研究方向:
主要从事碳资源高效利用研究,专攻C1小分子(CH4/CO,)催化转化制备清洁替代燃料和高值化学品新技术。
个人简介:
Ki-Won Jun,韩国科技部碳中和战略科学家、“Next Generation Carbon Upcycling”项目研究团团长,韩国化学研究院首席科学家、碳资源研究所所长、绿色催化研究中心主任,南京工业大学名誉教授。
1980年和1990年在韩国西江大学和韩国科学技术院先后获得化学学士和博士学位。1993-1994年在美国斯坦福研究院 (SRI international)任访问学者,1983年至今在韩国化学研究院工作,历任助理研究员、高级研究员、责任研究员、首席科学家。Jun教授长期从事碳资源高效利用方面的研究工作,在二氧化碳催化转化以及碳一化学化工方面具有深厚的研究造诣,是国际碳资源高效利用领域资深专家。主要研究C1小分子(CH4/CO2)催化转化制备清洁替代燃料和高值化学品新技术,申请专利150余项(其中国际专利70余项),完成技术转移11项,领导了100万吨/年二氧化碳利用型高效天然气制甲醇新工艺开发,在ACS Catalysis、Energy Conversion and Management、Applied Catalysis B: Environmental、Environmental Science & Technology 、Chemical Engineering Journal等SCI期刊公开发表论文200余篇,曾获得包括韩国科学技术总统勋章、韩国工业化学会成就奖、韩国化工学会催化成就奖等在内的政府科技奖励10余项。
代表性论文:
[1] Chen Xixi, Gao Ruxing, Jun Ki-Won, et al. Direct hydrogenation of CO2 to liquid hydrocarbons over K/Fe-C catalysts: Effect of porous carbon matrix and K modification. Fuel, 2024, 364: 131061.
[2] Zhang Leiyu, Gao Ruxing, Jun Ki-Won, et al. Carbon-neutral light olefins production for energy decarbonization: Process development and techno-econo-environmental analysis. Chemical Engineering Journal, 2023, 471: 144611.
[3] Gao Ruxing, Wang Lei, Jun Ki-Won, et al. Life cycle sustainability decision-support framework for CO2 chemical conversion technologies under uncertainties. Energy Conversion and Management, 2023, 288: 117113.
[4] Zhang Chundong, Hu Kehao, Jun Ki-Won, et al. Direct hydrogenation of CO2 into valuable aromatics over K/Fe-Cu-Al @HZSM-5 tandem catalysts: Effects of zeolite surface acidity on aromatics formation. Fuel Processing Technology, 2023, 248: 107824.
[5] Chen Jingyu, Han Seung Ju, Jun Ki-Won*, et al. Benchmarking promoters of Fe/activated carbon catalyst for stable hydrogenation of CO2 to liquid hydrocarbons. Applied Catalysis B: Environmental, 2023, 325: 122370.
[6] Hwang Sun-Mi, Han Seung Ju, Jun Ki-Won*, et al. Atomically Alloyed Fe–Co Catalyst Derived from a N-Coordinated Co Single-Atom Structure for CO2 Hydrogenation. ACS Catalysis, 2021, 11(4): 2267-78.
[7] Hwang Sun-Mi, Zhang Chundong, Jun Ki-Won*, et al. Mesoporous carbon as an effective support for Fe catalyst for CO2 hydrogenation to liquid hydrocarbons. Journal of CO2 Utilization, 2020, 37: 65-73.
[8] Kim Sungtak, Park Gyungah, Jun Ki-Won, et al. Gd/HZSM-5 catalyst for conversion of methanol to hydrocarbons: Effects of amounts of the Gd loading and catalyst preparation method. Applied Catalysis B: Environmental, 2018, 220: 191-201.
[9] Zhang Chundong, Jun Ki-Won*, Gao Ruxing, et al. Carbon dioxide utilization in a gas-to-methanol process combined with CO2/Steam-mixed reforming: Techno-economic analysis. Fuel, 2017, 190: 303-11.
[10] Zhang Chundong, Jun Ki-Won*, Ha Kyoungsu, et al. Efficient Utilization of Greenhouse Gases in a Gas-to-Liquids Process Combined with CO2/Steam-Mixed Reforming and Fe-Based Fischer–Tropsch Synthesis. Environmental Science & Technology, 2014, 48(14): 8251-7.
代表性专利:
[1] Jun Ki-Won, Lee Yun Jo, Kwak Geun Jae, et al. Method for directly synthesis of monocyclic aromatic compounds and long-chain olefin compounds from carbon dioxide-rich synthesis gas. 2021.06.16. Europe (EP 3243891).
[2] Ha Kyoung Su, Kwak Geun Jae, Jun Ki-Won, et al. Method for storing activated fischer-tropsch synthesis catalyst. 2020.09.02. Europe (EP 3075450).
[3] Jun Ki Won, Choi In Hyuck, Zhang Chundong. Method for producing high-efficiency methanol capable of reducing emission of carbon dioxide. 2020.05.27. Europe (EP 3178804).
[4] Kim Sung Tak, Kwak Geun Jae, Jun Ki-Won, et al. Gd-containing, anti-coking solid acid catalysts and preparation method and use thereof. 2019.06.04. USA (US 10307735).
[5] 河灵秀,郭根在,全基元等。用于费-托合成的活化催化剂的储存方法。2019.06.04. China (CN 105358252).
[6] Jun Ki-Won, Choi In Hyuck, Zhang Chundong. Method for producing high-efficiency methanol capable of reducing emission of carbon dioxide. 2019.02.26. USA (US 10214469).
[7] Jun Ki-Won, Lee Yun Jo, Kwak Geun Jae, et al. Method for preparing monocyclic aromatic compounds and long-chain olefin compounds from carbon dioxide-rich synthesis gas. 2019.02.19. USA (US 10208256).
[8] Bae Jong-Wook, Kang Suk-Hwan, Jun Ki-Won, et al. Method of direct synthesis of light hydrocarbons from natural gas. 2018.10.24. Europe (EP 2197816)
[9] Ha Kyoung Su, Kwak Geun Jae, Jun Ki-Won, et al. Catalyst activation method for fischer-tropsch synthesis. 2016.02.16. USA (US 9259717).
[10] Ha Kyoung Su, Cheon Joo Young, Jun Ki-Won, et al. Catalyst for Fischer-Tropsch synthesis having excellent heat transfer capability. 2016.02.04. Australia (AU 2012248972).