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徐文涛

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徐文涛

导师姓名: 徐文涛

导师职称: 教授

电子邮箱: wentaoxu@xtu.edu.cn

办 公 室 : 化学工程系

个人主页:https://gmsadm.xtu.edu.cn/dsxxgl/dsfc/grxx?newid=C5428FD1-2E45-4A8B-8A3A-51C8C29B934A

个人简介

        徐文涛,中共党员,博士,教授,太阳成集团tyc7111cc化学工程与工艺系教授,博士生导师。入选中国化工学会微波能化工应用专委会委员,湖南省高校青年骨干教师培养对象,湘潭市高层次人才。

  目前主要研究方向为微波催化与微波催化反应过程、绿色催化及反应工程、新型纳米催化材料与功能材料的制备及其应用。现主持国家自然科学基金面上项目和青年项目、湖南省教育厅优秀青年项目、湖南省自然科学基金面上项目和青年项目、中国博士后面上基金项目、太阳集团官方网站入口博士科研启动项目等项目;并参与国家自然科学基金项目多项。近几年在Chem CommunChem Eng JAppl Catal B-EnvironChemCatChemCatal Sci TechnolEnergy Convers Manage等国际重要期刊上发表SCI论文20余篇。受邀与微波领域著名学者合作RSC 英文学术专著一章节(Advances in Microwave-assisted Heterogeneous CatalysisBook)。申请专利16余项,目前授权10项。曾获湖南省自然科学二等奖(排名第2)、湖南省优秀博士论文、太阳集团官方网站入口博士研究生董事长奖特等奖、博士研究生国家奖学金、湖南省优秀毕业生、太阳集团官方网站入口优秀班主任、太阳集团官方网站入口优秀党员等荣誉。指导研究生获太阳集团官方网站入口研究生董事长奖特等奖、研究生国家奖学金、湖南省优秀硕士学位论文、伟人之托奖学金等荣誉。指导多名毕业生进入浙江大学、厦门大学、天津大学、中科院等名校继续深造。

研究团队其他成员: 周继承 教授(课题组组长),蔡进军 副教授/博士

本研究团队(周继承教授课题组)常年可招收多名硕士生和博士生,欢迎化学、化工等相关专业考生报考或调剂研究生。

研究方向

1. 微波催化与微波催化反应过程;

2. 绿色催化及反应工程;

3. 新型纳米催化材料与功能材料的制备及其应用。

科研项目

1. 2022-2025 国家自然科学基金面上项目(编号:22178295)

2. 2018-2020 国家自然科学基金青年项目(编号:21706225)

3. 2019-2021 湖南省教育厅优秀青年基金(编号:19B540)

4. 2020-2022 湖南省自然科学基金面上项目(编号:2020JJ4572)

5. 2017-2019 湖南省自然科学基金青年项目(编号:2017JJ3298)

6. 2017-2018 中国博士后基金面上项目(编号:2017M612572)

主要代表性论文

共发表SCI论文20余篇,以下代表性论文均为第一/通讯作者发表:

[21] Chunmu Yu, Ting Pan, Xinying Zhu, Qian Peng, Yuhan Yi, Jicheng Zhou*, Wentao Xu*, Highly effective and energy-saving adsorption-microwave catalytic decomposition of NO with novel high-adsorption-capacity adsorbent in a two-stage fixed-bed reactor, Separation and Purification Technology, 2023, 322, 124281.

[20] Chunmu Yu, Yuhan Yi,  Jicheng Zhou*,  Wentao Xu*,   Highly effective and energy-saving removal of NO through an adsorption-microwave catalytic decomposition method under complex flue gas at low temperature, Inorganic Chemistry Frontiers , 2023,10, 3808-3820. (正封面论文).

[19] Zhongchen Ma, Wentao Xu*, Qige Wang, Qi Zhou, Jicheng Zhou, Highly effective microwave catalytic oxidative dehydrogenation of propane by CO2 over V-La-doped dendritic mesoporous silica-based microwave catalysts, Chemical Engineering Journal, 2022, 435, 135081.

[18] Ran Li, Wentao Xu*, Jie Deng, Jicheng Zhou, Coke-resistance Ni-Co/ZrO2-CaO based microwave catalyst for highly effective dry reforming of methane by microwave catalysis, Industrial & Engineering Chemistry Research, 2021, 60, 17458-17468.

[17]Jianan Chen, Jun Zhu, Wentao Xu*, Yi Chen, Jicheng Zhou, Highly efficient H2 and S production from H2S decomposition via microwave catalysis over a family of TiO2 modified MoxC microwave catalysts, Fuel Processing Technology, 2022, 226, 107069.

[16] Qige Wang, Wentao Xu*, Zhongchen Ma, Fei Yu, Yi Chen, Huanyu Liao, Xianyou Wang, Jicheng Zhou*, Highly effective direct dehydrogenation of propane to propylene by microwave catalysis at low temperature, ChemCatChem, 2021,13, 1009-1022.

[15] Jun Zhu, Wentao Xu*, Jianan Chen, Zhaowang Gan, Xianyou Wang, Jicheng Zhou*, Development of Core-Shell structured Mo2C@BN as novel microwave catalysts for highly effective direct decomposition of H2S into H2 and S at low temperature, Catalysis Science & Technology, 2020,10, 6769-6779.

[14] Jianan Chen,Wentao Xu*, Jun Zhu, Xianyou Wang, Jicheng Zhou*, Highly effective direct decomposition of H2S by microwave catalysis on core-shell Mo2N-MoC@ SiO2 microwave catalyst, Applied Catalysis B: Environmental, 2020, 268, 118454. (Highlighted by研之成理、催化开天地公众号)

[13] Jianan Chen, Wentao Xu*, Jun Zhu, Xianyou Wang, Jicheng Zhou*, Highly effective microwave catalytic direct decomposition of H2S over carbon encapsulated Mo2C–Co2C/SiC composite, International Journal of Hydrogen Energy, 2019, 44, 25680-25694.

[12] Wentao Xu*, Qige Wang, Kang Peng, Fengtao Chen, Xue Han, Xianyou Wang, Jicheng Zhou*, Development of MgCo2O4-BaCO3 Composite as Microwave Catalyst for Highly Effective Direct Decomposition of NO under Excess O2 at Low Temperature, Catalysis Science & Technology, 2019, 9, 4276-4285.

[11] Wentao Xu*, Jianan Chen, Yin Qiu, Wei Peng, Ni Shi, Jicheng Zhou*, Highly efficient microwave catalytic oxidation degradation of 4-nitrophenol over magnetically separable NiCo2O4-Bi2O2CO3 composite without adding oxidant, Separation and Purification Technology, 2019, 213, 426-436.

[10] Wentao Xu, Xiaoning Hu, Min Xiang, Mide Luo, Renjie Peng, Lixin Lan, Jicheng Zhou*, Highly effective direct decomposition of H2S into H2 and S by microwave catalysis over CoS-MoS2/γ-Al2O3 microwave catalysts, Chemical Engineering Journal, 2017, 326, 1020-1029.

[9] Wentao Xu, Mide Luo, Renjie Peng, Min Xiang, Xiaoning Hu, Lixin Lan, Jicheng Zhou*, Highly effective microwave catalytic direct decomposition of H2S into H2 and S over MeS-based (Me = Ni,Co) microwave catalysts, Energy Conversion and Management, 2017, 149, 219-227.

[8] Wentao Xu, Jicheng Zhou*, Yingpiao Ou, Yushang Luo, Zhimin You, Microwave selective effect: a new approach towards oxygen inhibition removal for highly-effective NO decomposition by microwave catalysis over BaMnxMg1-xO3 mixed oxides at low temperature under excess oxygen, Chemical Communications, 2015, 51, 4073-4076.

[7] Wentao Xu, Jicheng Zhou*, Zhimin You, Yushang Luo, Yingpiao Ou. Microwave Irradiation Coupled with Physically Mixed MeOx (Me=Mn, Ni) and Cu-ZSM-5 Catalysts for the Direct Decomposition of Nitric Oxide under Excess Oxygen, ChemCatChem, 2015, 7, 450-458. (内封面论文).

[6] Wentao Xu, Ni Shi, Zhimin You, Jinjun Cai, Kang Peng, Zhiming Su, Jicheng Zhou*, Low-temperature NO decomposition through microwave catalysis on BaMnO3-based catalysts under excess oxygen: Effect of A-site substitution by Ca, K and La, Fuel Processing Technology, 2017, 167, 205-214.

[5] Wentao Xu, Jicheng Zhou*, Zhimin Su, Yingpiao Ou, Zhimin You, Microwave catalytic effect: a new exact reason for microwave-driven heterogeneous gas-phase catalytic reactions, Catalysis Science & Technology, 2016, 6, 698-702.

[4] Wentao Xu, Jinjun Cai, Jicheng Zhou*, Zhimin You, Zhiming Su, Yingpiao Ou, Microwave irradiation coupled with MeOx/Al2O3 (Me=Cu,Mn,Ce) catalysts for highly effective direct NO removal from flue gas at low temperature, Energy Technology, 2016, 4, 856-863.

[3] Jicheng Zhou *, Wentao Xu , Zhimin You, Zhe Wang, Yushang Luo, Lingfei Gao, Cheng Yin, Renjie Peng, Lixin Lan, The nature of microwave driving power for speeding up chemical reactions, Scientific Reports, 2016, 6, 25149; doi: 10.1038/srep25149.

[2] Wentao Xu, Jicheng Zhou*, Hu Li, Pengfei Yang, Zhimin You, Yushang Luo. Microwave-assisted catalytic reduction of NO into N2 by activated carbon supported Mn2O3 at low temperature under O2 excess, Fuel Processing Technology, 2014, 127, 1-6.

[1] Wentao Xu, Jinjun Cai, Jicheng Zhou*, Yingpiao Ou, Wei Long, Zhimin You, Yushang Luo, Highly Effective Direct Decomposition of Nitric Oxide by Microwave Catalysis over BaMeO3 (Me=Mn,Co,Fe) Mixed Oxides at Low Temperature under Excess Oxygen, ChemCatChem, 2016, 8, 417-425.

发明专利

[1]一种负载型金属氧化物催化剂催化直接分解NO脱硝的方法, 2016.10.05授权,中国发明专利, 201410737013.7.

[2]一种催化脱硝的方法, 2016.10.05授权,中国发明专利, 201410736555.2.

[3]一种钙钛矿型催化剂催化直接分解NO脱硝的方法,审中(实审),中国发明专利, 201410737055.0.

[4]一种包覆型催化剂用于催化分解硫化氢的方法,中国发明专利,CN201910064511.2, 2021.11授权

[5]一种复合型催化剂用于催化分解硫化氢的方法,中国发明专利,CN201910223600.7, 2021.09授权

[6]一种包覆型催化剂的制备方法及催化剂,中国发明专利,CN201910064471.1, 2021.11授权

[7]一种异质结催化剂用于催化分解硫化氢的方法,中国发明专利,CN201910224225.8, 2022.01授权

[8]一种复合型催化剂及其制备方法,中国发明专利,CN201910223619.1, 2022.02授权