026年11月;子课题负责人。
3.国家自然科学基金面上项目:应力对过渡金属钴氧化物薄膜拓扑结构和物性的调控;项目编号:12174347;资助金额:61万;时间:2022.1-2025.12;项目主持。
4.河南省杰出青年基金:钙钛矿低维结构的物性调控;资助金额:50万;时间2021.1-2023.12.
5.河南省教育厅高校创新团队:外场对钙钛矿材料的功能调控;时间:2020.1-2022.12;资助金额:60万;团队带头人。
6.中央军事委员会科学技术委员会“原子制造”课题:原子级精控的氧化物制备与光学性质,资助金额:65万;2019.11-2021.10,项目主持。
7.国家自然科学基金面上项目:氧空位及氧空位长程有序对过渡金属氧化物异质结构新奇物性的调控;11574365;73万;2016.1-2019.12;项目主持。
奖励荣誉:
河南省特聘教授,2022。
河南省杰青,2020年。
河南省自然科学二等奖,2020年。
河南省教育厅高校创新团队带头人,2019年。
《饶毓泰基础光学奖》优秀奖,2010年。
学术兼职:
中国光学学会理事会理事
河南省光学学会副理事长
中国材料研究学会纳米材料与器件分会理事
物理学会四个期刊(Chinese Physics Letters、Chinese Physics B、物理学报、物理)的青年编委
《物理通报》第十届编辑委员会(2017~2026)编委
中国能源学会专家委员会新能源专家组委员(2021-2025)
学术成果:
共发表SCI收录论文200多篇,其中包括Adv. Mater.、Adv. Sci.、Phys. Rev. Lett.、Phys. Rev. B、APL等。SCI论文被引用5200多次,H因子37。获授权专利9项、申请专利10余项。在国际国内会议上做邀请报告30余次。
出版著作:
1.《无机固体光谱学导论》,郭海、郭海中、林机译;中国科学技术大学出版社出版(2022)。
代表性论文:
1.Xingzhong Zhang, Yue Hou, Yang Yang, Ziyu Wang*, Xiaosa Liang, Qingqing He, Yufeng Xu, Xiaolong Sun, Hongyu Ma, Jing Liang, Yong Liu, Wei Wu, Hongyu Yu*,Haizhong Guo*, Rui Xiong*, Stamp-like energy harvester and programmable information encrypted display based on fully printable thermoelectric devices.Advanced Materials 35, 2207723 (2023).
2.Tianyu Xia, Kai Zhao, Youqi Zhu, Xiaoyan Bai, Han Gao, Ziyu Wang,* Yue Gong, Menglin Feng, Shunfang Li, Qiang Zheng, Shouguo Wang, Rongming Wang, and Haizhong Guo*, Mixed-dimensional Pt-Ni alloy polyhedral nanochain as bifunctional electrocatalysts for direct methanol fuel cell,Advanced Materials 35,2206508 (2023).
3.Shiyu Zhu, Yun Liu, Yue Gong, Yuting Sun, Kang Chen, Yuan Liu, Weidi Liu, Tianyu Xia*,Qiang Zheng, Han Gao*,Haizhong Guo*, and Rongming Wang, Boosting Bifunctional Catalysis by Integrating Active Faceted Intermetallic Nanocrystals and Strained Pt–Ir Functional Shells.Small 20(6), 2305062 (2024). (Inside Front Cover)
4.Jiaxiang Wang, Yifang Yuan, Cailong Liu, Ruijing Fu, Lingrui Wang*, Fei Zhang, Liang Ma, Sheng Jiang, Zhifeng Shi*, and Haizhong Guo*, Pressure-induced emission enhancement with an abnormal blue shift of the Sb3+-doped zero-dimensional lead-free halide perovskite Cs2InBr5H2O.Physical Review B 107, 214111 (2023).
5.Duanhua Chang, Yaping Chen, Lingrui Wang*, Jiaxiang Wang, Youjia Feng, Yifang Yuan, Han Gao, Min Wu, Ruijing Fu, Gang Yang*, Kai Wang, and Haizhong Guo*, Pressure-Induced Dual-Emission of Mn-Based Metal Halides (C5H6N)2MnBr4. Advanced Optical Materials, 2302829 (2023)
6.Jiaxiang Wang, Lingrui Wang, Yuqiang Li, Ruijing Fu, Youjia Feng, Duanhua Chang, Yifang Yuan, Han Gao, Sheng Jiang, Fei Wang,* Er-jia Guo, Jinguang Cheng, Kai Wang,*Haizhong Guo,*and Bo Zou, Pressure-Induced Metallization of Lead-Free Halide Double Perovskite (NH4)2PtI6,Advanced Science 9, 2203442 (2022).
7.Mei Yang, Yongfa Cheng, Yang Yue, Yu Chen, Han Gao, Lei Li, Bin Cai, Weijie Liu*, Ziyu Wang,* Haizhong Guo,* Nishuang Liu, and Yihua Gao, High-Performance Flexible Pressure Sensor with a Self-Healing Function for Tactile Feedback,Advanced Science 9, 2200507 (2022).
8.Qiao Jin,et al., Room-Temperature Ferromagnetism at an Oxide-Nitride Interface,Phys. Rev. Lett.128, 017202 (2022).
9.Yue Hou, Yang Yang, Ziyu Wang*, Zhaoyu Li, Xingzhong Zhang, Brandon Bethers, Rui Xiong,Haizhong Guo*, Hongyu Yu*, Whole Fabric-assisted Thermoelectric Devices for Wearable Electronics,Advanced Science 9, 2103574 (2022).
10.Yimin Zhang, Lei Yan, Mengxue Guan, Daqiang Chen, Zhe Xu,Haizhong Guo,* Shiqi Hu, Shengjie Zhang, Xinbao Liu, Zhengxiao Guo,* Shunfang Li,* and Sheng Meng*, Indirect to Direct Charge Transfer Transition in Plasmon-Enabled CO2Photoreduction,Advanced Science 9, 2102978 (2022).
11.Mengchao Liang,et al., Modulating reaction pathways of formic acid oxidation for optimized electrocatalytic performance of PtAu/CoNC,Nano Research 15, 1221 (2022).
12.Sisi Li,et al., Strong Ferromagnetism Achieved via Breathing Lattices in Atomically Thin Cobaltites,Advanced Materials 33, 2001324 (2021).
13.Qiao Jin,et al., Strain-Mediated High Conductivity in Ultrathin Antiferromagnetic Metallic Nitrides,Advanced Materials 33, 2005920 (2021).
14.Lingrui Wang, Panpan Yao, Fei Wang*, Shunfang Li, Yaping Chen, Tianyu Xia, Erjia Guo, Kai Wang*, Bo Zou, and Haizhong Guo*,Bandgap Optimizing of Lead-Free Halide Double Perovskite (NH4)2SeBr6by Pressure-Induced Br-Br Bonds Re-organization,Advanced Science 7, 1902900 (2020).
15.J. Tian,et al., Nanoscale Topotactic Phase Transformation in SrFeOxEpitaxial Thin Films for High‐Density Resistive Switching Memory.Advanced Materials 31, 1903679 (2019).
16.Bingbing Zhang*, Xu He, Jiali Zhao, Can Yu, Haidan Wen, Sheng Meng, Eric Bousquet, Yuelin Li, Chen Ge, Kuijuan Jin, Ye Tao*, and Haizhong Guo*, Giant photoinduced lattice distortion in oxygen vacancy ordered SrCoO2.5thin films,Phys. Rev. B 100, 144201 (2019).
17.F. Zhang, W. Ma,H. Z. Guo*,et al., Interfacial oxygen vacancies as a potential cause of hysteresis in perovskite solar cells,Chem. Mater., 28, 802−812 (2016).
18.Haizhong Guo,Yi Li, Darwin Urbina, Biao Hu, Rongying Jin, Tiyiang Liu, David Fobes, Zhiqiang Mao, E. W. Plummer, and Jiandi Zhang*,Dimensionality and doping effects on the core-level spectra of layered ruthenates.Phys. Rev. B 81, 155121 (2010).
19.H. Z. Guo,A. Gupta, M. Varela, S. J. Pennycook, and J. Zhang,Local electronic and magnetic characteristics of La2NiMnO6.Phys. Rev. B 79, 172402 (2009).
20.H. Z. Guo,J. Burgess, E. Ada, S. Street, A. Gupta, M. N. Iliev, T. G. Calvarese and M. A. Subramanian, Influence of oxygen deficiency on the structural and magnetic properties of multiferroic La2NiMnO6thin films.Phys. Rev. B 77, 174423 (2008).