煤基、生物基等清洁燃料与化学品合成的新催化反应与过程研究。

（1）甲醇等含氧小分子缩合转化

（2）甲烷、二氧化碳转化利用

070304-物理化学
081705-工业催化

甲醇催化转化
工业催化
化学工程

2011-06~现在, 中科院山西煤炭化学研究所, 助理研究员、副研究员
2006-07~2007-06,长治学院, 助教

   

1. Direct synthesis of acrylic acid from methanol and acetic acid over a constructed TiO₂-coated NASICON catalyst, J Catal., 436(2024), 115612.通讯作者
2. Dry Reforming of Methane over Pyrochlore-Type La₂Ce₂O₇-Supported Ni Catalyst: Effect of Particle Size of Support, Molecules, 29(2024), 1871. 通讯作者
3. MOFs-derived Ni@ZrO₂catalyst for dry reforming of methane: tunable metal-support interaction, Mol. Catal., 558(2024), 114028.  通讯作者.
4. Unsaturated penta-coordinated Mo_5c⁵⁺sites enabled low temperature oxidation of C−H bonds in ethers. JACS Au, 23(2023), 3141 (cover).  通讯作者
5. Promotional effect of Cs modification to NASICON material on aldol condensation of acetic acid and formaldehyde to acrylic acid, Fuel, 346(2023) 128414.  通讯作者
6. Highly efficient acrylic acid production from formaldehyde and acetic acid over the NASICON-type catalyst, Chem. Commun., 59(2023), 1489.  通讯作者
7. Ni/Y₂O₃-ZrO₂catalysts for dry reforming of methane: Increased Y content boosted the performance via enhancing metal-support interaction and surface oxygen species, Fuel, 340(2023) 127543.  通讯作者
8. Promotional effect of dispersant modification to ZnCr on CO₂hydrogenation into aromatics over hybrid catalysts, Ind. Eng. Chem. Res., 61(2022), 10766.  第一作者
9. A novel and environmentally friendly NASICON-type material: efficient catalyst for condensation of formaldehyde and acetic acid to acrylic acid and methyl acrylate, Chem. Eng. J., 446(2022),137324.  通讯作者
10. Dry reforming of methane over the Ni/Y₂O₃-ZrO₂catalysts: Effects of the tunable surface oxygen species by modulating the zirconium precursors, Appl. Catal. A: Gene., 639(2022), 118639.  通讯作者
11. Effects of calcination atmosphere on the performance of the co-precipitated Ni/ZrO₂catalyst in dry reforming of methane, Can. J. Chem. Eng., 100(2022), S172.  通讯作者
12. Induced high selectivity methanol formation during CO₂hydrogenation over a CuBr₂-modified CuZnZr catalyst, J. Catal., 389(2020) 47. 通讯作者
13. How the reflux treatment stabilizes the metastable structure of ZrO₂and improves the performance of Ni/ZrO₂catalyst for dry reforming of methane? Energ. Convers. Manage., 216 (2020) 112950.  通讯作者
14. Effects of the surface adsorbed oxygen species tuned by rare-earth metal doping on dry reforming of methane over Ni/ZrO₂catalyst,Appl. Catal. B Environ., 264(2020), 118522.  通讯作者
15. Understanding the correlation between calcination temperature and performance in low-temperature methanation over Ni-Zr/Al₂O₃catalysts, Can. J. Chem. Eng., 98(2020) 1525. 第一作者
16. Effect of Vapor-phase-treatment to CuZnZr Catalyst on the Reaction Behaviors in CO₂Hydrogenation into Methanol, ChemCatChem, 11(2019), 1. (cover)  通讯作者
17. Insight into the effects of the oxygen species over Ni/ZrO₂catalyst surface on methane reforming with carbon dioxide, Appl. Catal. B Environ., 244 (2019) 427.  通讯作者
18. Hydrogenation of CO₂into aromatics over a ZnCrO_x-zeolite composite catalyst, Chem. Commun., 55(2019), 973. 第一作者
19. Effect of alkaline-earth metals on synthesis of isobutyraldehyde from methanol and ethanol over Cu-MeO_x/Ti-SBA-15 catalysts (Me=Mg, Ca, Sr, Ba), Can. J. Chem. Eng., 97(2019), 1139.  第一作者
20. Direct synthesis of isobutyraldehyde from methanol and ethanol on Cu-Mg/Ti-SBA-15 catalysts: the role of Ti, New J. Chem., 41(2017), 9639.  第一作者
21. Ti-SBA-15 supported Cu-MgO catalyst for synthesis of isobutyraldehyde from methanol and ethanol, RSC Adv., 6(2016), 85940.  第一作者
22. Low-temperature methanation of syngas in slurry phase over Zr-doped Ni/γ-Al₂O₃catalysts prepared using different methods, Fuel, 132 (2014) 211.  第一作者
23. Na₂HPO₄-modified NaY nanocrystallites: efficient catalyst for acrylic acid production through lactic acid dehydration,Au Chak-Tong. Catal. Sci. Technol., 4(2014) 1376.  第一作者
24. Sodium nitrate modified SBA-15 and fumed silica for efficient production of acrylic acid and 2,3-pentanedione from lactic acid,  J. Ind. Eng.Chem., 20(2014) 1353.  第一作者
25. Efficient Acrylic Acid Production through Bio-Lactic Acid Dehydration over NaY Zeolite Modified by Alkali Phosphates, ACS Catal., 1(2011) 32.  第一作者