Lu Peng, male, born in August 1986, Doctor of engineering, associate professor, master's tutor, director of the department of chemical engineering. In March 2015, graduated in famousTsubaki Study Group from the University of Toyamain (May 2015). Mainly engaged in the Carbon-one-chemical transformation, dimethyl ethercarbonylation, catalytic hydrogenation, molecular synthesis and other related fields.
Mainly good at research fields: carbon one chemical catalytic transformation
Main research projects and outcomes:
Main research results (papers, patents or works):Published more than 30 papers in ACS Catalysis, Applied Energy, Catalysis Today, Journal of Energy Chemistry, Fuel,Industrial & Engineering Chemistry Research et al, Among them, 19 articles were the first author and corresponding author, Authorized 2 national invention patents,presided over 3 provincial and ministerial-level projects, Department and Bureau-level project: 1, open project of the State Key Laboratory of Efficient Coal Utilization and Green Chemical Industry was jointly built by the Provincial Ministry: 1, Zhejiang Provincial Key Laboratory Open Fund: 1, Zhejiang University of Science and Technology teaching reform project: 1.
Since 2015, it has opened courses in Separation Engineering, Inorganic and Analytical Chemistry B, Physical Chemistry Experiment and so on for undergraduates. He has won the Excellent Young Teacher Grant Program of Zhejiang University of Science and Technology, the Excellence Award of Youth Teaching Skills Competition, and the Excellent Competition Instructor Award. To guide students to win 1 national college students innovation training plan project, 1 Zhejiang new seedling plan project, 2 spring meng projects, 3 second prize of National College Student Chemical Design Competition, 2 third prize of East China College Students Chemical Design Competition in East China Competition, and 7 second prize of Zhejiang College Students Chemical Design Competition.
Email: lvpeng0830@zust.edu.cn .
Department: School of Biology and Chemical Engineering
Representative paper(First author orcorresponding author):
1. Tandem catalysis over tailored ZnO-ZrO2/MnSAPO-34 composite catalyst for enhanced light olefins selectivity in CO2 hydrogenation, Microporous and Mesoporous Materials, (2021) DOI:10.1016/j.micromeso.2021.111105.
2. An efficient microcapsule catalyst for one-step ethanol synthesis from dimethyl ether and syngas, Fuel, 283, (2021) 118971.
3. One-step conversion of syngas to light olefins over bifunctional metal-zeolite catalyst, Chinese Journal of Chemical Engineering, (2020) In press, DOI: 10.1016/j.cjche.2020.09.004.
4. Hydrogenation of CO2 to LPG over CuZnZr/MeSAPO-34 catalysts, New Journal of Chemistry, 44 (2020) 9328-9336.
5. Developing Cu-MOR@SiO2 core-shell catalyst microcapsules for two-stage ethanol direct synthesis from DME and syngas,Industrial & Engineering Chemistry Research, 59 (2020) 3293-3330.Efficient and new production methods of chemicals and liquid fuels by carbon monoxide hydrogenation, ACS Omega, 5 (2020) 49-56.
6. LPGdirectsynthesis fromsyngas over a Cu/ZnO/ZrO2/Al2O3@H-β zeolitecapsulecatalystprepared by afacilephysicalmethod, Chemistry Select, 5 (2020) 1932-1937. Space-confined-self-regulation mechanism from capsule catalyst to realize an ethanol direct synthesis strategy, ACS Catalysis, 10(2019)1366-1374.(Front cover)
7. Influence of tandem catalysis and optimised parameters on syngas‑dimethyl ether Co-fed process for ethanol direct synthesis in a dual bed reactor, Catalysis Letters, 149(2019)3203-3216.
8. CO2 hydrogenation to methanol via in-situ reduced Cu/ZnO catalyst prepared by formic acid assisted grinding, Chemistry Select, 4 (2019) 5667-5677.
9. Direct syngas conversion to liquefied petroleum gas: Importance of a multifunctional metal-zeolite interface, Applied Energy, 208 (2018) 1-7.
10. The design of a CZ@H-β-P catalyst with core shell structure and its application in LPG synthesis from syngas, Fuel, 233 (2018) 157-163.
11. 柠檬酸辅助固相研磨法制备铜基催化剂及在CO2加氢合成甲醇反应中的性能研究, 分子催化, 31 (2017)141-151.
12. 串联催化剂在二甲醚与合成气制备乙醇反应中的性能研究, 应用化工, 46 (2017) 1286-1289.
13. CO2 hydrogenation to methanol over Cu/ZnO catalysts synthesized via a facile solid-phase grinding process using oxalic acid, Korean Institute of Chemical Engineers, 35 (2017) 110-117.
14. Cu/ZnO@H-β催化剂在合成气制备液化石油气反应中的性能研究, 燃料化学学报, 45 (2017) 1122-1129.
15. An in-situ synthesis of low-cost mesostructured nickel nanoparticles embedded carbon/silica composite via a solid–liquid grinding route and its application for the carbon dioxide reforming of methane, International Journal of Hydrogen Energy, 41 (2016) 10680-10687.
16. Sputtered nano-cobalt on H-USY zeolite for selectively converting syngas to gasoline, Journal of Energy Chemistry, 24 (2015) 637-641.
17. Ethanol direct synthesis from dimethyl ether and syngas on the combination of noble metal impregnated zeolite with Cu/ZnO catalyst, Catalysis Today, 232 (2014) 22-26.
18. Sputtered nano-cobalt on H-USY zeolite for selectively converting syngas to gasoline, Journal of Energy Chemistry, 24 (2015) 637-641.
19. Ethanol direct synthesis from dimethyl ether and syngas on the combination of noble metal impregnated zeolite with Cu/ZnO catalyst, Catalysis Today, 232 (2014) 22-26.
Patent of invention:
1. 吕鹏,李航杰,盖希坤,椿范立,杨瑞芹,邢闯.用于甲烷-二氧化碳重整反应的镍基催化剂的制备方法,授权公告号:CN105833872B.
2. 吕鹏,钟涛,申东明,杨瑞芹,吕成学,盖希坤,李音,椿范立. 含Hβ分子筛的核壳催化剂的制备方法及产品和应用,授权公告号:106861751B.
