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  • 姓名: 林哲帅
  • 性别: 男
  • 职称: 研究员
  • 职务: 
  • 学历: 博士
  • 电话: 82543718
  • 传真: 82543709
  • 电子邮件: zslin@mail.ipc.ac.cn
  • 通讯地址: 北京市海淀区中关村东路29号
    简  历:

  • 教育经历:

    1999/09 – 2002/07,中科院福建物构所,物理化学,博士

    1995/09 – 1998/03,天津大学,材料物理,硕士

    1991/09 – 1995/07,天津大学,应用物理,学士

    工作经历:

    2015 - 至今 中科院大学岗位教授

    2008/12 - 至今,中科院理化技术研究所,中科院功能晶体与激光技术重点实验室,项目研究员、研究员、博士生导师。

    2005/10-2008/10,英国剑桥大学,材料与冶金系,Atomic Simulation Group研究组,助理研究员

    2004/09-2005/08,英国剑桥大学,卡文迪许实验室,Theory of Condensed Matter研究组,博士后

    2002/07-2004/08,中科院理化技术研究所,博士后

    1998/04-1999/09,中科院福建物构所,研究助理

     

    社会任职:
    研究方向:

  • l. 非线性光学材料构效关系计算方法发展及新材料探索;

    2. 非线性光学材料的高通量设计、制备和表征,及性能数据库建设;

    3. 应用于复杂/极端环境的具有反常力学/热学等特种效应的光学/非线性光学材料探索。

    迄今已发表通讯或第一作者SCI论文160余篇,其中影响因子大于12.0论文36篇。文章他引近10000次,H指数 = 60。13篇论文入选ESI高引文章。

     
    承担科研项目情况:

  • 主持多项国家自然科学基金面上项目、重大研究计划培育项目、863子课题以及中国科学院重点部署项目子课题等。

     

     
    代表论著:

  • 1. L. Kang, F. Liang, X. X. Jiang, Z. S. Lin*, C. T. Chen, “First-Principles Design and Simulations Promote the Development of Nonlinear Optical Crystals”, Acc. Chem. Res. 2020, 53, 209-217.

    2. P. F. Gong, L. Kang*, Z. S. Lin*, “Realizing Deep-Ultraviolet Second Harmonic Generation by First- Principles-Guided Materials Exploration in Hydroxyborates”, J. Am. Chem. Soc. 2020, 142, 15157?15163.

    3. K. Lin, P. F. Gong, S. H. Chu, Q. Li, Z. S. Lin*, H. Wu, Q. X. Wang, J. G. Wang, M. J. Kim, K. Kato, C. W. Wang, X. Z. Liu, Q. Z. Huang, J. Chen, H. Zhu, J. X. Deng, X. R. Xing*, “Strong Second Harmonic Generation in a Tungsten Bronze Oxide by Enhancing Local Structural Distortion”, J. Am. Chem. Soc. 2020, 142, 7480?7486.

    4. F. G. You, F. Liang, Q. Huang, Z. G. Hu*, Y. C. Wu, Z. S. Lin*, “Pb2GaF2(SeO3)2Cl: Band Engineering Strategy by Aliovalent Substitution for Enlarging Bandgap while Keeping Strong Second Harmonic Generation Response”, J. Am. Chem. Soc. 2019, 141, 748-752.

    5. W. J. Wei, X. X. Jiang, L. Y. Dong, W. W. Liu, X. B. Han, Y. Qin, K. Li, W. Li*, Z. S. Lin*, X. H. Bu*, P. X. Lu*, “Regulating Second-Harmonic Generation by van der Waals Interactions in Two-dimensional Lead Halide Perovskite Nanosheets”, J. Am. Chem. Soc. 2019, 141, 9134?9139.

    6. Y. Q. Li, F. Liang, S. G. Zhao*, L. N. Li, Z. Y. Wu, Q. R. Ding, S. Liu, Z. S. Lin*, M. C. Hong, J. H. Luo*, “Two Non-? -Conjugated Deep-UV Nonlinear Optical Sulfates”, J. Am. Chem. Soc. 2019, 141, 3833?3837.

    7. M. Luo, F. Liang, Y. X. Song, D. Zhao, N. Ye*, and Z. S. Lin*, “Rational Design of the First Lead/Tin Fluorooxoborates MB2O3F2 (M = Pb, Sn), Containing Flexible Two-Dimensional [B6O12F6]∞ Single Layers with Widely Divergent Second Harmonic Generation Effects”, J. Am. Chem. Soc. 2018, 140, 6814–6817.

    8. H. Lan, F. Liang, X. X. Jiang, C. Zhang, H. H. Yu*, Z. S. Lin*, H. J. Zhang*, J Wang, Y Wu, “Pushing Nonlinear Optical Oxides into the Mid-Infrared Spectral Region Beyond 10 μm: Design, Synthesis, and Characterization of La3SnGa5O14”, J. Am. Chem. Soc. 2018, 140, 4684-4690.

    9. S. G. Zhao*, X. Yang, Y. Yang, X. J. Kuang*, F. Lu, P. Shan, Z. H. Sun, Z. S. Lin*, M. C. Hong, J. H. Luo*, “Non-Centrosymmetric RbNaMgP2O7 with Unprecedented Thermo-Induced Enhancement of Second Harmonic Generation”, J. Am. Chem. Soc. 2018, 140, 1592–1595.

    10. S. G. Zhao, L. Kang, Y. G. Shen, X. D. Wang, M. A. Asghar, Z. S. Lin*, Y. Y. Xu, S. Y. Zeng, M. C. Hong, J. H. Luo*, “Designing a Beryllium-Free Deep-Ultraviolet Nonlinear Optical Material without a Structural Instability Problem”, J. Am. Chem. Soc. 2016, 138, 2961–2964.

    11. M. J. Xia, X. X. Jiang, Z. S. Lin*, R. K. Li, ““All-Three-in-One”: A New Bismuth- Tellurium- Borate Bi3TeBO9 Exhibiting Strong Second Harmonic Generation Response”, J. Am. Chem. Soc. 2016, 138, 14190?14193.

    12. L. Kang, M. L. Zhou, J. Y. Yao, Z. S. Lin*, Y. C. Wu and C. T. Chen, “Metal Thiophosphates with Good Mid-infrared Nonlinear Optical Performances: A First-Principles Prediction and Analysis”, J. Am. Chem. Soc. 2015, 137, 13049?13059.

    13. S. G. Zhao, P. F. Gong, S. Y. Luo, L. Bai, Z. S. Lin*, C. M. Ji, T. L. Chen, M. C. Hong, J. H. Luo*, “Deep-Ultraviolet Transparent Phosphates RbBa2(PO3)5 and Rb2Ba3(P2O7)2 Show Nonlinear Optical Activity from Condensation of [PO4]3? Units”, J. Am. Chem. Soc. 2014, 136, 8560?8563.

    14. W. Li, A. Thirumurugan, P. T. Barton, Z. S. Lin*, S. Henke, H. H.-M. Yeung, M. T. Wharmby, E. G. Bithell, C. J. Howard, and A. K. Cheetham*, “Mechanical Tunability via Hydrogen Bonding in Metal?Organic Frameworks with the Perovskite Architecture”, J. Am. Chem. Soc. 2014, 136, 7801-7804.

    15. G. Zhang, Y. J. Li, H. Y. Zeng, T. Liu, X. G. Chen, J. G. Qin*, Z. S. Lin*, P. Z. Fu, Y. C. Wu, and C. T. Chen, “A New Mixed-halide, Cs2HgI2Cl2: Molecular Engineering for New Nonlinear Optical Material in the IR Region”, J. Am. Chem. Soc. 2012, 134, 14818.

    16. S. M. Chi, F. Liang, H. X. Chen, W. D. Tian, H. Zhang, H. H. Yu,* G. Wang,* Z. S. Lin*, J. P. Hu, H. J. Zhang*, “Surface Nonlinear Optics on Centrosymmetric Dirac Nodal-Line Semimetal ZrSiS”, Adv. Mater. 2019, 1904498

    17. X. X. Jiang, Y. Yang, M. S. Molokeev, P. F. Gong, F. Liang, S. H. Wang, L. Liu, X. Wu, X. D. Li, Y. C. Li, S. F. Wu, W. Li, Y. C. Wu, Z. S. Lin*, “Zero Linear Compressibility in the Non-dense Borates with “Lu-Ban Stool”-like Structure”, Adv. Mater. 2018, 30, 1801313.

    18. Y. Xie, F. Liang, D. Wang, C. M. Chi, H. H. Yu*, Z. S. Lin*, H. J. Zhang*, Y. X. Chen, J. Y. Wang, Y. C. Wu, “Room-Temperature Ultrabroadband Photodetection with MoS2 by Electronic-Structure Engineering Strategy”, Adv. Mater. 2018, 30, 1804858.

    19. X. X. Jiang, M. S. Molokeev, P. F. Gong, Y. Yang, W. Wang, S. H. Wang, S. F. Wu, Y. X. Wang, R. J. Huang, L. F. Li, Y. C. Wu, X. R. Xing,* and Z. S. Lin*, “Near-Zero Thermal Expansion and High Ultraviolet Transparency in a Borate Crystal of Zn4B6O13”, Adv. Mater. 2016, 28, 7936–7940.

    20. X. X. Jiang, S. Y. Luo, L. Kang, P. F. Gong, W. J. Yao, H. W. Huang, W. Li,* R. J. Huang, W. Wang, Y. C. Li, X. D. Li, X. Wu, P. X. Lu, L. F. Li, C. T. Chen, and Z. S. Lin*,“Isotropic Negative Area Compressibility over Large Pressure Range in Potassium Beryllium Fluoroborate and its Potential Applications in Deep Ultraviolet Region”, Adv. Mater. 2015, 27, 4851–4857.

    21. X. Y. Zhang, L Kang,* P. F. Gong, Z. S. Lin*, Y. C. Wu, “Nonlinear Optical Oxythiophosphate Approaching the Good Balance with Wide Ultraviolet Transparency, Strong Second Harmonic Effect, and Large Birefringence”, Angew. Chem. Int. Ed. 2021, https://doi.org/10.1002/anie.202016013.

    22. J. J. Zhou, Y. Q. Liu, H. P. Wu, H. W. Yu*, Z. S. Lin*, Z. G. Hu*, J. Y. Wang, Y. C. Wu, “CsZn2BO3X2 (X2 = F2, Cl2, and FCl): A Series of Beryllium-Free Deep-Ultraviolet Nonlinear-Optical Crystals with Excellent Properties”, Angew. Chem. Int. Ed. 2020, 59, 19006 –19010.

    23. S. Liu, X. M. Liu, S. G. Zhao*, Y. C. Liu, L. N. Li, Q. R. Ding, Y. Q. Li, Z. S. Lin*, J. H. Luo, M. C. Hong, “An exceptional peroxide birefringent material resulting from d-π interactions”, Angew. Chem. Int. Ed. 2020, 132, 9500 –9503.

    24. L. Kang, X. Y. Zhang, F. Liang, Z. S. Lin*, B. Huang*, “Poly(difluorophosphazene) as the First Deep-Ultraviolet Nonlinear Optical Polymer: A First-Principles Prediction”, Angew. Chem. Int. Ed. 2019, 58, 10250–10254.

    25. S. G. Zhao, Y. Yang, Y. G. Shen, B. Q. Zhao, L. N. Li, C. M. Ji, Z. Y. Wu, D. Q. Yuan, Z. S. Lin*, M. C. Hong, and J. H. Luo* “A Three-Chromophore Cooperation Generates a Water-Resistant Nitrate Nonlinear Optical Material Bi3TeO6OH(NO3)2”, Angew. Chem. Int. Ed. 2017, 56, 540 –544.

    26. H. M. Liu, Q. Wu, X. X. Jiang, Z. S. Lin*, X. G. Meng, X. G. Chen*, J. G. Qin, “ABi2(IO3)2F5 (A= K, Rb and Cs): Combination of Halide and Oxide Anionic Units to Create Large SHG Response with Wide Bandgap”, Angew. Chem. Int. Ed. 2017, 56, 9492 –9496.

    27. S. G. Zhao, P. F. Gong, S. Y. Luo, L. Bai, Z. S. Lin*, Y. Y. Tang, Y. L. Zhou, M. C. Hong, J. H. Luo*, “Tailored Synthesis of a Nonlinear Optical Phosphate with Short Absorption Edge”, Angew. Chem. Int. Ed. 2015, 54, 4217 –4221.

    28. X. X. Jiang, M. S. Molokeev, L. Y. Dong, Z. C. Dong, N. Z. Wang, L. Kang, X. D. Li, Y. C. Li, C. Tian, S. L. Peng, W. Li, Z. S. Lin*, “Anomalous mechanical materials squeezing three-dimensional volume compressibility into one dimension”, Nat. Comm. 2020, 11, 5593.

    29. S. G. Zhao, P. F. Gong, L. Bai, X. Xu,        S. Q. Zhang, Z. H. Sun, Z. S. Lin*, M. C. Hong, C. T. Chen, J. H. Luo*, “Beryllium-free Li4Sr(BO3)2 for deep-ultraviolet nonlinear optical applications”, Nat. Comm. 2014, 5, 4019.

    30. X. M. Liu, P. F. Gong*, Y. Yang, G. M. Song, Z. S. Lin*, “Nitrate Nonlinear Optical Crystals: A Survey on Structure-Performance Relationships”, Coord. Chem. Rev. 2019, 400, 213045.

    31. P. F. Gong, F. Liang, L. Kang, X. G. Chen*, J. G. Qin, Y. C. Wu, Z. S. Lin*, “Recent advances and future perspectives on infrared nonlinear optical metal halides”, Coord. Chem. Rev. 2019, 380, 83-102.

    32. F. Liang, L. Kang, Z. S. Lin*, Y. C. Wu, C. T. Chen, “Analysis and prediction of mid-IR nonlinear optical metal sulfides with diamond-like structures”, Coord. Chem. Rev. 333, 57–70 (2017).

    获奖及荣誉:

  • 卢嘉锡青年人才奖,2010年

    中国科学院青年创新促进会优秀会员,2016年

    国家科技创新领军人才,2019年

     

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