林哲帅
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资料介绍
个人简历
简历:\r2008.12—至今 研究员 中科院理化技术研究所 \r2004.9—2008.10 Research Associate 英国剑桥大学物理系和材料冶金系 \r2002.9—2004.8 博士后 中科院理化技术研究所 \r1999.9—2002.7 博士 中科院福建物质结构研究所研究物理化学专业 \r1995.9—1998.3 硕士 天津大学应用物理学系材料物理专业 \r1991.9—1995.7 本科 天津大学应用物理学系 \r\r获奖及荣誉:\r卢嘉锡青年人才奖,2010年\r中国科学院青年创新促进会优秀会员,2016年\r中国建筑材料联合会·中国硅酸盐学会建筑材料科学技术奖二等奖,2016年研究领域
"""""主要从事新型功能材料的计算机模拟和分子工程学设计研究。包括: \r1 非线性光学材料光电功能构效关系以及新材料探索; \r2 非线性光学材料的高通量设计、制备和表征,相关数据库建设; \r3 其它功能材料如光催化剂、离子电池材料、力学材料等物性研究。"近期论文
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, 1801313.\r\rM. 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.\r\rH. 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.\r\rS. 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.\r\rM. Luo, F. Liang, Y. X. Song, D. Zhao, F. Xu, N. Ye, Z. S. Lin, “M2B10O14F6 (M= Ca, Sr): Two noncentrosymmetric alkaline earth fluorooxoborates as promising next-generation deep-ultraviolet nonlinear optical materials”, J. Am. Chem. Soc. 2018, 140, 3884-3887.\r\rG. Peng, N. Ye, Z. S. Lin, L. Kang, S. L. Pan, M. Zhang, C. S. Lin, X. F. Long, M. Luo, Y. Chen, Y. H. Tang, F. Xu, T. Yan, “NH4Be2BO3F2 and γ-Be2BO3F: Overcoming the Layering Habit in KBe2BO3F2 for the Next Generation Deep-ultraviolet Nonlinear Optical Materials”, Angew. Chem. 10.1002/ange.201803721.\r\rR. Shi, H. F. Ye, F. Liang, Z. Wang, K. Li, Y. X. Weng, Z. S. Lin, W. F. Fu, C. M. Che, Y. Chen, “Interstitial P‐Doped CdS with Long‐Lived Photogenerated Electrons for Photocatalytic Water Splitting without Sacrificial Agents”, Adv. Mater. 2018, 30, 1705941.\r\rF. 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. 2017, 333, 57–70.\r\rH. 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.\r\rS. 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.\r\rJ. G. Hou*, S. Y. Cao, Y. Z. Wu, F. Liang, Y. F. Su*, Z. S. Lin*, L. C. Sun*, “Simultaneously efficient light absorption and charge transport of phosphate and oxygen-vacancy confined in bismuth tungstate atomic layers triggering robust solar CO2 reduction”, Nano Energy, 2017, 32, 359–366.\r\rJ. G. Hou*, Y. Z. Wu, S. Y. Cao, F. Liang, Z. S. Lin*, Z. M. Gao, L. C. Sun*, “In Situ Phase-Induced Spatial Charge Separation in Core–Shell Oxynitride Nanocube Heterojunctions Realizing Robust Solar Water Splitting”, Adv. Energy Mater. 2017, 1700171.\r\rJ. G. Hou,* S. Y. Cao, Y. Q. Sun, Y. Z. Wu, F. Liang, Z. S. Lin*, L. C. Sun*, “Atomically Thin Mesoporous In2O3–x/In2S3 Lateral Heterostructures Enabling Robust Broadband-Light Photo-Electrochemical Water Splitting”, Adv. Energy Mater. 2017, 1701114.\r\rZ. Pan, J. Chen, X. X. Jiang, L. Hu, R. Z. Yu, H. Yamamoto, T. Ogata, Y. Hattori, F. M. Guo, X. A. Fan, Y. W. Li, G. Q. Li, H. Z. Gu, Y. Ren, Z. S. Lin, M. Azuma, X. R Xing, “Colossal Volume Contraction in Strong Polar Perovskites of Pb(Ti,V)O3”, J. Am. Chem. Soc., 2017, 139, 14865-14868.\r\rJ. Chen, Q. L. Gao, A. Sanson, X. X. Jiang, Q. Z. Huang, A. Carnera, C. G. Rodriguez, L. Olivi, L. Wang, L. Hu, K. Lin, Y. Ren, Z. S. Lin, C. Wang, L. Gu, J. X. Deng, J. P. Attfield, X. R. Xing, “Tunable thermal expansion in framework materials through redox intercalation”, Nat. Comm. 2017, 8, 14441.\r\rX. 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.\r\rS. 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.\r\rM. 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.\r\rC. Li, W. L. Yin, P. F. Gong, X. S. Li, M. L. Zhou, A. Mar, Z. S. Lin, J. Y. Yao, Y. C. Wu, C. T. Chen, “Trigonal Planar [HgSe3]4– Unit: A New Kind of Basic Functional Group in IR Nonlinear Optical Materials with Large Susceptibility and Physicochemical Stability”, J. Am. Chem. Soc. 2016, 138, 6135–6138.\r\rY. G. Wang, J. L. Zhu, W. G. Yang, T. Wen, M. Pravica1, Z. X. Liu, M. Q. Hou, Y. W. Fei, L. Kang, Z. S. Lin, C. Q. Jin, Y. S. Zhao, “Reversible switching between pressure-induced amorphization and thermal-driven recrystallization in VO2(B) nanosheets”, Nat. Comm. 2016, 7, 12214.标签:
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