杨国辉

中国科学院山西煤炭化学研究所

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  • 杨国辉
  • 研究员
  • 太原市桃园南路27号
简历:

杨国辉研究员于2010年在日本国立富山大学取得博士学位,导师为著名碳一化学专家椿范立教授。曾在日本担任日本学术振兴会(JSPS)外国人特别研究员、国立大学助教、讲师等职位。在碳一化学、超洁净燃料化学品合成、二氧化碳高效定向转化、分子筛及分子筛膜的设计合成等方面开展过系统性的研究工作。曾主持多个日、中政府和企业支持的基础研究工作和大型科技攻关项目。成功提出并改进了多种胶囊催化剂的制备合成路线,实现胶囊催化剂商业化生产和工业应用。科研学术成果相继发表在Accounts of Chemical Research, JACS, Chemical Science, ChemComm, Journal of Catalysis, ACS Catalysis, ChemCatChem等国际著名刊物上,共发表60余篇论文,做过多个国际学术会议主旨和口头演讲,同时也担任多个国际旗舰科学杂志的审稿人。

研究领域:
1. 碳一化学、多项催化反应、费托合成、低温甲醇合成。 2. 从天然碳资源出发,合成清洁液体燃料、低碳烯烃、醇或醚等化学品。 3. 二氧化碳的定向高效转化合成高附加值化学品。 4. 分子筛及分子筛膜的设计、合成及应用开发。
社会任职:
获奖及荣誉:
曾获日本文部科学省、日本化学会、中国国家留学基金委、日本学术振兴会等中日政府机构颁发的多个荣誉奖项或奖励。
代表论著:
[1] J. Li, G. Yang *, Y. Yoneyama, T. Vitidsant, N. Tsubaki, Jet fuel synthesis via Fischer–Tropsch synthesis with varied 1-olefins as additives using Co/ZrO2–SiO2 bimodal catalyst, Fuel, 171 (2016) 159-166. [2] G. Yang, Y. Yoneyama, N. Tsubaki, Zeolite capsule catalyst design, preparation and application in one-step synthesis reactions, Catalysts and Catalysis, 57 (2015) 233-239. [3] C. Xing, G. Yang, P. Lu, W. Shen, X. Gai, L. Tan, J. Mao, T. Wang, R. Yang, N. Tsubaki, A hierarchically spherical Co-based zeolite catalyst with aggregated nanorods structure for improved Fischer–Tropsch synthesis reaction activity and isoparaffin selectivity, Microporous and Mesoporous Materials, in press (2015). [4] Q. Wei, G. Yang *, Y. Yoneyama, T. Vitidsant, N. Tsubaki, Designing a novel Ni–Al2O3–SiC catalyst with a stereo structure for the combined methane conversion process to effectively produce syngas, Catalysis Today, 265 (2015) 26-44. [5] L. Tan, G. Yang, Y. Yoneyama, Y. Kou, Y. Tan, T. Vitidsant, N. Tsubaki, Iso-butanol direct synthesis from syngas over the alkali metals modified Cr/ZnO catalysts, Applied Catalysis A: General, 505 (2015) 141-149. [6] R. Phienluphon, K. Pinkaew, G. Yang *, J. Li, Q. Wei, Y. Yoneyama, T. Vitidsant, N. Tsubaki, Designing core (Cu/ZnO/Al2O3)–shell (SAPO-11) zeolite capsule catalyst with a facile physical way for dimethyl ether direct synthesis from syngas, Chemical Engineering Journal, 270 (2015) 605-611. [7] Q. Lin, G. Yang *, Q. Chen, R. Fan, Y. Yoneyama, H. Wan, N. Tsubaki, Design of a hierarchical meso/macroporous zeolite-supported cobalt catalyst for the enhanced direct synthesis of isoparaffins from syngas, ChemCatChem, 7 (2015) 682-689. [8] Y. Jin, G. Yang *, Q. Chen, W. Niu, P. Lu, Y. Yoneyama, N. Tsubaki, Development of dual-membrane coated Fe/SiO2 catalyst for efficient synthesis of isoparaffins directly from syngas, Journal of Membrane Science, 475 (2015) 22-29. [9] J. Sun, G. Yang, Y. Yoneyama, N. Tsubaki, Catalysis chemistry of dimethyl ether synthesis, ACS Catalysis, 4 (2014) 3346-3356. [10] J. Sun, G. Yang, Q. Ma, O. Issei, T. Akira, T. Abe, Q. Xie, Y. Yoneyama, N. Tsubaki, Fabrication of active Cu-Zn nanoalloys on H-ZSM5 zeolite for enhanced dimethyl ether synthesis via syngas, Journal of Materials Chemistry A, 2 (2014) 8637-8643. [11] G. Yang, H. Kawata, Q. Lin, J. Wang, Y. Jin, C. Zeng, Y. Yoneyama, N. Tsubaki, Oriented synthesis of target products in liquid-phase tandem reaction over a tripartite zeolite capsule catalyst, Chemical Science, 4 (2013) 3958-3964. [12] L. Shi, G. Yang, K. Tao, Y. Yoneyama, Y. Tan, N. Tsubaki, An introduction of CO2 conversion by dry reforming with methane and new route of low-temperature methanol synthesis, Accounts of Chemical Research, 46 (2013) 1838-1847. [13] L. Shi, W. Shen, G. Yang, X. Fan, Y. Jin, C. Zeng, K. Matsuda, N. Tsubaki, Formic acid directly assisted solid-state synthesis of metallic catalysts without further reduction: As-prepared Cu/ZnO catalysts for low-temperature methanol synthesis, Journal of Catalysis, 302 (2013) 83-90. [14] Q. Lin, G. Yang, X. Li, Y. Yoneyama, H. Wan, N. Tsubaki, A catalyst for one-step isoparaffin production via Fischer–Tropsch synthesis: growth of a H-mordenite shell encapsulating a fused iron core, ChemCatChem, 5 (2013) 3101-3106. [15] G. Yang, D. Wang, Y. Yoneyama, Y. Tan, N. Tsubaki, Facile synthesis of H-type zeolite shell on a silica substrate for tandem catalysis, Chemical Communications, 48 (2012) 1263-1265. [16] D. Wang, G. Yang, Q. Ma, M. Wu, Y. Tan, Y. Yoneyama, N. Tsubaki, Confinement effect of carbon nanotubes: copper nanoparticles filled carbon nanotubes for hydrogenation of methyl acetate, ACS Catalysis, 2 (2012) 1958-1966. [17] G. Yang, N. Tsubaki, J. Shamoto, Y. Yoneyama, Y. Zhang, Confinement effect and synergistic function of H-ZSM-5/Cu-ZnO-Al2O3 capsule catalyst for one-step controlled synthesis, Journal of the American Chemical Society, 132 (2010) 8129-8136. [18] G. Yang, Y. Tan, Y. Han, J. Qiu, N. Tsubaki, Increasing the shell thickness by controlling the core size of zeolite capsule catalyst: Application in iso-paraffin direct synthesis, Catalysis Communications, 9 (2008) 2520-2524. [19] G. Yang, J. He, Y. Zhang, Y. Yoneyama, Y. Tan, Y. Han, T. Vitidsant, N. Tsubaki, Design and Modification of Zeolite Capsule Catalyst, A Confined Reaction Field, and its Application in One-Step Isoparaffin Synthesis from Syngas, Energy & Fuels, 22 (2008) 1463-1468. [20] G. Yang, J. He, Y. Yoneyama, Y. Tan, Y. Han, N. Tsubaki, Preparation, characterization and reaction performance of H-ZSM-5/cobalt/silica capsule catalysts with different sizes for direct synthesis of isoparaffins, Applied Catalysis A: General, 329 (2007) 99-105.
承担科研项目情况:
现承担: (1) NSFC联合基金。 (2) 中国科学院山西煤炭化学研究所煤转化重点实验室开放基金。 (3) 中国科学院山西煤炭化学研究所创新基金。 曾承担: (1) 日本科学技术振兴机构(JST): (a) 超空间制御的高精度革新机能催化材料的创造; (b) 全新的碳一化学反应路线用于转化二氧化碳。 (2) 日本新能源产业技术综合开发机构(NEDO): (a) 革新的生物质气化喷流床设计和基于Anti-ASF 型FT反应的生物质航空燃料合成体系的开发研究; (b)高效率清洁生物质气化系统以及基于低温低压FT合成反应的BTL完整体系的构建;(c) 一段法合成高辛烷值汽油用新型胶囊催化剂研究开发。 (3) 日本石油天然气金属矿物资源机构(JOGMEC): (a) 设计开发碳纳米管胶囊催化剂用于一步法合成高阶汽油;(b) 碳纳米管胶囊催化剂的设计及其在高品位汽油的一段合成中的应用。 (4) 日本学术振兴会(JSPS): 新型胶囊催化剂的设计及应用研究。
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