大连理工大学 登录 English

张安峰

个人信息Personal Information

副教授

博士生导师

硕士生导师

性别:男

毕业院校:大连理工大学

学位:博士

所在单位:化工学院

学科:工业催化

办公地点:大连理工大学西部校区化工实验楼B223

联系方式:0411-84986484;13591142689

电子邮箱:zhangaf@dlut.edu.cn

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2000年毕业于大连理工大学,获应用化学学士学位,2010年获大连理工大学工业催化博士学位;2010-2012年在大连理工大学化学学院进行博士后研究;20131月加入大连理工大学工业催化系,任讲师、副教授。

面向国家新能源化工可持续发展重大需求,围绕催化新材料、催化新反应,在分子筛催化材料的设计与制备、择形催化等领域开展相关研究。发表论文90余篇,申请发明专利20余项,授权专利10余项。先后主持国家自然科学基金项目1项、国家重点研发计划子课题1项;与中海油、中化集团合作项目3项;开发苯与干气制乙苯催化剂,并实现工业化;开发甲苯与甲醇烷基化高选择性制对二甲苯催化剂,完成5000吨工业侧线实验;化学法均四甲苯生产关键技术和成套装备获中国石油和化学工业联合会科技进步二等奖。

 

主要研究领域包括:

1、催化新材料的设计与制备;

2、择形催化剂制备与机理研究;

3、催化新反应

 

欢迎在催化剂合成、多相催化等领域具有研究基础的同学攻读博士学位!

 

近年来主持科研项目:

 

[1] 科技部国家重点研发计划, 2022YFA1503401, 重要催化反应介孔催化材料性能调控及组装策略, 2022-102026-10, 150万元在研主持

[2] 中化泉州能源科技有限责任公司企事业委托, ZHQZKJ-XZ-22-F-ZS-0023, 炼厂C4与甲醇共炼制备乙烯 丙烯小试技术开发, 2022-05 2024-09, 70万元在研主持

[3] 中海油炼油化工科学研究院(北京)有限公司企事业委托, LHYJY/KJ/SA2017-0024, 甲苯甲醇择形烷 基化催化剂制备与失活控制技术研究, 2017-07  2022-04, 258万元结题主持

[4] 中海油炼油化工科学研究院(北京)有限公司企事业委托, LHYJY/KJ/SA2017-0025, 苯与低浓度乙烯烷基化制乙苯工业催化剂的研制, 2017-07  2021-09, 118万元结题主持

 

近年来发表文章:

 

[27] Jiaxing Zhang, Limin Ren, Anfeng Zhang, Xinwen Guo, Chunshan Song*, MFI nanosheets: a rising star in zeolite materials, Materials Chemistry Frontiers, 2024, 8(3): 595-602

[26]Ajuan Zhou, Jiaxing Zhang, Shujie Shang, Hong Yang, Anfeng Zhang*, Chunshan Song, Xinwen Guo*,Tuning Pt Location and Intimacy between Pt-Acid Active Sites in Pt/ZSM-5 Bifunctional Catalysts for Effective Alkylation of Benzene with Ethane,Industrial & Engineering Chemistry Research, 2024, 63(2): 990-999

[25] Jiaxing Zhang, Ajuan Zhou, Kaivalya Gawande, Guanxing Li, Shujie Shang, Chengyi Dai, Wei Fan, Yu Han, Chunshan Song, Limin Ren*, Anfeng Zhang*, Xinwen Guo*, b-Axis-Oriented ZSM-5 Nanosheets for Efficient Alkylation of Benzene with Methanol: Synergy of Acid Sites and Diffusion, Acs Catalysis, 2023, 13(6): 3794-3805

[24] Jiaxing Zhang, Ajuan Zhou, Limin Ren*, Min Yang, Guangjin Hou, Anfeng Zhang*, Chunshan Song, Xinwen Guo*, Regulating acid properties of ZSM-5 nanosheets by Fe incorporation towards high-performance alkylation of benzene with methanol, CHEMICAL ENGINEERING SCIENCE, 2023, 285(2024): 119594

[23] Ajuan Zhou, Jiaxing Zhang, Hong Yang, Shujie Shang, Anfeng Zhang*, Chunshan Song, Xinwen Guo*, Synergetic and efficient alkylation of benzene with ethane over Pt/ZSM-5 nanosheet bifunctional catalysts to ethylbenzene, Fuel, 2023, 342(2023): 1227764.

[22] Jiaxing Zhang, Limin Ren, Ajuan Zhou, Wenhui Li, Shujie Shang, Yi Liu, Zhenghao Jia, Wei Liu, Anfeng Zhang*, Xinwen Guo*, Chunshan Song, Tailored Synthesis of ZSM-5 Nanosheets with Controllable b-Axis Thickness and Aspect Ratio: Strategy and Growth Mechanism, Chemistry of Materials, 2022, 34(7): 3217-3226 

[21] He Han, Hong Yang, Anfeng Zhang*, Limin Ren, Xiaowa Nie, Chaoqiu Chen, Min Liu, Chuan Shi, Chunshan Song, Xinwen Guo*, Design of highly stable metal/ZSM-5 catalysts for the shape-selective alkylation of toluene with methanol to para-xylene, Inorganic Chemistry Fraontiers, 2022, 9(13): 3348-3358

[20] Jie Zhu, Peng Wang, Xiaoben Zhang, Guanghui Zhang, Rongtan Li, Wenhui Li, Thomas P. Senftle, Wei Liu, Jianyang Wang, Yanli Wang, Anfeng Zhang, Qiang Fu, Chunshan Song, Xinwen Guo, Dynamic structural evolution of iron catalysts involving competitive oxidation and carburization during CO2 hydrogenation, Science Advances, 2022, 8(5): 3629-3641

[19] Jianyang Wang, Guanghui Zhang, Jie Zhu, Xinbao Zhang, Fanshu Ding, Anfeng Zhang, Xinwen Guo, Chunshan Song, CO2 Hydrogenation to Methanol over In2O3-Based Catalysts: From Mechanism to Catalyst Development, Acs Catalysis, 2021, 11(3): 1406-1423

[18] Shujie Shang, Wenhui Li, Ajuan Zhou, Jiaxing Zhang, Hong Yang, Anfeng Zhang*, Xinwen Guo*, Fe-Substituted Pt/HZSM-48 for Superior Selectivity of i-C-12 in n-Dodecane Hydroisomerization, Industrial & Engineering Chemistry Research, 2022, 61(2): 1056-1065

[17] Kai Bian, Anfeng Zhang*, Hong Yang, Benhan Fan, Shutao Xu, Xinwen Guo*, Chunshan Song, Synthesis and Characterization of Fe-Substituted ZSM-5 Zeolite and Its Catalytic Performance for Alkylation of Benzene with Dilute Ethylene, Industrial & Engineering Chemistry Research2020, 59(52): 22413-22421

[16] Xinbao Zhang, Anfeng Zhang, Xiao Jiang, Jie Zhu, Junhui Liu, Junjie Li, Guanghui Zhang, Chunshan Song, Xinwen Guo, Utilization of CO2for aromatics production over ZnO/ZrO2-ZSM-5 tandem catalyst, Journal of COUtilization, 2019: 140-145

[15] Junhui LiuAnfeng ZhangXiao JiangMin LiuJie Zhu,Chunshan Song, and Xinwen Guo, Direct Transformation of Carbon Dioxide to Value-Added Hydrocarbons by Physical Mixtures of Fe5C2and K‑Modified Al2O3, Industrial & Engineering Chemistry Research, 2018, 57(28):9120-9126.

[14] Jianyang Wang, Anfeng ZhangXiao JiangChunshan SongXinwen Guo, Highly selective conversion of CO2to lower hydrocarbons (C2-C4) over bifunctional catalysts composed of In2O3-ZrO2and zeolite, Journal of CO2Utilization, 2018: 81-88.

[13] Junhui LiuAnfeng ZhangXiao JiangMin LiuYanwei SunChunshan SongXinwen Guo, Selective COHydrogenation to Hydrocarbons on Cu-Promoted Fe-Based Catalysts: Dependence on Cu–Fe Interaction, ACS Sustainable Chemistry & Engineering, 2018, 6(8): 10182-10190.

[12] Junhui LiuAnfeng ZhangXiao JiangMin LiuJie ZhuChunshan SongXinwen Guo, Direct Transformation of Carbon Dioxide to Value-Added Hydrocarbons by Physical Mixtures of Fe5Cand K-Modified Al2O3, Industrial & Engineering Chemistry Research, 2018, 57(28): 9120-9126.

[11] Chengyi DaiAnfeng ZhangChunshan SongXinwen Guo, Advances in the synthesis and catalysis of solid and hollow zeolite-encapsulated metal catalysts, Advances in Catalysis, 2018:75-115.

[10] Junhui Liu, Anfeng Zhang, Min Liu, Shen Hu, Fanshu Ding, Chunshan Song, Xinwen Guo. Fe-MOF-derived highly active catalysts for carbon dioxide hydrogenation to valuable hydrocarbons, Journal of CO2 Utilization, 2017: 100-107.

[9] Wenhui Li, Anfeng Zhang, Xiao Jiang, Chen Chen, Zhongmin Liu, Chunshan Song, and Xinwen Guo.Low Temperature CO2 Methanation: ZIF-67-Derived Co-Based Porous Carbon Catalysts with Controlled Crystal Morphology and Size. ACS Sustainable Chemistry & Engineering, 2017 5 (9), 7824-7831

[8] Yiren Wang, Min Liu, Anfeng Zhang, Yi Zuo, Fanshu Ding, Yang Chang, Chunshan Song, Xinwen Guo. Methanol Usage in Toluene Methylation over Pt Modified ZSM-5 Catalyst: Effects of Total Pressure and Carrier Gas, Industrial & Engineering Chemistry Research, 2017, 56 (16): 4709-4717.

[7] Lei Luo, Anfeng ZhangMichael J. Janik, Keyan Li, Chunshan Song, Xinwen Guo. Facile fabrication of ordered mesoporous graphitic carbon nitride for RhB photocatalytic degradation,  Applied Surface Science, 2017: 78-84.

[6] Chengyi Dai, Anfeng Zhang, Lei Luo, Xinbao Zhang, Min Liu, Junhu Wang, Xinwen Guo, Chunshan Song. Hollow zeolite-encapsulated Fe-Cu bimetallic catalysts for phenol degradation, Catalysis Today, 2017: 335-343.

[5] Chengyi Dai, Anfeng Zhang, Min Liu, Xinwen Guo, Chunshan Song, Hollow Alveolus-Like Nanovesicle Assembly with Metal-Encapsulated Hollow Zeolite Nanocrystals, ACS Nano, 2016, 10, 7401-7408.

[4] Chengyi Dai,Anfeng Zhang, Min Liu, Xinwen Guo, Chunshan Song, Hollow ZSM-5 with Silicon-Rich Surface, Double Shells, and Functionalized Interior with Metallic Nanoparticles and Carbon Nanotubes, Advanced Functional Materials, 2015, 25, 7479-7487.

[3] Chengyi Dai,Anfeng Zhang, Junjie Li, Keke Hou, Min Liu, Chunshan Song, Xinwen Guo, Synthesis of yolk-shell HPW@Hollow silicalite-1 for esterification reaction, Chemical Communications, 2014, 50, 4846-4848. 6

[2] Chengyi Dai, Anfeng Zhang, Lingling Li, Keke Hou, Fanshu Ding, Jie Li, Dengyou Mu, Chunshan Song, Min Liu, Xinwen Guo, Synthesis of Hollow Nanocubes and Macroporous Monoliths of Silicalite-1 by Alkaline Treatment, Chemistry of Materials, 2013, 25, 4197-4205.

[1] Anfeng Zhang, Keke Hou, Lin Gu, Chengyi Dai, Min Liu, Chunshan Song, Xinwen Guo, Synthesis of Silica Nanotubes with Orientation Controlled Mesopores in Porous Membranes via Interfacial Growth, Chemistry of Materials, 2012, 24, 1005-1010.

 

 


  • 教育经历Education Background
  • 工作经历Work Experience
  • 研究方向Research Focus
  • 社会兼职Social Affiliations
  • 催化新材料的设计合成
  • 择形催化
  • 二氧化碳催化转化
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