张鹏，理学博士，教授，凝聚态物理专业。社会兼职有山东物理学会理事，山东省科技场馆协会常务理事，威海市青年创业导师，期刊Crystals客座编辑等。工作邮箱：zhangpeng@sdu.edu.cn，ORCID：https://orcid.org/0000-0002-1099-6310

学历背景：

1989-1993山东大学物理系，本科

2001-2006山东大学物理与微电子学院，硕博连读

2006-2007美国圣路易斯华盛顿大学地球与行星科学系，访问学者

2009-2010英国曼彻斯特大学物理与天文学院，博士后

主讲课程：“材料模拟与计算”，“群论基础”，“固体物理”等

出版专著：《材料模拟与计算》，山东大学出版社，2021年5月

研究兴趣：

1.利用强太赫兹激光进行物质相变、材料改性的光热效应研究

2.物质的光子-声子共振吸收效率研究

3.水冰与可燃冰等水合物的结构与性质

利用强光辐射进行光-声共振吸收的光热效应研究是一个全新的领域。这一新兴领域在物质相变、材料改性、快速融冰、可燃冰开采等领域有重要的应用前景。

科研项目：

1.“利用强太赫兹激光进行快速融冰的理论和实验研究”，山东省自然科学基金面上项目，2023-2025，主持

2.“月球大型撞击事件的构造响应”，国家重点研发计划子课题，科技部，2022-2027，位次3/6

3.“海洋生物的速冻技术研究”，横向课题，2021-2024，主持

4.“材料除冰的新技术研究”，横向课题，2021-2022，主持

5.“多元透明导电氧化物的能带调控与电子输运特性研究”，国家自然科学基金青年项目，2016-2018，位次2/5

6.“光学天文观测及应用”，山东省科协，2012-2014，主持

7.“水与氨基酸相互作用的中子散射与拉曼散射研究”，国家自然科学基金面上项目，2011-2013，主持

8.“基于嫦娥一号干涉成像光谱仪数据的月表TiO₂反演”，山东省自然科学基金，2011-2014，位次2/6

9.“一米望远镜的终端探测器系统的研制与集成”，国家自然科学天文联合基金重点项目，2008-2011，位次3/12

10.“有机半导体的自旋注入效率研究”，国家自然科学基金，2007-2009，位次4/8

11.“量子限制杂质原子作为单电子量子点对Teraherz远红外发光器的应用”，山东省自然科学基金，2007-2009，位次2/5

教研课题：

1.“科教融合下的创新人才培养模式研究”，校级教研重点项目，2022-2024，主持

2.“物理专业大学生围绕专业课进行科研训练模式创新研究”，山东省本科教研重点项目，2018-2021，主持

3.“以科研引领教学培养创新型人才”，校级教研项目，2017-2018，主持

4.“公众天文科普教育”，威海市，2010-2011，主持

5.“探索开放型教学管理体系”，校级教研项目，2003-2005，主持

期刊论文：

1.A Theoretical Analysis of the Differential Chemical Reaction Results Caused by Chirality Induction. Feng-Yu Zhang, Sicheng Liu, Anwei Huang, Yi-Ning Li, Xiao-Yan Liu, andPeng Zhang*, Molecules,28, 6286 (2023)

2.Theoretical prediction of the anti-icing activity of two-dimensional ice I. Sicheng Liu, Xiaoyan Liu, Yining Li, Qing Guo, Yi Yin, Haoze Jing, andPeng Zhang*, Molecules,28, 6145 (2023)

3.A theoretical analysis of the vibrational modes of ammonium metavanadate. Qing Guo, Xiao-Yan Liu, Si-Cheng Liu, Yi-Ning Li, Yi Yin,Peng Zhang*, RSC Adv.,13, 15975-15980 (2023)

4.Computational analysis of vibrational spectra of hydrogen bonds in sII and sH gas hydrates. Qing Guo, Hao-Cheng Wang, Xiao-Yan Liu, Xiao-Qing Yuan, Xiao-Tong Dong, Yi-Ning Li, Yi Yin,Peng Zhang*, ACS Omega,8, 11634-11639 (2023)

5.Ternary Exciplexes for Enhanced Two-Photon Excited Fluorescence by the Synergy Effect of Dual Reverse Intersystem Crossing Channels. Huitian Du, Yuan Yu, Qian Zhou, Chenghao Liu, Jing Li, Junfeng Ren,Peng Zhang, Jihui Fan*, Zhiyong Pang*, J. Phys. Chem. C,127, 350-357 (2023)

6.Computational Analysis of Hydrogen Bond Vibrations of Ice III in the Far-Infrared Band. Si-Yuan Ning, Jing-Wen Cao, Xiao-Yan Liu, Hao-Jian Wu, Xiao-Qing Yuan, Xiao-Tong Dong, Yi-Ning Li, Yan Jiang,Peng Zhang*, Crystals,12, 910 (2022)

7.Utilizing the transverse thermoelectric effect of thin films for pulse laser detection. Yanju Sun, Haorong Wu, Lan Yu, Hui Sun,Peng Zhang, Xiaowei Zhang, Bo Dai, Yong Wang*, Sensors,22, 4867 (2022)

8.Computer simulation of hypothetical hydrogen ordered structure of ice XIX. Xiao-Tong Dong, Xiao-Ling Qin, Xue-Chun Wang, Jing-Wen Cao, Xiao-Yan Liu, Xu-Hao Yu, Xiao-Qing Yuan, Qing Guo, Yi Sun,Peng Zhang*, Phys. Chem. Chem. Phys.,24, 11023-11029 (2022)

9.课程思政视域下理工科专业创新创业教育改革分析.孙珲，王婉霞，张鹏，宋淑梅，《大学教育》，03，37-39（2022）

10.Theoretical prediction of rhenium separation from ammonium perrhenate by phonon–photon resonance absorption. Miao-Miao Li, Jing-Wen Cao, Xiao-Ling Qin, Xiao-Yan Liu, Xiao-Qing Yuan, Xiao-Tong Dong, Qing Guo, Yi Sun,Peng Zhang*, ACS Omega,7, 5437-5441 (2022)

11.Comparative analysis of the hydrogen bond vibrations of ice XII. Xiao-Qing Yuan, Xu-Hao Yu, Xu-Liang Zhu, Xiao-Yan Liu, Xiao-Ling Qin, Jing-Wen Cao,Peng Zhang*, ACS Omega,7, 2970-2974 (2022)

12.First-principles DFT investigations of the vibrational spectra of chloro-quine and hydroxychloroquine. Xiao-Yan Liu, Ya-Ning Xu, Hao-Cheng Wang, Jing-Wen Cao, Xiao-Ling Qin,Peng Zhang*, J. Phys. Commun.5, 105009 (2021)

13.Investigations of modulation effect of co-metal ions on the optoelectronic properties of the hybrid double perovskites (MA)₂AgBi1-xSbxBr₆. Wei-Yan Cong, Cheng-Bo Guan, Ying-Bo Lu,Peng Zhang, Shao-Ming Xue, Qiao-Qian Wu, J. Phys. -Conden. Matter.,33, 495501 (2021)

14.四阶精度差分法解定态薛定谔方程.刘展源，关成波，吕英波，张鹏，丛伟艳，大学物理，40(9)，58-62 (2021).

15.综述：冰的氢键振动研究(Investigation of hydrogen bond vibrations of ice).秦晓玲,朱栩量,曹靖雯,王浩诚,张鹏*,物理学报, 70(14), 146301 (2021)

16.“材料模拟与计算”教学模式改革实践.张鹏*，大学物理，40(6)，62-65 (2021)

17.Tuning the electrical properties of NiO thin films by stoichiometry and microstructure. Yu-He Liu, Xiao-Yan Liu, Hui Sun, Bo Dai,Peng Zhang, Yong Wang*, Coatings, 11, 697 (2021)

18.Studies of hydrogen bond vibrations of hydrogen-disordered ice Ic. Xu-Hao Yu, Xiao-Ling Qin, Xiao-Tong Dong, Jing-Wen Cao, Xu-Liang Zhu, Hao-Cheng Wang, Yan-Ju Sun, Zi-Xun Xu,Peng Zhang*, Crystals, 11, 668 (2021)

19.A computational validation of water molecules adsorption on an NaCl surface. Xiao-Yan Liu, Jing-Wen Cao, Xiao-Ling Qin, Xu-Liang Zhu, Xu-Hao Yu, Xue-Chun Wang, Xiao-Qing Yuan, Yu-He Liu, Yong Wang,Peng Zhang*, Crystals, 11, 610 (2021)

20.Comparative analysis of hydrogen-bonding vibrations of ice VI. Xue-Chun Wang, Xu-Liang Zhu, Yue Gu, Hao-Cheng Wang, Xiao-Ling Qin, Jing-Wen Cao, Xu-Hao Yu, Xiao-Qing Yuan,Peng Zhang*, ACS Omega, 6, 14442-14446 (2021).

21.A strategy for the analysis of the far-infrared vibrational modes of hydrogen -disordered ice V. Jing-Wen Cao, Xu-Liang Zhu, Hao-Cheng Wang, Xiao-Ling Qin, Xiao-Qing Yuan, Xue-Chun Wang, Jia-Le Yu, Xiao-Tong Ma, Miao-Miao Li,Peng Zhang*, J. Phys. Chem. C,125, 7913-7918 (2021).

22.时代背景下的基础学科专业课教学模式创新-以“材料模拟与计算”为例.张鹏*，王守宇，吕英波，李延辉，刘芬，孙珲，关成波，丛伟艳，高教学刊，158(36)，55-58 (2020).

23.Density functional theory studies of hydrogen bonding vibrations in sI gas hydrates. Hao-Cheng Wang, Xu-Liang Zhu, Jing-Wen Cao, Xiao-Ling Qin, Ye-Chen Yang, Tian-Xiao Niu, Ying-Bo Lu,Peng Zhang*, New J. Phys.,22, 093066 (2020).

24.Origin of two distinct peaks of ice in the THz region and its application for gas hydrate dissociation. Xu-Liang Zhu, Jing-Wen Cao, Xiao-Ling Qin, Lu Jiang, Yue Gu, Hao-Cheng Wang, Yang Liu, A. I. Kolesnikov,Peng Zhang*, J. Phys. Chem. C,124, 1165-1170 (2020).

25.Computing investigations of molecular and atomic vibrations of ice IX. Zeng-Ji Zhao, Xiao-Ling Qin, Jing-Wen Cao, Xu-Liang Zhu, Yechen Yang, Hao-Cheng Wang,Peng Zhang*, ACS Omega,4, 18936-18941 (2019).

26.Two basic vibrational modes of hydrogen bonds in ice XIII. Zhi-Wei Wei,Xu-Liang Zhu, Jing-Wen Cao, Xiao-Ling Qin, Lu Jiang, Yue Gu, Hao-Cheng Wang,Peng Zhang*, AIP Adv.,9,115118-7(2019).

27.DFT investigations of the vibrational spectra and translational modes of ice II. Jing-Wen Cao, Jia-Yi Chen, Xiao-Ling Qin, Xu-Liang Zhu, Lu Jiang, Yue Gu, Xu-Hao Yu,Peng Zhang*, Molecules,24, 3135 (2019).

28.Computational analysis of exotic molecular and atomic vibrations in ice XV. Xiao-Ling Qin, Xu-Liang Zhu, Jing-Wen Cao, Lu Jiang, Yue Gu, Xue-Chun Wang,Peng Zhang*, Molecules,24, 3115 (2019).

29.Comparative analysis of hydrogen bond vibrations in ice VIII and VII. Yue Gu, Xu-Liang Zhu, Lu Jiang, Jing-Wen Cao, Xiao-Ling Qin, Shu-Kai Yao,Peng Zhang*, J. Phys. Chem. C,123, 14880-14883 (2019).

30.Computational analysis of vibrational spectrum and hydrogen bonds of ice XVII. Xu-Liang Zhu, Zhen-Yu Yuan, Lu Jiang, Kai Zhang, Ze-Ren Wang, Hui-Wen Luo, Yue Gu, Jing-Wen Cao, Xiao-Ling Qin,Peng Zhang*, New J. Phys.,21, 043054-8 (2019).

31.Investigations of the hydrogen bonds and vibrational spectrum of clathrate ice XVI. Ze-Ren Wang, Xu-Liang Zhu, Lu Jiang, Kai Zhang, Hui-Wen Luo, Yue Gu,Peng Zhang*, Materials,12, 246-8 (2019).

32.Exotic spectra and lattice vibrations of ice X using the DFT method. Lu Jiang,Shu-Kai Yao, Kai Zhang, Ze-Ren Wang, Hui-Wen Luo, Xu-Liang Zhu, Yue Gu,Peng Zhang*, Molecules,23, 2780-6 (2018).

33.DFT simulations of the vibrational spectrum and hydrogen bonds of ice XIV. Kai Zhang,Peng Zhang*, Ze-Ren Wang, Xu-Liang Zhu, Ying-Bo Lu, Cheng-Bo Guan, YanHui Li, Molecules,23, 1781-10 (2018).

34.Investigation on enhanced moisture resistance of two-dimensional layered hybrid organic-inorganic perovskites (C₄H₉NH₃) PbI₄. Ying-Bo Lu, ChengBo Guan, Hui Sun, Wei-Yan Cong, Haozhi Yang,Peng Zhang, J. Phys. Chem. C 122, 11862-8 (2018).

35.First principle study of electronic structures and optical properties of Ce-doped SiO₂. Wei-Yan Cong, Ying-Bo Lu,Peng Zhang, Cheng-Bo Guan, AIP Advances 8, 055125-6 (2018).

36.Temperature dependence of the effective mass of the hybrid organic-inorganic perovskites CH₃NH₃PbI₃. Ying-Bo Lu, Haozhi Yang, Wei-Yan Cong,Peng Zhang, and Hong Guo, Appl. Phys. Lett. 111, 253902 (2017).

37.Computational assignments of lattice vibrations of ice Ic. Zhen-Yu Yuan,Peng Zhang*, Shu-Kai Yao, Ying-Bo Lu, Hao-Zhi Yang, Hui-Wen Luo, Zeng-Ji Zhao, RSC Adv., 7, 36801-36806 (2017).

38.Computing analysis of lattice vibrations of iceⅧ.Shu-kai Yao,Peng Zhang*, Ying Zhang, Ying-bo Lu, Tian-lin Yang, Bai-gong Sun,Zhen-yu Yuan, Hui-wen Luo, RSC Adv.,7, 31789-31794 (2017).

39.Computational prediction of high thermoelectric performance in p-type half-Heusler compounds with low band effective mass.Teng Fang, Shuqi Zheng, Tian Zhou, Lei Yan, andPeng Zhang,Phys. Chem. Chem, Phys.,19, 4411-4417 (2017).

40.The normal modes of lattice vibrations of ice XI.Peng Zhang*, Zhe Wang, Ying-Bo Lu, Zheng-Wen Ding, Sci. Rep.6, 29273-9 (2016).

41.Validity of Rigid-Band Approximation in the study of thermoelectric properties of p-Type FeNbSb-Based Half-Heusler compounds.Teng Fang, Shuqi Zheng, Tian Zhou, Hong Chen, andPeng Zhang,J. Electron. Mater,46, 3030-3035 (2016).

42.Electronic structure and thermoelectric properties of p-type half-Heusler compound NbFeSb: a first-principles study. Teng Fang, Shuqi Zheng, Hong Chen, Hui Cheng, Lijun Wang andPeng Zhang, RSC Adv.6, 10507-10512 (2016).

43.Geometric, electronic and optical properties of Zinc/Tin codoped In₂O₃modulated by the bixbyite/corundum phase transition. Yingbo Lu, Y H Li, Z C Ling, Wei-Yan Cong,Peng Zhang, Y Q Xin, T L Yang, J. Phys. D.49, 06515-8 (2016).

44.Elastic and thermodynamic properties of Fe₃Ga from first-principles calculations. Ya-Ning Lin, Lin-Ling Li, Xiang-Hong Yan, Ya-Ping Zhang, Dong-Yun Zhang,Peng Zhang, Solid State Communications230, 43-48, (2016).

45.Magnetism tuned by the charge states of defects in bulk C-doped SnO₂materials. Ying-Bo Lu, Z. C. Ling, Wei-Yan Cong,Peng Zhang, Phys. Chem. Chem, Phys.17, 26429-26434 (2015).

46.Carbon induced magnetism of SnO₂surfaces. Ying-Bo Lu, Z. C. Ling, Wei-Yan Cong,Peng Zhang, Ying Dai, J. Magn. Magn. Mater.394, 280-286 (2015).

47.How does the multiple constituent affect the carrier generation and charge transport in multicomponent TCOs of In-Zn-Sn oxide. Ying-Bo Lu, T. L. Yang, Z. C. Ling, Wei-Yan Cong,Peng Zhang, Y. H. Li and Y. Q. Xin, J. Mater. Chem. C3, 7727-7737 (2015).

48.New observations on hydrogen bonding in ice by density functional theory simulations.Zhang Peng*, Liu Yang, Yu Hui, Han Sheng-Hao, Lv Ying-Bo, Lv Mao-Shui, Cong Wei-Yan, Chin. Phys. B23, 026103-4 (2014).

49.Dynamics simulation of the interaction between serine and water. Yang Liu,Peng Zhang*, Ying-Bo Lu, Sheng-Hao Han, Hui Yu, J. Chem. Phys.138, 205101-5 (2013).

50.Acalculatingproof onhydrogenbonding inordinary ice by thefirst-principlesdensityfunctionaltheory.Peng Zhang*, Sheng-Hao Han, Hui Yu, Yang Liu, RSC Adv.3, 6646-6649 (2013).

51.Investigation of the hydrogen bonding in ice Ih by the first-principlesdensity function methods.P.Zhang, L.Tian,Z. P. Zhang,G.Shao and J. C.Li,J. Chem. Phys.137, 044504-5 (2012).

52.Neutron spectroscopic and Raman studiesof interaction between water and proline.Peng Zhang, Shenghao Han, Ying Zhang, Robert C. Ford and Jichen Li,Chem. Phys.345, 196-199 (2008).

53.Internal transitions of acceptors confined in delta-doped GaAs/AlAs multiple quantum wells. W. M. Zheng, A. F. Wang, Y. B. Lu, P. Zhang and D. Hong, Semicond. Sci. Technol. 22, 74-79 (2007).

54.Vibrational spectroscopic studies of the interaction ofwater withserine.Peng Zhang, Ying Zhang, Shenghao Han, Qiwei Yan, Robert C Ford and Jichen Li, J. Phys. Chem.A110, 5000-5003 (2006).

55.The interaction of water with glycine: a combined Raman spectra and inelastic neutron scattering studies.P. Zhang, Y. Zhang，S. Han，Q. Yan, and J. Li, Acta Phys. Pol. A109, 399-404 (2006).

56.Inelastic neutron scattering studies of the interaction between water and some amino acids.Ying Zhang,Peng Zhang, Robert C. Ford, Shenghao Han, and Jichen Li, J. Phys. Chem., B109, 17784-17786 (2005).

57.Vibrational analysis of L-serine using the density functional theory. Zhang Ying, Yin Wen,Zhang Peng, Xu Chang-Ye, Han Sheng-Hao, and Li Ji-Chen, Chinese Phys.14, 2585-2590 (2005).

58.Muon-spin-relaxation studies of high pressure phases of ices.Y. Wang, S.L. Dong, A.I. Kolesnikova,P. Zhang, J. C. Li, Physica B350, e451-e454 (2004)

59.有机衬底和玻璃衬底ZnO:Al透明导电膜的结构研究及光电特性对比研究.杨田林，韩圣浩，张鹏，王爱芳，液晶与显示，19, 329-333 (2004)

60.衬底温度和溅射偏压对ZnO:Al透明导电膜的结构研究及光电特性的影响.杨田林，韩圣浩，张鹏，王爱芳，电子元件与材料，23, 31-34 (2004)

61.Defect hydrogen vibrations in various phases deuterium ice. J. C. Li and Y. Wang, S. L. Dong,P. Zhang, A. I. Kolesnikov, J. Chem.Phys.119, 3332-3335(2003).

62.Effective anisotropy and coercivity in nanocrystalline single-phase NdFeB permanent magnetic material.HAN Guangbing, GAO Ruwei, FENG Weicun, LIU Hangqiang, WANG Biao,ZHANG Peng, CHEN Wei, LI Wei, GUO Yongquan, Science in china (G)46, 398-403 (2003)

63.纳米单相NdFeB永磁材料的有效各向异性和矫顽力.韩广兵，高汝伟，冯维存，刘汉强，王标，张鹏，陈伟，李卫，郭永权，中国科学，33, 117-121 (2003)

64.纳米复合永磁材料的有效各向异性与矫顽力.高汝伟，冯维存，王标，陈伟，韩广兵，张鹏，刘汉强，李卫，郭永权，李岫梅，物理学报，52, 703-707 (2003)

65.Exchange-coupling interaction, effective anisotropy and coercivity in nanocomposite permanent materials.R. W. Gao, W. C. Feng, H. Q. Liu, B. Wang, W. Chen, G. B. Han,P. Zhang, et al, J. Appl. Phys.94, 664-668 (2003)

66.Influence of Co, Ga, and Si on the microstructure and the magnetic properties for nanocomposite permanent alloys.R. W. Gao, H. Q. Liu, W. C. Feng, W. Chen, B. Wang, G. B. Han, P. Zhang, Materials Science and Engineering B-Solid State Materials for Advanced Technology,95187-190 (2002).

67.Exchange-coupling interaction and effective anisotropy in nanocomposite permanent materials.GAO Ruwei, FENG Weicun, CHEN Wei, WANG Biao, HAN Guangbing &ZHANG Peng, Chinese Sci. Bull.47, 1166-1169 (2002)

68.纳米复合永磁材料的交换耦合作用与有效各向异性.高汝伟，冯维存，陈伟，王标，韩广兵，张鹏，科学通报，47, 829-832 (2002)

学术会议：

1.2023年8月17-21日，“中国物理学会2023年秋季学术会议”，银川，主办：宁夏大学

口头报告：“专业课+科研训练”科教融合下的研究型创新人才培养模式

2.2023年6月15-19日，“第七届全国热传导研讨会”，西安，主办：西安交通大学

口头报告：材料远红外特征振动峰的理论标定-以冰的两个氢键峰为例

3.2021年10月21-24日，“中国物理学会2021/2020年秋季学术会议”，兰州，主办：兰州大学

口头报告：以培养创新人才为导向的物理专业课“材料模拟与计算”教改实践

4.2021年6月16-19日，“The 10^thInternational Symposium on Ultrafast Phenomena and Terahertz Wave”，成都，主办：中国工程物理研究院

Oral representation: Theoritical and experimental studies of ice melting using Terahertz radiation

5.2019年9月19-22日，“中国物理学会2019年秋季学术会议”，郑州，主办：郑州大学

口头报告：“Origin of the two distinct peaks of ice in the THz region”。

6.2016年11月4-6日，“第四届全国中子散射会议暨国家中子源多学科应用研讨会-2016”，深圳，主办：中国散裂中子源，南方科技大学

口头报告：“冰相的中子散射/光子散射振动谱的计算机模拟”。

7.2016年9月1-4日，“中国物理学会2016年秋季学术会议”，北京，主办：北京工业大学。

口头报告：“利用第一性原理计算机模拟解析冰的中子散射与光子散射振动谱”

8.2015年11月8-10日，“第三届全国中子散射会议暨国家中子源多学科应用研讨会-2015”，北京大学化学院，主办：原子能院，北京大学。

口头报告：“中子散射与光子散射的异同-以冰的振动谱为例”。

9.2012年9月20-23日，“中国物理学会2012年秋季学术会议”，广东，主办：中山大学。

口头报告：“对冰Ih相氢键的第一性原理密度泛函研究”。

10.2011年10月26-30日, “国家中子源多学科用户研讨会-2011”，四川绵阳，主办：中国工程物理研究院核物理与化学研究所。

口头报告：“通过第一性原理密度泛函方法模拟冰Ih相氢键的最新进展”。

11.2010, 5-7, Mar., “Molecular Spectroscopy User Group (MSUG) Meeting”, ISIS, UK.

12.2007, 14 -18 Dec., “International Workshop on Molecular Structure and Dynamics of Interfacial Water”, Shanghai Institute of Applied Physics, Chinese Acamedic of Sciences.

Poster: Recent Raman Spectra Studies of the Interaction of Water with some Amino Acids

13.2007, 24-27 July, “International summer School and Workshop on Lunar Science and Data analysis for Planetary Missions”, Shandong University at Weihai.

Oral representation: The PDSLaboratory of SDU at Weihai

荣誉奖励：

1.2023山东大学（威海）学生创新创业教育典型案例双创项目类一等奖

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6.2021第十七届“挑战杯”山东省大学生课外学术科技作品竞赛优秀指导教师

7.2021山东大学（威海）教学成果一等奖，1/10

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