中国科学院大连化学物理研究所,研究员,博士生导师
Email:ncluo@dicp.ac.cn
教育经历:
(1)2014/09-2020/01 中国科学院大连化学物理研究所,有机化学专业,硕博连读,获博士学位
(2)2010/09-2014/06 华中科技大学,化学工程与工艺专业,获学士学位
工作经历:
(1)2025/10-至今 中国科学院大连化学物理研究所,DNL0603组,研究员
(2)2020/02-2025/09 中国科学院大连化学物理研究所,DNL0603组,副研究员
科研领域:
1. 光催化生物质转化
围绕生物质平台分子和木质素制液体燃料和聚合物单体,发展光催化剂结构调控策略,促进界面电荷转移,实现生物质C–C键断裂或C–C偶联,探究生物质转化的催化机制。
2. 光催化烷烃转化
围绕甲烷、乙烷和丙烷等低碳烷烃选择性转化难题,发展载流子协同催化的半导体光催化剂,探究烷烃C–H键活化和C–C偶联机制,实现甲烷偶联及乙烷、丙烷脱氢等反应,推动烷烃脱氢反应的光催化放大。
3. 光调控热催化
发展光调控热催化中的反应决速步骤的催化方法,从表面科学角度探究光调控化学键活化机制,指导热催化剂的结构设计,提高反应活性或产物选择性。
荣誉获奖情况:
1. 中国催化新秀奖,2025年
2. 张大煜青年学者,2025年
3. 大连市高端人才,2025年
4. 第六届闵恩泽能源化工奖青年进步奖,2025年
5. 中国化学会第一届全国表界面科学会议新锐奖,2025年
6. 大连市自然科学一等奖(排名第2),2023年
7. 辽宁省自然科学学术成果奖一等奖,2022年
8. CPCIF–Clariant可持续发展青年创新奖,2021年
9. 中国科学院院长特别奖,2019年
承担项目:
1. 国家自然科学青年科学基金(B类),主持
2. 国家重点研发计划,主持课题
3. 国家自然科学基金面上项目,主持
4. 辽宁省自然科学基金(B类),主持
5. 国家自然科学青年科学基金(C类),主持
6. 中国科学院青年创新促进会会员项目,主持
发表文章:
[1] P. Jin, P. Guo, N. Luo, H. Zhang, C. Ni, R. Chen, W. Liu, R. Li, J. Xiao, G. Wang, F. Zhang, P. Fornasiero, F. Wang. Photochemical H2 dissociation for nearly quantitative CO2 reduction to ethylene. Science, 2025, 389(6764), 1037-1042.
[2] Z. Gao, P. Ren, L. Sun, N. Luo, F. Wang. Photocatalysts for steering charge transfer and radical reactions in biorefineries. Nat. Synth., 2024, 3(4), 438-451.
[3] N. Luo, T. Montini, J. Zhang, P. Fornasiero, E. Fonda, T. Hou, W. Nie, J. Lu, J. Liu, M. Heggen, L. Lin, C. Ma, M. Wang, F. Fan, S. Jin, F. Wang. Visible-light-driven coproduction of diesel precursors and hydrogen from lignocellulose-derived methylfurans.Nat. Energy, 2019, 4(7), 575-584.
[4] P. Ren, Z. Gao, T. Montini, Z. Zhao, N. Ta, Y. Huang, N. Luo, E. Fonda, P. Fornasiero, F. Wang. Stepwise photoassisted decomposition of carbohydrates to H2. J oule, 2023, 7(2), 333-349.
[5] Z. Gao, T. Montini, J. Mu, N. Luo, E. Fonda, P. Fornasiero, F. Wang. Photocatalytic methanol dehydrogenation promoted synergistically by atomically dispersed Pd and clustered Pd. J. Am. Chem. Soc., 2024, 146(35), 24440-24449.
[6] Z. Gao, J. Mu, J. Zhang, Z. Huang, X. Lin, N. Luo, F. Wang. Hydrogen bonding promotes alcohol C-C coupling. J. Am. Chem. Soc., 2022, 144(41), 18986-18994.
[7] X. Wang, X. Xin, L. Xiong, J. Yang, T. Wang, Y. Yang, Z. Huang, N. Luo, J. Tang, F. Wang. Buffered Hydroxyl Radical for Photocatalytic Non-Oxidative Methane Coupling. Angew. Chem. Int. Ed., 2025, 64, e202420606.
[8] Q. Xu, P. Ren, Y. Peng, N. Luo, Z. Gao, C. Meng, J. Zhang, F. Wang. Photocatalytic 2-iodoethanol coupling to produce 1,4-butanediol mediated by TiO2 and a catalytic nickel complex. Angew. Chem. Int. Ed., 2023, 62, e202301668.
[9] X. Wang, Y. Guo, J. Cao, Y. Zou, X. Chen, Z. Gao, Y. Song, N. Luo, F. Wang. Lignocellulosic biomass conversion into CO and H2 via sunlight-enhanced lattice oxygen recycling in perovskite oxides. J. Energy Chem., 2026, 114, 237-246.
[10] G. Zhu, T. Wang, S. Zhang, X. Yang, W. Liu, X. Wang, N. Luo, H. Yu. Pt single atoms as electron shuttle for high-quantum-efficient photocatalytic methanol dehydrogenation. Chem. Eng. J., 2025, 524.
[11] Y. Peng, X. Li, C. Jin, G. Feng, J. Chen, H. Jiang, N. Luo, W. Yang. Preparation of adipic acid from glycerol derivative by photodehalogenative C–C homocoupling: Synergistic effect of Ag cocatalyst and alkali. J. Catal., 2025, 442.
[12] S. Liu, W. Liu, N. Luo. Photocatalytic coproduction of diesel fuel precursors and H2promoted by [HSO4−] and water. ChemSusChem, 2025, e2500208.
[13] L. Sun, N. Luo. Catalyst design and structure control for photocatalytic refineries of cellulosic biomass to fuels and chemicals. J. Energy Chem., 2024, 94, 102-127.
[14] L. Sun, S. Liu, T. Liu, D. Lei, N. Luo, F. Wang. Engineering the coordination structure of Cu for enhanced photocatalytic production of C1chemicals from glucose. Chin. J. Catal., 2024, 63, 234-243.
[15] S. Liu, Y. Huang, N. Luo, J. Zhang, B. Qiao, F. Wang. Water-mediated photocatalytic coproduction of diesel fuel additives and hydrogen from dimethyl ether. ACS Catal., 2024, 14(9), 6807-6815.
[16] P. Jin, N. Luo, F. Wang. Analogy in the mechanism of heterolytic H2dissociation. ACS Catal., 2024, 14(24), 18639-18650.
[17] L. Sun, Y. Huang, S. Liu, X. Liu, N. Luo, F. Wang. Photocatalytic reductive C–O bond scission promoted by low-work-function Cd single atoms and clusters. Chem. Commun., 2023, 59(15), 2102-2105.
[18] P. Ren, Y. Zhou, K. Su, L. Sun, N. Luo, F. Wang. Visible-light-driven furfural oxidation over CuOx/Nb2O5. Chem Asian J, 2023, 18(22), e202300732.
[19] X. Wang, N. Luo, F. Wang. Advances and challenges of photocatalytic methane C–C coupling. Chin. J. Chem., 2022, 40(12), 1492-1505.
[20] N. Luo, W. Nie, J. Mu, S. Liu, M. Li, J. Zhang, Z. Gao, F. Fan, F. Wang. Low-work function metals boost selective and fast scission of methanol C-H bonds. ACS Catal., 2022, 12(11), 6375-6384.
[21] Z. Gao, N. Luo, Z. Huang, S. H. Taylor, F. Wang. Controlling radical intermediates in photocatalytic conversion of low-carbon-number alcohols. ACS Sustainable Chem. Eng., 2021, 9(18), 6188-6202.
[22] N. Luo, T. Hou, S. Liu, B. Zeng, J. Lu, J. Zhang, H. Li, F. Wang. Photocatalytic coproduction of deoxybenzoin and H2through tandem redox reactions. ACS Catal., 2020,10(1), 762-769.
[23] N. Luo, M. Wang, H. Li, J. Zhang, T. Hou, H. Chen, X. Zhang, J. Lu, F. Wang. Visible-light-driven self-hydrogen transfer hydrogenolysis of lignin models and extracts into phenolic products. ACS Catal., 2017, 7(7), 4571-4580.
[24] N. Luo, M. Wang, H. Li, J. Zhang, H. Liu, F. Wang. Photocatalytic oxidation–hydrogenolysis of lignin β-O-4 models via a dual light wavelength switching strategy. ACS Catal., 2016, 6(11), 7716-7721.
申请专利:
[1]王峰,罗能超,王敏,侯婷婷,迟日涵,李宏基,刘慧芳。一种光催化裂解木质素的方法,ZL201710083280.0
[2]王峰,罗能超,侯婷婷,王敏。一种光催化甲苯偶联制备联苄的方法,ZL201711306019.9
[3]王峰,罗能超,侯婷婷,张健。一种光催化生物平台化合物制备生物柴油的方法,ZL201811411728.8
[4]王峰,罗能超,高著衍,刘诗阳。一种光催化甲醇制备乙二醇的方法,ZL201911249581.1
[5]王峰,罗能超,张健,刘诗阳。一种生物质平台化合物光催化合成柴油前体的方法,ZL202010959469.3
