常春然 - 西安交通大学 - 化学工程与技术学院

个人简介

Educational Experience 2009年9月~2013年7月：清华大学，化学系，理学博士，导师：李隽教授 2010年4月~2011年4月：慕尼黑工业大学，化学系，访学交流，合作导师：Notker Roesch 2006年9月~2009年7月：西北大学，化工学院，工学硕士，导师：宋纪蓉教授 2002年9月~2006年7月：西北大学，化工学院，工学学士 Work Experience 2021年11月~至今：榆林学院化学与化工学院院长(兼) 2021年1月~至今：西安交通大学教授、博导 2016年7月~2020年12月：西安交通大学副教授、博导 2013年7月~2016年6月：西安交通大学讲师

研究领域

主要从事与能源、环保相关的催化新材料的设计与构建、多相催化反应机理、以及绿色催化反应体系开发等方面的研究, 主要聚焦于煤基高端化学品开发、天然气/页岩气转化、二氧化碳资源化利用等反应过程

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Gao, X.; Shen H.; Chang, C.-R.* Chemolysis for Efficient and Sustainable Upcycling of Biodegradable Polyester Waste to Value-Added Products. ACS EST Engg. 2024, DOI: 10.1021/acsestengg.4c00376. Yao, X.; Ji, Y.; Huang, Z.-Q.; Zhao, Z.; Gao, P.; Guo, M.; Liu, X.; Meng, C.; Fu, Q.; Chang, C.-R.*; Bao, X.; Hou, G.* Nondissociative Activated Dihydrogen Binding on CeO2 Revealed by High-Pressure Operando Solid-State NMR Spectroscopy. J. Am. Chem. Soc. 2024, 146, 24609-24618. Zhang, H.-X.; Su, X.; Yu, X.-Y.; Huang, Z.-Q.; Yang, B.; Chang, C.-R.* Theoretical insights into the size effect of α-Fe2O3 oxygen carrier on chemical looping reforming of methane. Chem. Eng. Sci. 2024, 299, 120511. Luo, D.-C.; Chang, C.-R.; Hu, Z.* One-Step Encapsulation of TBAB in ZIF‑8 for CO2 Fixation: Revealing the Synergistic Mechanism between TBAB and ZIF‑8. ACS Catal. 2024, 14, 11101-11112. Huang, Z.-Q.; Su, X.; Yu, X.-Y.; Ban, T.; Gao, X.; Chang, C.-R.* Theoretical Perspective on the Design of Surface Frustrated Lewis Pairs for Small-Molecule Activation. J. Phys. Chem. Lett. 2024, 15, 5436–5444. Yu, X.-Y.; Huang, Z.-Q.; Ban, T.; Xu, Y.-H.; Liu Z.-W.*; Chang, C.-R.* Finding Natural, Dense, and Stable Frustrated Lewis Pairs on Wurtzite Crystal Surfaces for Small-Molecule Activation. Angew. Chem. Int. Ed. 2024, 64, e202405405. Xu, W.; Liu, H.-X.; Hu Y.; Wang, Z.; Huang, Z.-Q.; Huang, C.*; Lin, J.; Chang, C.-R.*; Wang, A.; Wang, X.*; Zhang, T. Metal-Oxo Electronic Tuning via In Situ CO Decoration for Promoting Methane Conversion to Oxygenates over Single-Atom Catalysts. Angew. Chem. Int. Ed. 2024, 63, e202315343. Hou, X.-K.; Zhang, H.-X.; Wang Y.-B.; Zhang, J.-P.; Gao, X.; Chen, L.*; Li, C.; Jing, M.-H.; He, Chi.; Lu, Q.; Chang, C.-R.* The fabrication of Mn single atoms/clusters on Al2O3 for enhanced catalytic NO oxidation. Fuel. 2024, 367, 131502. Zhang, H.-X.; Yu, X.-Y.; Su, X.; Gao, X.; Huang, Z.-Q.; Yang, B.; Chang, C.-R.* Dopant-Enhanced harmonization of α-Fe2O3 oxygen migration and surface catalytic reactions during chemical looping reforming of methane. Chem. Eng. J. 2024, 481, 148446. Luo, D.-C.; Zhang, Z.-Y.; Yuan H.; Yu, X.-Y.; Gao, X.; Hu, Z.;* Chang, C.-R.* Ionic liquids bonded in mesoporous HAP serve as efficient catalysts for CO2 fixation. Chem. Eng. J. 2024, 481, 148129. Su, X.; Gao, X.; Yu, X.-Y.; Huang, Z.-Q.;* Chang, C.-R. Design of Cu-based bimetals for ammonia catalytic combustion via DFT-based microkinetic modeling. J. Catal. 2024, 429, 115264. Ban, T.; Yu, X.-Y.; Tian, H.-K.; Huang, Z.-Q.; Chang, C.-R.* One-step conversion of methane and formaldehyde to ethanol over SA-FLP dual-active-site catalysts: A DFT study. Chin. Chem. Lett. 2024, 35, 108549. Yu, X.-Y.; Ban, T.; Su, X.; Huang, Z.-Q.; Chang, C.-R.* Understanding the Facile Heterolytic Dissociation of Hydrogen on Natural Surface Frustrated Lewis Pairs. J. Phys. Chem. C 2023,127, 15139-15147. Yang, D.-Y.; Wang, H.-L.; Liu, C.; Chang, C.-R.* Palladium single-atom catalyst supported on ceria for α-alkylation of ketones with primary alcohols. Catal. Sci. Technol. 2023,13, 3174-3181. Zhang, H.-X.; Huang, Z.-Q.;* Ban, T.; Su, X.; Yang, B.-L.; Chang, C.-R. DFT Studies of CO Reaction Behaviors on α-Fe2O3(001) Oxygen-Vacancy Surface in Chemical Looping Reforming. Chin. J. Chem. Phys. 2023. Liu, L.-P.; Qiu, M.; Liu, S.-Y.; Ma, H.-X.; Huang, Z.-Q.;* Chang, C.-R. Design of Frustrated Lewis Pairs by Functionalizing N-Doped Graphene Edge with Tunable Activity for H2 Dissociation. J. Phys. Chem. C 2023, 127, 6714-6722. Gao, X.; Chang, C.-R.* Preparing Fuel-Range Chemicals via the Direct and Selective Pyrolysis of Disposable Mask Waste for Sustainable Environment. Catalysts. 2023, 13, 743. Huang, Z.-Q.#; He, S.-Y.#(共同一作); Ban, T.; Gao, X.; Xu, Y.-H.; Chang, C.-R.* Mechanistic and microkinetic study of nonoxidative coupling of methane on Pt-Cu alloy catalysts: From single-atom sites to single-cluster sites. Chinese. J. Catal. 2023, 48, 90-100. Ban, T.; Yu, X.-Y.; Kang, H.-Z.; Huang, Z.-Q.; Li, J.; Chang, C.-R.* Design of SA-FLP Dual Active Sites for Nonoxidative Coupling of Methane. ACS Catal. 2023, 13, 2, 1299–1309. Yang, D.-Y.; Wang, H.-L.; Chang, C.-R.* Recent Advances for Alkylation of Ketones and Secondary Alcohols Using Alcohols in Homogeneous Catalysis. Adv. Synth. Catal. 2022, 364, 3100-3121. Zhang, H.-X.;Huang, Z.-Q.; Yang, B.-L.; Chang, C.-R.* Theoretical insights into the oxygen supply performance of α-Fe2O3 in the chemical-looping reforming of methane. Chem. Eng. Sci. 2022, 262, 118041. Ban, T.; Yu, X.-Y.; Kang, H.-Z.; Zhang, H.-X.; Gao, X.; Huang, Z.-Q.; Chang, C.-R.* Design of Single-Atom and Frustrated-Lewis-Pair dual active sites for direct conversion of CH4 and CO2 to acetic acid. J. Catal. 2022, 408, 206-215. Dang, S.-X.; Liu, H.-X.; Ban, T.; Gao, X.; Huang, Z.-Q.; Yang, D.-Y.; Chang, C.-R.* Reaction Mechanism of One-step Conversion of Ethanol to 1,3-Butadiene over Zn-Y/BEA and Superior Catalysts Screening. Chin. J. Chem. Phys. 2022, 35, 4. Gao, X.; Yu, X.-Y.; Chang, C.-R.* Perceptions on the treatment of apparent isotope effects during the analyses of reaction rate and mechanism. Phys. Chem. Chem. Phys. 2022, 24, 15182-15194. Gao, X.*; Chang, C.-R.* Characterizing the sequential effects toward the impregnations of supported bimetallic catalysts. Molecular Catalysis 2022, 527. 112411. Yang, Q.; Liu, H.-X.; Yuan, P.*; Jia, Y.; Zhuang, L.-Z.; Chang, C.-R.*; Yao, X.-D.* Single Carbon Vacancy Traps Atomic Platinum for Hydrogen Evolution Catalysis. J. Am. Chem. Soc. 2022, 144, 2171-2178. Liu, H.-X.; Ban, T.; Yu, X.-Y.; Huang, Z.-Q.; Chang, C.-R.*; Silica-Confined Two-Atom Single-Cluster Catalyst for Direct Nonoxidative Conversion of Methane: A DFT Study. J. Phys. Chem. C. 2021, 125, 42, 23212–23218. Huang, Z.-Q.; Chen, Y.-T.; Chang, C.-R.*; Li, J. Theoretical Insights into Dual-Metal-Site Catalysts for the Nonoxidative Coupling of Methane. ACS Catal. 2021, 11, 13149-13159. Liao, W.-R.; Liu, H.-X.; Qi, L.; Liang, S.-J.*; Luo, Y.; Liu, F.-J.; Wang, X.-Y.; Chang, C.-R.*; Zhang, J.; Jiang, L.-L.*. Lithium/bismuth co-functionalized phosphotungstic acid catalyst for promoting dinitrogen electroreduction with high Faradaic efficiency. Cell. Rep. Phys. Sci. 2021, 2, 100557. Peng, X.-B#.; Liu, H.-X.#(共同一作); Zhang, Y.-Y.#; Huang, Z.-Q.; Yang, L.-L.; Jiang, Y.-F.; Wang, X.-Y.*; Zheng, L.-R.; Chang, C.-R.; Au, C.-T.; Jiang, L.-L.*; Li, J. Highly efficient ammonia synthesis at low temperature over a Ru–Co catalyst with dual atomically dispersed active centers. Chem. Sci. 2021, doi.org/10.1039/D1SC00304F He, S.-Y.; Li, T.-H.; Huang, Z.-Q.; Liu, Y.; Li, J.; Chang, C.-R.*. Screening silica-confined single-atom catalysts for nonoxidative conversion of methane. J. Chem. Phys. 2021, 154, 174706. (SCI, IF: 2.991) Liu, C.; Kang, J.-C.; Huang, Z.-Q.; Song, Y.-H.; Xiao, Y.-S.; Song, J.; He, J.-X.; Chang, C.-R.*; Ge, H.-Q.; Wang, Y.*; Liu, Z.-T.; Liu, Z.-W.*. Gallium nitride catalyzed the direct hydrogenation of carbon dioxide to dimethyl ether as primary product. Nat Commun. 2021, 12:2305. (SCI, IF: 12.121) Huang, Z.-W.; Ban, T.(共同一作); Zhang, Y.; Wang, L.-P.; Guo, S.-F.; Chang, C.-R.*; Jing, G.-H.*. Boosting the thermal stability and catalytic performance by confining Ag single atom sites over antimony-doped tin oxide via atom trapping. Appl. Catal. B: Environ. 2021, 283, 119625. (SCI, IF: 16.683) Liu, Y.; Duan, Z.-H.; Li, J.; Chang, C.-R.*. Gas-Phase Mechanism Study of Methane Nonoxidative Conversion by ReaxFF Method. Acta Phys. -Chim. Sin. 2021, 37(11), 2011012. (SCI, IF: 1.379)