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王爱勇


王爱勇,博士,副教授,博士生导师/硕士生导师,无党派人士

国家重点研发计划首席青年科学家

上海市海外高层次人才

办公室:上海市徐汇校区实验八楼233

邮箱:wangaiyong@ecust.edu.cn

电话:021-64252923


招生专业:

学术硕士:工业催化

工程硕士:材料与化工

博士生:工业催化


教育经历

2008.09-2012.06,华东理工大学,学士

2012.09-2018.01,华东理工大学,博士

2015.09-2017.09,美国西北太平洋国家实验室,联合培养博士


工作经历

2018.03-2021.03,瑞典查尔姆斯理工大学,博士后/研究员

2021.04-2023.01,上海大学,理学院,副教授

2023.02-至今,华东理工大学,化学与分子工程学院,副教授


研究方向

主要研究方向为大气污染控制化学、环境催化、分子筛材料合成与应用等。发表SCI论文40余篇,其中以第一作者或通讯作者在包括Nat. Catal., Nat. Commun., Appl. Catal. B等国际期刊发表论文30余篇。


项目及荣誉

  1. 国家重点研发计划青年科学家项目(2023YFA1508500),低温氮氧化物高效脱除催化剂研究,400万,2023.12-2028.11,主持

  2. 上海市海外高层次人才计划,75万,2021.04-2024.03,主持

  3. 国家自然科学青年基金(22106101),30万,2022.01-2024.12,主持

  4. 中央高校基本科研业务费,2023,主持

  5. 企业横向项目,2023,主持

  6. 国家重点研发计划(2021YFB3500600),非电行业复杂工况烟气深度净化稀土脱硝催化剂研发及应用,2021.12-2025.11,参与

  7. 国家重点研发计划(2023YFC3707500),含杂原子VOCs高效回收与安全治理技术与应用,2023.12-2027.11,参与

  8. 华东理工大学 化学与分子工程学院 “化学之星”,2023

  9. 国家留学基金委公派留学奖学金,2015

  10. 华东理工大学理工优秀毕业生,2012


代表性论文

[1]A. Wang, L. Olsson, The impact of automotive catalysis on the United Nations sustainable development goals, Nature Catalysis, 2 (2019) 566–570. (中科院1IF=37.80)

[2] A. Wang, Y. Chen, E.D. Walter*, N.M. Washton, D. Mei*, T. Varga, Y. Wang, J. Szanyi, Y. Wang, C.H.F. Peden, F. Gao*, Unraveling the mysterious failure of Cu/SAPO-34 selective catalytic reduction catalysts, Nature Communications, 10 (2019) 1137. (中科院1IF=16.60)

[3] B. Xie, Z. Wei, M. Ding, M. Gao, L. Wang, W. Zhan, Q. Dai, Y. Guo, A. Wang*, Y. Guo*, Enhanced Ru-O-Ce interaction by solid solution structure of Ru-CexZr1-xO2 catalysts for efficient catalytic combustion of vinyl chloride, Applied Catalysis B: Environment and Energy, 350 (2024) 123926. (中科院1IF=22.10)

[4] X. Guo, C. Dong, M. Gao, D. Ye, Q. Dai*, W. Zhan, Z. Wang, L. Wang, A. Wang*, Y. Guo, Y. Guo*, Crystal-facet-dependent activity and N2 yield of Ag/CeO2 catalysts for catalytic oxidation of N, N-Dimethylformamide, Applied Catalysis B: Environmental, 341 (2024) 123286. (中科院1IF=22.10)

[5] M. Wang, G. Li, S. Wang, X. Liu, A. Wang*, H. Cao, C. Zhang*, Catalytic oxidation of propane over nanorod-like TiO2 supported Ru catalysts: Structure-activity dependence and mechanistic insights, Chemical Engineering Journal, (2024) 148344. (中科院1IF=15.10)

[6] Y. Cai, M. Li, M. Gao, B. Xie, A. Wang*, W. Zhan*, L. Wang, Q. Dai, Y. Guo, Y. Guo*, Effect of acid modification on the catalytic combustion of 1,2-dichloroethane: Revealing the synergy between NbOx and CeO2, Separation and Purification Technology, 334 (2024) 126069. (中科院1IF=8.60)

[7] B. Lin, Z. Bao, A. Wang*, Y. Ding, W. Zhan, L. Wang*, Y. Guo, Qiguang Dai, Y. Guo*, F. Gao*, An efficient Co-Ni hydrous oxide catalyst for elimination of NO pollutant in semi-enclosed spaces at ambient temperature, Applied Catalysis B: Environmental, 337 (2023) 122984. (中科院1IF=22.10)

[8] A. Wang*, M. Elena Azzoni, J. Han, K. Xie, L. Olsson*, Insight into the effect of phosphorus poisoning of Cu/zeolites with different framework towards NH3-SCR, Chemical Engineering Journal, 454 (2023) 140040. (中科院1IF=15.10)

[9] Y. Shen, T. Li, J. Yang, A. Wang*, L. Wang*, W. Zhan, Y. Guo, Y. Guo*, Enhanced low-temperature performance of Al-rich Cu-SSZ-13 by Ce modification upon hydrothermal aging for NH3-SCR, Chemical Engineering Journal, 473 (2023) 145275. (中科院1IF=15.10)

[10] Y. Shen, W. Dong, L. Zhang, L. Wang, B. Chen, Y. Guo, W. Zhan, A. Wang*, C. Ge*, Y. Guo*, Revealing the mechanism of K-enhanced Cu-SSZ-13 catalysts against hydrothermal aging and P-poisoning for NOx reduction by NH3-SCR, Separation and Purification Technology, 330 (2023) 125248. (中科院1IF=8.60)

[11] A. Wang, K. Xie*, D. Bernin, A. Kumar, K. Kamasamudram, L. Olsson*, Deactivation mechanism of Cu active sites in Cu/SSZ-13‒Phosphorus poisoning and the effect of hydrothermal aging, Applied Catalysis B: Environmental, 269 (2020) 118781. (中科院1IF=22.10)

[12] A. Wang, K. Lindgren, M. Di, D. Bernin, P.-A. Carlsson, M. Thuvander, L. Olsson*, Insight into hydrothermal aging effect on Pd sites over Pd/LTA and Pd/SSZ-13 as PNA and CO oxidation monolith catalysts, Applied Catalysis B: Environmental, 278 (2020) 119315. (中科院1IF=22.10)

[13] A. Wang, L. Olsson*, Insight into the SO2 poisoning mechanism for NOx removal by NH3-SCR over Cu/LTA and Cu/SSZ-13, Chemical Engineering Journal, 395 (2020) 125048. (中科院1IF=15.10)

[14] B. Lin#, A. Wang#, Y. Guo*, Y. Ding, W. Zhan*, L. Wang, Y. Guo, F. Gao*, Elimination of NO pollutant in semi-enclosed spaces over sodium-promoted cobalt oxyhydroxide (CoOOH) by oxidation and adsorption mechanism, Applied Catalysis B: Environmental, 279 (2020) 119404. (中科院1IF=22.10)

[15] A. Wang, P. Arora, D. Bernin, A. Kumar, K. Kamasamudram, L. Olsson*, Investigation of the robust hydrothermal stability of Cu/LTA for NH3-SCR reaction, Applied Catalysis B: Environmental, 246 (2019) 242-253. (中科院1IF=22.10)

[16]A. Wang, Y. Wang, E.D. Walter, R.K. Kukkadapu, Y. Guo*, G. Lu, R.S. Weber, Y. Wang, C.H. Peden, F. Gao*, Catalytic N2O decomposition and reduction by NH3 over Fe/Beta and Fe/SSZ-13 catalysts, Journal of Catalysis, 358 (2018) 199-210. (中科院1IF=7.30)

[17] A. Wang, Y. Guo*, F. Gao*, C.H. Peden, Ambient-temperature NO oxidation over amorphous CrOx-ZrO2 mixed oxide catalysts: Significant promoting effect of ZrO2, Applied Catalysis B: Environmental, 202 (2017) 706-714. (中科院1IF=22.10)


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