马越

点击数: 更新日期: 2025-10-07

马越 副教授

性别：男

电子邮箱：mayue@bjfu.edu.cn

办公电话：-

研究方向：木质素催化转化、电催化、环境催化

详细资料

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教育/工作经历

2025.07—至今北京林业大学材料科学与技术学院副教授

2023.01—2025.06 德国慕尼黑工业大学化学系博士后

2021.07—2022.12 清华大学永利集团官网科研助理

2016.08—2021.06 清华大学永利集团官网博士

2019.11—2020.05 美国西北太平洋国家实验室访学博士生

2012.08—2016.07 清华大学永利集团官网学士

主讲课程

本科生课程： -

研究生课程： -

科研工作及成果

从事生物质电催化转化和大气污染物催化净化研究，累计以第一作者身份发表SCI论文14篇，其中中科院1区期刊5篇，最高影响因子21.1（Applied Catalysis B: Environmental，2篇），授权中国发明专利1项。

奖励及荣誉称号

2021年清华大学优秀博士毕业生

2020年博士研究生国家奖学金

2016年清华大学优秀本科毕业生

学术/社会兼职

（1）学术兼职：-

（2）社会兼职：-

学术成果展示（不超30个）

1. Yue Ma, Xiaodong Wu*, Liping Liu, Li Cao, Rui Ran, Zhichun Si, Feng Gao*, Duan Weng*. Critical roles of Cu(OH)₂ in low-temperature moisture-induced degradation of Cu-SAPO-34 SCR catalyst: Correlating reversible and irreversible deactivation. Applied Catalysis B: Environmental, 2020, 278, 119306.

2. Yue Ma, Xiaodong Wu*, Junyu Zhang, Rui Ran, Duan Weng*. Urea-Related reactions and their active sites over Cu-SAPO-34: Formation of NH₃ and conversion of HNCO. Applied Catalysis B: Environmental, 2018, 227, 198-208.

3. Yue Ma, Songqi Cheng, Xiaodong Wu*, Yunzhou Shi, Li Cao, Liping Liu, Rui Ran, Zhichun Si, Jianbo Liu*, Duan Weng*. Low-Temperature solid-state ion-exchange method for preparing Cu-SSZ-13 selective catalytic reduction catalyst. ACS Catalysis, 2019, 9, 6962-6973.

4. Yue Ma¹, Ning Huang¹, Boyang Liu, Xiaocheng Lan, Xiaodong Wu, Tiefeng Wang*. Understanding support effects on Rh₂P catalyzed styrene hydroformylation by combining characterizations and kinetics. Journal of Catalysis, 2024, 433, 115455.

5. Yue Ma¹, Songqi Cheng¹, Xiaodong Wu*, Tongxi Ma, Liping Liu, Baofang Jin, Minghan Liu, Jianbo Liu*, Rui Ran, Zhichun Si, Duan Weng*. Improved hydrothermal durability of Cu-SSZ-13 NH₃-SCR catalyst by surface Al modification: Affinity and passivation. Journal of Catalysis, 2022, 405, 199-211.

6. Yue Ma, Yang Gao, Xiaodong Wu*, Baofang Jin, Rui Ran, Zhichun Si, Duan Weng*. Destructive and protective effects of NH₃ on the low-temperature hydrothermal stability of SAPO-34 and Cu-SAPO-34. ACS Applied Materials & Interfaces, 2022, 14, 43442-43455.

7. Yue Ma, Xiaodong Wu*, Junyu Zhang, Rui Ran, Zhichun Si, Duan Weng*. Deactivation of Cu-SAPO-34 by urea-related deposits at low temperatures and the regeneration. Journal of Environmental Sciences, 2019, 81, 43-51.

8. Yue Ma, Xiaodong Wu*, Songqi Cheng, Li Cao, Liping Liu, Yunfan Xu, Jianbo Liu, Rui Ran, Zhichun Si, Duan Weng*. Relationships between copper speciation and Brønsted acidity evolution over Cu-SSZ-13 during hydrothermal aging. Applied Catalysis A: General, 2020, 602, 117650.

9. Yue Ma, Xiaodong Wu*, Jiancai Ding, Liping Liu, Baofang Jin, Eric D. Walter, Rui Ran, Zhichun Si, Feng Gao*, Duan Weng*. Quasi-Operando quantification of Cu(II) ions in Cu-SSZ-13 catalyst by an NH₃ temperature-programmed reduction method. Chemical Communications, 2021, 57, 1891-1894.

10. 吴晓东，马越，曹丽，冉锐，翁端. 一种制备Cu-SSZ-13催化剂的浸渍-低温固态离子交换法及催化剂的应用. 发明专利号：ZL 201810456322.5. 授权日期：2020.05.25.

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马越