戴文新
日期:2021-11-01 阅读次数: 作者: 来源:beat365

 



姓    名:    戴文新
性    别:

     男    

职    称: 研究员
学    历: 博士研究生
职    务:
电    话: 0591-22865893
专    业: 物理化学
电子邮件: daiwenxin@fzu.edu.cn
研究方向: 光催化、多相催化

 

教育工作经历

1985-1989年,江西大学化学系,本科;
1989-1997年,清华同方713厂,技术员、工程师;
1997-2000年,南开大学化学系,硕士研究生;
2000-2002年,北京海顺德钛催化剂公司(中石油),工程师;
2002年起,beat365正版唯一官网光催化研究所工作,从事教学科研工作;
2007年,beat365正版唯一官网化学系,获博士学位。
 

 

教学简介

现教授本科生课程《物理化学》和研究生课程《催化剂制备与表征》


科研简介

  国家环境光催化工程技术研究中心副主任,beat365正版唯一官网“嘉锡学者”。主要从事光催化基础及应用研究,主持并承担了国家自然科学基金、科技部973项目等国家级项目10项,福建省自然科学基金、福建省重大研发平台、福建省科技厅重点等省部级项目5项;在国内外期刊发表论文50余篇,获国家授权发明专利30余件;主持开发了光催化自洁涂料、光催化防污闪高压绝缘子、光催化净化空气材料和防护材料等技术和产品,主导制定国家产品标准“建筑外表面用自清洁涂料” (GB/T31815-2015)。

  

社会兼职

 全国感光协会光催化专业委员会常务委员,全国硅酸盐学会薄膜与涂层分会理事,全国环保产品标准化技术委员会成员。 

 

科研项目

(1)国家自然科学基金,光响应对CO在过渡金属催化剂表面的吸附活化及加氢行为的作用研究(21872030),项目负责人。

(2)国家自然科学基金,TiO2的光助导电性、光助气敏性及光催化性能的关系研究(21273037),项目负责人
(3)国家自然科学基金,光热协同选择性催化氧化富氢气体中微量一氧化碳的研究(21073037),项目负责人。
(4)国家自然科学基金,载体、掺杂物及反应介质对TiO2光催化行为的影响(20773025),项目负责人。

(5)福建省科技厅重大项目,福建省光催化产业技术重大研发平台(2014Y2003) 
(6)省科技厅重点项目,固体超强酸型高效光催化剂的工业生产及应用(2007T0007),项目负责人。
(7)省高校新世纪优秀人才支助,外界电子转移物种在TiO2光催化过程中的作用研究(HX2006-98),项目负责人。                          


代表性论文

(1)Kun Wang, Ting Peng, Zhongming Wang, Hong Wang, Xun Chen, Wenxin Dai*, Xianzhi Fu, Correlation between the H2 response and its oxidation over TiO2 and N doped TiO2 under UV irradiation induced by Fermi level, Applied Catalysis B: Environmental, 2019, 250, 89-98.

(2)Gang Cheng, Xiaofang Tan, Xinjie Song, Xun Chen, Wenxin Daia*, Rusheng Yuan*, Xianzhi Fu, Visible light assisted thermocatalytic reaction of CO+NO over Pd/LaFeO3, Applied Catalysis B: Environmental, 2019, 251, 130–142.

(3) Ke Wang, Ruimin Jiang, Ting Peng, Xu Chen, Wenxin Dai*,, Xianzhi Fu*, Modeling the effect of Cu doped TiO2 with carbon dots on CO2 methanation by H2O in a photo-thermal system, Applied Catalysis B: Environmental 2019, 256, 117780.

(4)X. Lin, S. Wang, W. Tu, Z. Hu, Z. Ding, Y. Hou, R. Xu and W. Dai*, MOFs-derived hierarchical hollow spheres composed of carbonconfined Ni nanoparticles for efficient CO2 methanation, Catal. Sci. Technol., 2019, DOI: 10.1039/C8CY02329H.

(5) Xiaofang Tan, Gang Cheng, Xinjie Song, Xun Chen, Wenxin Dai *, Xianzhi Fu*, The promoting effect of visible light on the CO + NO reaction over the Pd/N–TiO2 catalyst, Catal. Sci. Technol.,2019, DOI: 10.1039/c9cy00466a.

(6)Zhongming Wang, Kun Wang, Hong Wang, Xun Chen, Wenxin Dai*, Xianzhi Fu, The correlation between surface defects and the behavior of hydrogen adsorption over ZnO under UV light irradiation, Catalysis Science & Technology, 2018,8, 3260–3277.

(7) Liuliu Lin, Ke Wang, Kai Yang, Xun Chen, Xianzhi Fu, Wenxin Dai*, The visible-light-assisted thermocatalytic methanation of CO2 over Ru/TiO(2-x)Nx, Applied Catalysis B: Environmental, 2017, 204, 440–455.

(8)Xiaoying Peng, Zhoujun He, Kai Yang, Xun Chen, Xuxu Wang, Wenxin Dai*, Xianzhi Fu, Correlation between donating or accepting electron behavior of the adsorbed CO or H2 and its oxidation over TiO2 under ultraviolet light irradiation, Applied Surface Science, 2016, 360, 698–706.

(9)Kun Huang, Liuliu Lin, Kai Yang, Wenxin Dai*, Xun Chen, Xianzhi Fu, Promotion effect of ultraviolet light on NO + CO reaction over Pt/TiO2and Pt/CeO2–TiO2 catalysts, Applied Catalysis B: Environmental, 2015, 179, 395–406.

(10) Kai Yang, Junfeng Liu, Ruiru Si, Xun Chen, Wenxin Dai*, Xianzhi Fu*, Comparative study of Au/TiO2 and Au/Al2O3 for oxidizing CO in the presence of H2 under visible light irradiation, Journal of Catalysis, 2014, 317, 229–239.

(11)Ruiru Si, Junfeng Liu, Kai Yang, Xun Chen, Wenxin Dai*, Xianzhi Fu*, Temperature-programed surface reaction study of CO oxidation over Au/TiO2 at low temperature: An insight into nature of the reaction Process, Journal of Catalysis, 2014, 311, 71–79.

(12)Qiang Geng, Zhoujun He, Xun Chen, Wenxin Dai, Xuxu Wang∗, Gas sensing property of ZnO under visible light irradiation at room temperature, Sensors and Actuators B, 2013, 188, 293– 297.

 (13)Junfeng Liu, Ruiru Si, Huarong Zheng, Qiang Geng, Wenxin Dai*, Xun Chen, Xianzhi Fu*, “The promoted oxidation of CO induced by the visible-light response of Au nanoparticles over Au/TiO2”,Catal. Commun., 2012, 26, 136–139.
(14)Qiang Geng, Xiahui Lin, Ruiru Si, Xun Chen, Wenxin Dai?, Xianzhi Fu, Xuxu Wang?, “The correlation between the ethylene response and its oxidation over TiO2 under UV irradiation”, Sensors and Actuators B: Chemical, 2012, 174, 449– 457.
(15)H. Zheng, H. Yang, R. Si, W. Dai*, X.Chen, X. Wang, P. Liu, X. Fu,The promoted effect of UV irradiation on the oxidation of CO in the presence and absence of hydrogen over the TiO2-Supported Pt/Co-B bicomponent catalyst, Appl. Catal. B,2011,105,243–247.
(16)X. Chen, X. Zheng, W. Dai,* X. Wang, P. Liu, R. Yuan, and X. Fu, Promoted Effect of UV Irradiation on the Oxidation ofCOin the Presence ofH2 over Au Catalyst Supported on the Non-photoexcited Al2O3,Energy Fuels 2010, 24, 1471–1473.
(17)W. Dai, X. Chen, X. Zheng, Z. Ding, X. Wang, P. Liu, X. Fu, Photocatalytic Oxidation of CO on TiO2 : Chemisorption of O2, CO, and H2, ChemPhysChem,2009, 10(2), 411-419.  
(18)W. Dai, X. Zheng, H. Yang, X. Chen, X.Wang, P. Liu, X. Fu, The promoted effect of UV irradiation on preferential oxidation of CO in an H2-rich stream over Au/TiO2,J. Power Sources, 2009,188,507–514.
(19)W. Dai, X. Chen, X. Wang, P. Liu, D. Li, G. Li, X. Fu, CO Preferential oxidation promoted by UV irradiation in the presence of H2 over Au/TiO2, Phys. Chem. Chem. Phys., 2008, 10, 3256-3262.
(20)W. Dai, X. Wang, P. Liu, Y. Xu, G. Li, X. Fu, Effects of Electron Transfer between TiO2 Films and Conducting Substrates on the Photocatalytic Oxidation of Organic Pollutants, J. Phys. Chem. B, 2006, 110, 13470-13476.

 

获奖情况

 (1)《建筑外表面用自清洁涂料》,福建省标准贡献奖一等奖,2018,集体。

 (2)《高压陶瓷绝缘子采用光自洁镀膜技术提高绝缘子防污闪性能研究》,福建省电力有限公司科学技术奖一等奖,2009年,集体。  

 

其他

 

 

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