陈欣教授

发布时间:2020-04-14文章来源: 浏览次数:

    电子邮件:chenxin@qfnu.edu.cn

办公地址:曲阜师范大学开元娱乐app官网316

联系方式:山东省曲阜市静轩西路57, 273165

个人简历

教育背景

2009.09–2011.12   博士,吉林大学超硬材料国家重点实验室,凝聚态物理专业,师从马琰铭教授

2006.09–2009.07   硕士,吉林大学超硬材料国家重点实验室,凝聚态物理专业, 师从马琰铭教授

2002.09–2006.07   学士,聊城大学物理科学与信息工程学院,物理学专业

工作经历

        2018.01–至今          曲阜师范大学开元娱乐app官网,硕士研究生导师

        2017.12–至今          曲阜师范大学开元娱乐app官网,教授

        2017.08–2017.11       曲阜师范大学开元娱乐app官网,特聘教授

2014.09–2017.02       美国西北大学地球与星球科学学院,矿物物理实验室,研究助理

2013.11–2014.09       美国西北大学地球与星球科学学院,矿物物理实验室,博士后

2012.02–2013.11       美国橡树岭国家实验室,材料科学技术部,博士后

研究兴趣

主要开展新型能源材料、超导、超硬等多功能材料的理论探索,同时结合结构搜索算法和高压实验测量,探索高压下材料的新结构和新性质,设计并合成新型功能材料。研究方向包括:

1)新型热电材料的理论设计与应用开发;

2)新型磁性、超导、光电、金刚石类超硬材料等先进功能材料的理论研究与设计;

3)高压物理与极限条件下材料的结构预测和物性研究。

目前已在PNAS, Adv. Funct. Mater., Nat. Commun., Phys. Rev. Lett., Phys. Rev. B等国际著名期刊发表论文40余篇,获批国家自然科学基金面上项目、山东省优秀青年基金等立项资助。欢迎勤奋踏实,有兴趣致力于高压物理与材料科学研究,有物理、化学、材料、电子等背景的同学报考课题组,除学校给予的基本待遇外,还将给予额外优厚生活补助和科研奖励,本课题组鼓励并优先推荐优秀学生与国内外一流科研单位联合培养、继续博士深造及从事博士后研究。

科研项目

12022.01-2025.12,基于层状GePGeP3高效环保热电材料的结构设计、多尺度模拟及热电性能调控机制探索,国家自然科学基金面上项目(52172212),59万,在研,主持。

22022.01-2024.12低成本环境友好型热电材料的结构设计与性能优化研究,山东省优秀青年基金(ZR2021YQ03),45万,在研,主持。

32019.01-2021.12,通过对电子能带结构和声子分布的调控提高黑磷热电性能的第一性原理研究,国家自然科学基金青年项目(11804184),27万,在研,主持。

42017.08-2023.08,新型热电材料、超导、超硬等多功能材料的理论设计与物性研究,曲阜师范大学高层次人才引进专项经费(107/6131),60万,在研,主持。

52020.01-2023.12,金刚石氮-空位中心形成机制及电荷调控机理探索,国家自然科学基金面上项目(11974208),63万,在研,参与,第二位。

62019.01-2022.12,利用高温高压技术对金刚石内NV中心的可控制备及调控机制研究,山东省自然科学基金面上项目(ZR2019MA054),20万,在研,参与,第二位。

教学项目

12018-2020,锂-磷化合物的高压结构与相变研究,国家级大学生创新计划,指导教师。

  教学科研奖励

1.       2021年,曲阜师范大学优秀研究生指导教师。

2.       2021年,山东省研究生优秀毕业生,段帅,山东省教育厅,指导教师。

3.       2021年,山东省研究生优秀成果奖三等奖,费格、宋京岩,山东省教育厅,指导教师。

4.       2021年,曲阜师范大学研究生“圣地英才奖”,段帅,指导教师。

5.       2020年,山东省研究生优秀成果奖三等奖,宋京岩、费格、段帅,山东省教育厅,指导教师。

6.       2020年,本科毕业生校级优秀学士论文,崔扬帆,曲阜师范大学,指导教师。

7.       2019年,硕士研究生国家奖学金,段帅,中国教育部,指导教师。

8.       2019年,山东省研究生优秀成果奖一等奖,段帅、崔扬帆,山东省教育厅,指导教师。

9.       2019年,山东省大学生物理竞赛一等奖,刘加乐,亓晨,指导教师。

10.    2018年,山东省大学生物理竞赛一等奖,蒋浩,指导教师。

代表性论文

2021-

1.       Bo Zhao#, Xiaojun Wang#, Linchao Yu, Yunxian Liu, Xin Chen*, Bingchao Yang, Guochun Yang*, Shoutao Zhang, Lin Gu, and Xiaobing Liu*, Fabrication of alkali metal boride: honeycomb-like structured NaB4 with high hardness and excellent electrical conductivity, Adv. Funct. Mater. In press (2021). DOI: 10.1002/adfm.202110872.

2.       Shuai Duan, Yangfan Cui, Wencai Yi, Xin Chen*, Bingchao Yang and Xiaobing Liu*, Superior conversion efficiency achieved in GeP3/h-BN heterostructures as novel flexible and ultralight thermoelectrics, ACS Appl. Mater. Interfaces. 13, 18800 (2021).

3.       Yangfan Cui, Xin Chen*, Shuai Duan, Manman Yang, Bingchao Yang, Wencai Yi* and Xiaobing Liu, Prediction of enhanced thermoelectric performance in two-dimensional black phosphorus, Vacuum 183, 109790 (2021).

4.       Tao Lin, Xiaojun Wang, Xin Chen, Xiaobing Liu, Xuan Luo, Xue Li, Xiaoling Jing, Qing Dong, Bo Liu, Hanyu Liu, Quanjun Li*, Xuebin Zhu* and Bingbing Liu, Retainable superconductivity and structural transition in 1T-TaSe2 under high pressure, Inorg. Chem., 60(15), 11385-11393, (2021).

5.       Shengya Zhang, Zhuangfei Zhang, Wencai Yi, Xin Chen and Xiaobing Liu*, Raman electronic effect for non-destructive boron calibration in type IIb semiconducting diamond, J. Raman Spec. 52, 1446 (2021).

6.       Xu Chen,# Xinhui Zhan,# Xiaojun Wang, Xiaobing Liu*, Xin Chen, Jian-gang Guo* and Xiaolong Chen*, Highly-robust reentrant superconductivity in CsV3Sb5 under pressure, CPL Express Letter 38, 057402 (2021).

7.       Yunxian Liu, Chao Wang,* Shuai Han, Xin Chen, Hairui Sun and Xiaobing Liu*, Quenchable superconducting electrides in Ca–S system stabilized under high pressures, Chin. Phys. Lett., 38, 3, 036201 (2021).

2020-

8.       Xin Chen*, Shuai Duan, Wencai Yi, David J. Singh, Jiangang Guo* and Xiaobing Liu*Enhanced thermoelectric performance in black phosphorus nanotubes by band modulation through tailoring nanotube chirality, Small 16, 2001820 (2020). (Reported by Materials View China)

9.       Jingyan Song#, Ge Fei#, Xiaobing Liu*, Shuai Duan, Bingchao Yang, Xin Chen*, David J. Singh, Yunxian Liu, Liuxiang Yang*, Jiangang Guo and Ping Zhang, Pressure-driven significant phonon mode softening and robust superconductivity in layered germanium phosphide, J. Mater. Chem. A 8, 20054-20061 (2020).

10.    Ge Fei, Shuai Duan, Yangfan Cui, Xin Chen*, Mingxin Zhang, Zebin Ren and Xiaobing Liu*, Predicted stable Li5P2 and Li4P at ambient pressure: novel high-performance anodes for lithium-ion batteries, Phys. Chem. Chem. Phys. 22, 19172-19177 (2020).

11.    Ge Fei, Jingyan Song, Xin Chen* and Xiaobing Liu*, Discovery of pressure-induced monoclinic to monoclinic phase transition above 60 GPa in single crystal NaAlSi2O6 jadeite, J. Raman Spec. 51(5), 844-850 (2020). (封面文章)

12.    Xiaojun Wang, Yunxian Liu, Xin Chen*, Ping Zhang and Xiaobing Liu*, Prediction of a novel robust superconducting state in TaS2 under high pressure, Phys. Chem. Chem. Phys. 22, 8827-8833 (2020).

13.    Jingyan Song#, Shuai Duan#, Bingchao Yang, Xin Chen*, Xiangjun Li and Xiaobing Liu*, Synthesis of highly stable one-dimensional BP/h-BN heterostructures: a novel flexible electronic platform, Chin. Phys. Lett. 37, 076204 (2020). (Editor Suggestion and Highlight)

14.    Wencai Yi*, Chao Wang, Xin Chen and Xiaobing Liu*, qvasp: A Flexible Toolkit for VASP Users in Materials Simulations, Comput. Phys. Commun. 257, 107535 (2020).

15.    Wencai Yi*, Lei Zhao, Xiaobing Liu, Xin Chen, Yonghao Zheng and Mao-Sheng Miao*, Packing high-energy together: Binding the power of pentazolate and high-valence metals with strong bonds, Mater. Design 193, 108820 (2020).

16.    Shoutao Zhang, Xin Du, Jianyan Lin, Aitor Bergara*, Xin Chen, Xiaobing Liu*, Xiaohua Zhang and Guochun Yang*, Superconducting boron allotropes, Phys. Rev. B 101, 74507 (2020).

17.    Chao Wang, Yun-Xian Liu*, Xin Chen, Pin Lv, Hai-Rui Sun and Xiaobing Liu*, Stable compositions, structures and electronic properties in the K-Ca system under pressure, Chin. Phys. Lett., 37(2), 026201, (2020). (Editor Suggestion and Highlight)

18.    Chao Wang, Yunxian Liu*, Xin Chen, Pin Lv, Hairui Sun and Xiaobing Liu*, Pressure-induced unexpected -2 oxidation states of bromine and superconductivity in magnesium bromide, Phys. Chem. Chem. Phys. 22, 3066-3072 (2020).

19.    Bo Zhao, Shengya Zhang, Shuai Duan, Jingyan Song, Xiangjun Li, Bingchao Yang,* Xin Chen, Chao Wang, Wencai Yi, Zhixiu Wang and Xiaobing Liu*, Enhanced strength of nano-polycrystalline diamond by stitching boron carbide interlayers at the grain boundaries, Nanoscale Adv. 2, 691-698 (2020). (后封面文章)

2019-

20.    Shuai Duan, Yangfan Cui, Xin Chen* (通讯作者), Wencai Yi, Yunxian Liu and Xiaobing Liu*, Ultrahigh thermoelectric performance realized in black phosphorous system by favorable band engineering through group VA doping, Adv. Funct. Mater. 1904346, (2019).

21.    Xiaobing Liu*, Xin Chen* (通讯作者), David J. Singh, Richard A. Stern, Jinsong Wu, Sylvain Petitgirard, Craig R. Bina and Steven D. Jacobsen, Boron-oxygen complex yields n-type surface layer in semiconducting diamond, Proc. Natl. Acad. Sci. USA, 116, 16, 7703-7711, (2019).

22.    Yangfan Cui#, Shuai Duan#, Xin Chen* (通讯作者) and Xiaobing Liu*, Remarkable electronic band structure leads to a high thermoelectric performance ZT > 2 in p-type γ-Cu2S, Vacuum 170, 108964 (2019).

23.    Zhongyuan Liu, Xin Guo*, Rui Li, Jieming Qin, Hongjun Li, Xin Chen* (通讯作者), Xiaoyuan Zhou, Band structure manipulated by high pressure-assisted Te doping realizing improvement in thermoelectric performance of BiCuSeO system, J. Materiomics 5, 649 (2019).

24.    Xiaopan Song, Li Lia, Xin Chen* (通讯作者), Qi Xua, Bao Song, Ziyu Pan, Yining Liu, Fangying Juan, Fan Xu, Bingqiang Cao*, Enhanced triethylamine sensing performance of α-Fe2O3 nanoparticle/ZnO nanorod heterostructures, Sensor. Actuat. B-Chem. 298, 126917 (2019).

25.    Wen-cai Yi,* Xin Chen, Dechun Ding, Bingchao Yang, Zhixiu Wang and Xiaobing Liu*, A novel two-dimensional δ-InP3 monolayer with high stability, tunable bandgaps and high carrier mobility and gas sensing of NO2, J. Mater. Chem. C 7, 7352-7359 (2019).

2007-2018

26.    Xingxing Wan, Yanan Jiang, Zhiwen Qiu, Hailiang Zhang, Xiaomeng Zhu, Iqbal Sikandar, Xiaobing Liu, Xin Chen* (通讯作者) and Bingqiang Cao*, Zinc as a New Dopant for NiOx-Based Planar Perovskite Solar Cells with Stable Efficiency near 20%, ACS Appl. Energy Mater. 1, 3947-3954 (2018).

27.    Yuewen Zhang, Hongan Ma*, Bing Sun, Binwu Liu, Haiqiang Liu, Lingjiao Kong, Baomin Liu, Xiaopeng Jia*, Xin Chen* (通讯作者), Thermoelectric performance of graphene composited BiSbTe bulks by high pressure synthesis, J. Alloy. Compd. 715, 344 (2017).

28.    Xin Chen, David Parker, and David J. Singh, “Acoustic Impedance and Interface Phonon Scattering in Bi2Te3 and Other Semiconducting Materials”, Phys. Rev. B 87, 045317 (2013),

29.    Xin Chen, David Parker, Khuong P. Ong, Mao-Hua Du, and David J. Singh, “High Magnetocrystalline Anisotropy in Oxides with Near Cubic Local Environments”, Appl. Phys. Lett. 102, 102403 (2013).

30.    Xin Chen, David Parker, Mao-Hua Du, and David J Singh, “Potential Thermoelectric Performance of Hole-Doped Cu2O”, New J. Phys. 15, 043029 (2013).

31.    Xin Chen, David Parker, and David J. Singh, “Importance of Non-Parabolic Band Effects in the Thermoelectric Properties of Semiconductors”, Sci. Rep. 3, 3168 (2013).

32.    Xin Chen and Yanming Ma*, “High-Pressure Structures and Metallization of Sodium Chloride”, Europhys. Lett. 100, 26005 (2012).

33.    Xin Chen, Ziwei Wang, and Yanming Ma*, “Atomistic Design of High Thermoelectricity on Si/Ge Superlattice Nanowires”, J. Phys. Chem. C 115, 20696 (2011).

34.    Xin Chen, Yanchao Wang, and Yanming Ma*, “High Thermoelectric Performance of Ge/Si Core−Shell Nanowires: First-Principles Prediction”, J. Phys. Chem. C 114, 9096 (2010).

35.    Xin Chen, Yanchao Wang, Yanming Ma*, Tian Cui, and Guangtian Zou, “Origin of the High Thermoelectric Performance in Si Nanowires: A First-Principle Study”, J. Phys. Chem. C 113, 14001 (2009).

36.    Xin Chen, Yi Wang, Tian Cui, Yanming Ma*, Guangtian Zou, and Toshiaki Iitaka, “HgTe: A Potential Thermoelectric Material in the Cinnabar Phase”, J. Chem. Phys 128, 194713 (2008).

37.    Xiaobing Liu*, X. Chen, H.A. Ma, X. Jia, J. Wu, T. Yu, Y. Wang, J. Guo, S. Petitgirard, C.R. Bina and S.D. Jacobsen, Ultrahard stitching of nanotwinned diamond and cubic boron nitride in C2-BN composite, Sci. Rep. 6, 30518 (2016). (美国阿贡国家实验室先进光源中心作为工作亮点进行报道).

38.    David Parker, Xin Chen, and David J. Singh, “High Three-Dimensional Thermoelectric Performance from Low-Dimensional Bands”, Phys. Rev. Lett. 110, 146601 (2013).

39.    Dan Liu, Xin Chen, Yanming Ma, Zhenxian Liu, and Yongjae Lee, “Spectroscopic and Computational Characterizations of Alkaline-Earth and Heavy-Metal Exchanged Natrolites”, ChemPlusChem 79, 8, 1096-1102 (2014).

40.    Yi Wang, Xin Chen, Tian Cui, Yingli Niu, Yanchao Wang, Mei Wang, Yanming Ma*, and Guangtian Zou, “Enhanced Thermoelectric Performance of PbTe within the Orthorhombic Pnma Phase”, Phys. Rev. B 76, 155127 (2007).

41.    X. F. Fan, W. T. Zheng, Xin Chen, and David J. Singh, “2DEGs at Perovskite Interfaces Between KTaO3 or KNbO3 and Stannates”, Plos One 9, e91423 (2014).

42.    Weiwei Lei, Dan Liu, Xin Chen, Pinwen Zhu, Qiliang Cui*, and Guangtian Zou, “Ferromagnetic Properties of Y-Doped AlN Nanorods”, J. Phys. Chem. C 114, 15574 (2010).

43.    C. W. Li, O. Hellman, J. Ma, A. F. May, H. B. Cao, Xin Chen, A. D. Christianson, G. Ehlers, D. J. Singh, B. C. Sales, O. Delaire, “Phonon self-energy and origin of anomalous neutron scattering spectra in SnTe and PbTe thermoelectrics”, Phys. Rev. Lett. 112, 175501 (2014).

44.    Huibo Cao*, Bryan C. Chakoumakos, Xin Chen, Jiaqiang Yan, Michael A. McGuire, Hui Yang, Radu Custelcean, Haidong Zhou, David J. Singh, and David Mandrus, “Origin of the Phase Transition in IrTe2: Structural Modulation and Local Bonding Instability”, Phys. Rev. B 88, 115122 (2013).

45.    Weiwei Lei, Dan Liu, Yanming Ma*, Xin Chen, Fubo Tian, Pinwen Zhu, Xiaohui Chen, Qiliang Cui*, and Guangtian Zou, “Scandium-Doped AlN 1D Hexagonal Nanoprisms: A Class of Room-Temperature Ferromagnetic Materials”, Angew. Chem. Int. Ed. 49, 173 (2010).

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