Location:
Lin Dong (Professor)
Address: Room B410, School of Environment, Nanjing University
Phone: 025-89683295
Email: [email protected]
Education
Ph. D Nanjing University (1992.09-1995.10)
M.S. Southwest University (1984.09-1987.06)
B.S. Southwest University (1980.09-1984.06)
Professional Experience
Division Chief, Laboratory and Equipment Management Office, Nanjing University (2020.07-)
Professor, School of Environment, Nanjing University (2017.09-)
Director, Center of Modern Analysis, Nanjing University (2008.05-)
Deputy Dean, School of Chemistry and Chemical Engineering, Nanjing University (2005.09-2008.04)
Department of Metabolic Geology, College of Science, Tibet University (2003.03-2003.08)
French Academy of Sciences (2000.06-2001.05)
Professor, School of Chemistry and Chemical Engineering, Nanjing University (1997.12-2019.12)
Postdoctor, School of Physics, Nanjing University (1996.01-1997.12)
Research Interests
Lin Dong’s research team devotes to design and fabrication of environmental catalytic materials and study on the related catalytic performance. We mainly explores the preparation of rare earth-based catalysts and supported metal oxide catalysts, and their scientific mechanisms in the adsorption, decomposition, and catalytic elimination of atmospheric pollutants. The research interests are as following:
1. Prepare rare earth-based and supported metal oxide catalysts, and research on their surface physicochemical properties and application in the adsorption, decomposition, and catalytic elimination of atmospheric pollutants.
2. Propose the concept of "Surface synergetic oxygen vacancy (SSOV)" and explore its mechanism in the supported dual (multiple) component catalysts.
3. Develop the photocatalytic materials with controllable morphologies and structures in the fields of energy and environment.
Academic Service
Chairman of the Rare Earth Catalysis and Process Professional Committee of the Chemical Industry and Engineering Society of China; member of the standing committee of the Academic Committee of the Catalysis Committee of the Chinese Society of Rare Earths; chairman of Jiangsu Key Laboratory of Vehicle Emissions Control; chairman of the Atmospheric Chemistry and Pollution Control Professional Committee of Jiangsu Society of Chemistry and Chemical Engineering; vice chairman of the Council of the National University Analysis and Testing Center Research Association; member of the Teaching Steering Committee of Basic Chemistry Courses of Higher Education Ministry of Education; member of the Academic Committee of the Key Laboratory of Resource Chemistry of the Ministry of Education (Shanghai Normal University); member of the Academic Committee of the Key Laboratory of Environmental Monitoring and Pollution Control Corps (Shihezi University); national assessor of CMA/CAL laboratory qualification accreditation review group.
Teaching
Chemistry and Environment
Environmental Physical Chemistry
Research Projects (part of the researching and completed projects)
Jiangsu Key Laboratory of Vehicle Emissions Control, 2011- , 2 million yuan/year, researching, PI.
The National Natural Science Foundation of China, the design and fabrication of rare earth doped metal oxide catalysts for denitration and the in-situ technology research on its anti-sulfur poisoning mechanism, 2020-2023, 650,000 yuan, researching, PI.
A major scientific and technological project of Xinjiang Production and Construction Corps, the research on the mechanism of low-temperature CO-SCR catalysts, 2017-2020, 1.2 million yuan, researching, participation.
The National Natural Science Foundation of China, the research on the promotion mechanism of reducing atmosphere pretreatment on CuO-MOx/γ-Al2O3 catalyst in NO elimination reaction, 2017-2020, 650,000 yuan, completed, PI.
Excellent science and technology innovation team of Jiangsu colleges and universities, the innovation team of catalytic elimination of atmospheric pollutants, 300,000 yuan, 2017-2020, completed, PI.
The National 863 Plan, the application and development of rare earth catalytic materials for stationary source flue gas treatment, 2015-2017, 7.116 million yuan (total project funding of 17.79 million), completed, PI.
Transmission electron microscopy/Raman scattering combined system for real-time in-situ detection of gas-solid reaction interface, the national major scientific research instrument development project, 2015-2019, 7.15 million yuan, completed, PI.
The design and fabrication of high-performance rare earth (cerium-based) oxygen storage materials and their research and application in the catalytic purification of vehicle emissions, Jiangsu Provincial Department of science and technology "Science and Technology Support Project (Industrial Part)", 2014-2017, 800,000 yuan, completed, PI.
The National Natural Science Foundation of China, the research on the role of surface oxygen vacancies and exposed crystal planes of rare earth-based supported catalysts in the process of catalytic elimination of NO, 2013-2016, 810,000 yuan, completed, PI.
The National Natural Science Foundation of China, in-situ characterization of rare earth solid solution catalysts and its application in the elimination of NO, 2008-2010, 300,000 yuan, completed, PI.
Selected Publications (IF > 10)
Advantageous roles of phosphate decorated octahedral CeO2 {111}/g-C3N4 in boosting photocatalytic CO2 reduction: Charge transfer bridge and Lewis basic site, WanqinLi, LiJin, FeiGao, HaiqinWan, YuPu, XiaoqianWei, ChongChen, WeixinZou*, ChengzhangZhu, LinDong*, Applied Catalysis B: Environmental, 294 (2021) 120257
Real time imaging of photocatalytic active site formation during H2 evolution by in-situ TEM,Shuohan Yu , Youhong Jiang , Yue Sun , Fei Gao , Weixin Zou , Honggang Liao , Lin Dong*, Applied Catalysis B: Environmental, 284 (2021) 119743
Conquering ammornium bisulfate poison over low temperature NH3-SCR catalysts: A critical review, Kai Guo, Jiawei Ji, Wang Song, Changjin Tang, Lin Dong*, Applied Catalysis B: Environmental, 297 (2021) 120388
Insight into the SO2 resistance mechanism on γ-Fe2O3 catalyst in NH3-SCR reaction: A collaborated experimental and DFT study,Yaxin Yu, Wei Tan,Dongqi An, Xiuwen Wang, Annai Liu, Weixin Zou, Changjin Tang, Chengyan Ge, Qing Tong, Jingfang Sun,Lin Dong*, Applied Catalysis B: Environmental, 281 (2021) 119544
Interfacial coupling effects in g-C3N4/SrTiO3 nanocomposites with enhanced H2 evolution under visible light irradiation ,Yidan Luo, Biao Deng, Yu Pu, Annai Liu, Jiaming Wang, Kaili Ma, Fei Gao, Bin Gao, Weixin Zou, Lin Dong*, Applied Catalysis B: Environmental, 247 (2019) 1
Improved activity and significant SO2 tolerance of samarium modified CeO2-TiO2 catalyst for NO selective catalytic reduction with NH3, Hao Liu,Zhongxuan Fan, Chuanzhi Sun, Shuohan Yu, Shuai Feng, Wei Chen,Dezhan Chen, Changjin Tang, Fei Gao, Lin Dong*,Applied Catalysis B: Environmental, 244 (2019)671
Synergistic effects of Cu2O-decorated CeO2 on photocatalytic CO2 reduction: Surface Lewis acid/base and oxygen defect, Yu Pu, Yidan Luo, Xiaoqian Wei, Jingfang Sun, Lulu Li, Weixin Zou, Lin Dong*, Applied Catalysis B: Environmental, 254 (2019) 580
Facile two-step treatment of carbon nitride for preparation of highly efficient visible-light photocatalyst, Ningxin Jiang, Hongjia Wang, Yidan Luo, Shuohan Yu, AnnaiLiu, Weixin Zou, Fei Gao, Lin Dong*, Applied Catalysis B: Environmental, 227 (2018) 541
Enhanced activity of visible-light photocatalytic H2 evolution of sulfurdoped g-C3N4 photocatalyst via nanoparticle metal Ni as cocatalyst. Chuanzhi Sun, Hui Zhang , Hao Liu, Xiaoxue Zheng , Weixin Zou, Lin Dong*, Lei Qi, Applied Catalysis B: Environmental, 235 (2018) 66
Ultra-low loading of copper modified TiO2/CeO2 catalysts for low-temperature selective catalytic reduction of NO by NH3, Lulu Li, Lei Zhang, Kaili Ma, Weixin Zou, Yuan Cao, Yan Xiong, Changjin Tang,Lin Dong*, Applied Catalysis B: Environmental, 207 (2017) 366
Enhanced visible light photocatalytic hydrogen evolution via cubic CeO2 hybridized g-C3N4 composite, Weixin Zou, Ye Shao, Yu Pu, Yidan Luo, Jingfang Sun, Kaili Ma, Changjin Tang, Fei Gao, Lin Dong*, Applied Catalysis B: Environmental, 218 (2017) 51
Influence of Molar Ratio and Calcination Temperature on the Properties of TixSn1-xO2 Supporting Copper Oxide for CO Oxidation. Lihui Dong, Yanxia Tang, Bin Li, Liya Zhou, Fuzhong Gong, Haixiang He, Baozhen Sun, Changjin Tang, Fei Gao, Lin Dong*, Applied Catalysis B: Environmental, 180 (2016) 451
Engineering the Cu2O–reduced graphene oxide interface to enhance photocatalytic degradation of organic pollutants under visible light. Weixin Zou, Lei Zhang, Lichen Liu, Xiaobo Wang, Jingfang Sun, Shiguo Wu, Yu Deng, Changjin Tang, Fei Gao, Lin Dong*, Applied Catalysis B: Environmental., 181 (2016) 495
Getting insight into the influence of SO2 on TiO2/CeO2 for the selective catalytic reduction of NO by NH3, Lei Zhang,Lulu Li, Yuan Cao, Xiaojiang Yao, Chengyan Ge, Fei Gao, Yu Deng, Changjin Tang, Lin Dong*, Applied Catalysis B: Environmental, 165 (2015) 589
Correlation between the physicochemical properties and catalytic performances of CexSn1–xO2 mixed oxides for NO reduction by CO. Xiaojiang Yao, Yan Xiong, Weixin Zou, Lei Zhang, Shiguo Wu, Xian Dong, Fei Gao, Yu Deng, Changjin Tang,Zhuo Chen, Lin Dong*, Yi Chen. Applied Catalysis B: Environmental, 144 (2014) 152
Efficient fabrication of active CuO-CeO2/SBA-15 catalysts for preferential oxidation of CO by solid state impregnation. Changjin Tang, Jingfang Sun, Xiaojiang Yao, Yuan Cao, Lichen Liu, Chengyan Ge, Fei Gao, Lin Dong*, Applied Catalysis B: Environmental, 146 (2014) 201
Investigation of the structure, acidity and catalytic performance of CuO/Ti0.95Ce0.05O2 catalyst for the selective catalytic reduction of NO by NH3 at low temperature. Xiaojiang Yao, Lei Zhang,Lulu Li, Lichen Liu, Yuan Cao, Fei Gao, Yu Deng, Changjin Tang, Zhuo Chen, Lin Dong*, Yi Chen,Applied Catalysis B: Environmental, 150-151 (2014) 315
A comparative study of different doped metal cations on the reduction, adsorption and activity of CuO/Ce0.67M0.33O2 (M = Zr4+, Sn4+, Ti4+) catalysts for NO + CO reaction. Xiaojiang Yao, Qiang Yu, Zeyang Ji, Yuanyuan Lv, Yuan Cao, Changjin Tang, Fei Gao, Lin Dong*, Yi Chen,Applied Catalysis B: Environmental, 130–131 (2013) 293
Influence of cerium precursors on the structure and reducibility of mesoporous CuO-CeO2 catalysts for CO oxidation, Lei Qi, Qiang Yu, Yue Dai, Changjin Tang, Lianjun Liu, Hongliang Zhang, Fei Gao, Lin Dong*,Yi Chen, Applied Catalysis B: Environmental, 119-120 (2012) 308
Influence of cerium modification methods on catalytic performance of Au/mordenite catalysts in CO oxidation, Lei Qi, Changjin Tang, Lei Zhang, Xiaojiang Yao, Yuan Cao, Lichen Liu, Fei Gao, Lin Dong*, Yi Chen, Applied Catalysis B: Environmental, 127 (2012) 234-245
Authorized invention Patents
1、Lin Dong, Lulu Li, Lie Zhang, Weixin Zou, Changjin Tang, Fei Gao, a high performance NH3-SCR catalyst and its preparation method and application, patent No. ZL201410749429.0
2、Lin Dong, Yan Xiong, Changjin Tang, Lulu Li, a method for regenerating CuCe solid solution catalyst after deactivation, patent No. ZL201510570313.5
3、Lin Dong, Shuohan Yu, Lulu Li, Changjin Tang, Fei Gao, a water-resistant low-temperature NH3-SCR catalyst and its preparation method and application, patent No. ZL201510249074.3
4、Lin Dong, Kai Guo, Changjin Tang, preparation and application of an ultra-high specific surface area FeMn oxide low-temperature denitration catalyst, patent No. ZL201910832846.4
5、Lin Dong, Lulu Li, Changjin Tang, Qing Tong, Jingfang Sun, a high performance low-temperature NH3-SCR catalyst and its preparation method and application, patent No. ZL2019108860210
6、Lin Dong, Wanqin Li, Weixin Zou, Yu Pu, Xiaoqian Wei, Chengzhang Zhu, a heterojunction of P-CeO2/g-C3N4 material and its preparation method and application, patent No. ZL202011000641.9
7、Lin Dong, Fei Gao, Yanhua Zhang, Yi Chen, a preparation method of mesoporous SiO2 spiral tube, patent No. ZL200610088308.1
8、Lin Dong, Changjin Tang, Jianchao Li, Fei Gao, a preparation method of thermally stable supported nano metal catalyst, patent No. ZL201010127529.1
9、Lin Dong, Lianjun Liu, Fei Gao, CeZr nanorods, nanocubes or nanotubes supported Cu-based catalysts and its preparation methods, patent No. ZL201010127979.0
10、Lin Dong, Hongliang Zhang, Changjin Tang, Fei Gao, a Ti-SBA-15 catalyst synthesized by direct hydrothermal method and its preparation method, patent No. ZL201210053160.3
11、Lin Dong, Lei Qi, Yue Dai, Fei Gao, a nano-scale ZnO and its preparation method and application, patent No. ZL201210053829.9
12、Lin Dong, Xiaojiang Yao, Changjin Tang, Fei Gao, a preparation method of Cu-based nanocatalysts with different valence states, patent No. ZL201210505276.6
13、Lin Dong, Lichen Liu, Xianrui Gu, Zeyang Ji, Fei Gao, a controllable preparation method of TiO2 nanocrystals with different exposed crystal faces, patent No. ZL201210518711.9
14、Lin Dong, Xiaojiang Yao, Changjin Tang, Fei Gao, a method for preparing a supported binary metal oxide nanocatalyst, patent No. ZL201210546390.3
15、Lin Dong, Lei Zhang, Changjin Tang, Fei Gao, Yu Deng, Yan Xiong, Lulu Li, Yuan Cao, a CeTiSn composite oxide catalyst for flue gas denitration and its preparation method, patent No. ZL201410000977.3
16、Lin Dong, Shiguo Wu, Changjin Tang, Fei Gao, FeMnTi catalysts for low-temperature denitration of stationary source flue gas and its preparation method, patent No. ZL201410310147.0
Technology awards
1. The first prize of Jiangsu Science and Technology Award, 2018, the first finisher
2. The second prize of China University Science and Technology Award, 2001, the second finisher
Opportunities
Recruit graduate and doctorate students in the field of environmental science (environmental chemistry), and welcome interested students to join the research group.
