论文

    1.An efficient and durable hierarchically porous KLA/TiPO catalyst for vapor phase condensation of lactic acid to 2,3-pentanedionJu Zhang,Xinli Li,Jun Pang,Weixin Zou,Congming Tang,Lin Dong,New J. Chem.,2019,43,5972--5979

    2.Insights into the precursor effect on the surface structure of c-Al2O3 andXiuwen Wang,Yiyang Lu,Wei Tan,Annai Liu,Jiawei Ji,Haiqin Wan,Chuanzhi Sun,Changjin Tang,Lin Dong,Journal of Colloid and Interface Science ,554 (2019) 611–618

    3.Controlling Dynamic Structural Transformation of Atomically Dispersed CuOx Species and Influence onTheir Catalytic Performances,Annai Liu,Lichen Liu,Yuan Cao,Jiaming Wang,Rui Si,Fei Gao,Lin Dong,ACS Catal.,2019,9,9840−9851

    4.CeO2 nanocrystal-modified layered MoS2/g-C3N4 as 0D/2D ternary composite for visible-light photocatalytic hydrogenevolution: Interfacial consecutive multi-step electron transfer and enhanced H2O reactant adsorption.Chengzhang Zhu, Yuting Wang, Zhifeng Jiang, Fanchao Xu, Qiming Xian,ChengSun,QingTong,WeixinZou,XiaoguangDuan,ShaobinWang,AppliedCatalysisB:Environmental,259(2019)118072

    5.Ultrafine Bi3TaO7 Nanodot-Decorated V, N Codoped TiO2 Nanoblocks for Visible-Light Photocatalytic Activity: Interfacial Effect and Mechanism Insight.Chengzhang Zhu,Yuting Wang, Zhifeng Jiang, Annai Liu Yu Pu, Qiming Xian, Weixin Zou, Cheng Sun,ACS Appl. Mater. Interfaces ,2019, 11, 13011−13021

    6.Advantageous Interfacial Effects of AgPd/g-C3N4 for Photocatalytic Hydrogen Evolution: Electronic Structure and H2O Dissociation.Weixin Zou,Lixia Xu,Yu Pu,Haojie Cai, Xiaoqian Wei,Yidan Luo,Lulu Li,Bin Gao,Haiqin Wan, Lin Dong, Chem. Eur. J. ,2019, 25, 1 – 8 

    7.Getting Insights into the Temperature-Specific Active Sites on Platinum Nanoparticles for CO Oxidation: A Combined in Situ Spectroscopic and ab Initio      Density Functional Theory Study ,Annai Liu, Xiao Liu, Lichen Liu, Yu Pu,Kai Guo, Wei Tan, Song Gao,Yidan Luo,shuohan Yu,Rui Si,Bin Shan, Fei Gao,Lin Dong,ACS Catalysisi,2019, 9, 7759−7768

    8.Silver nanocluster in zeolites. ADSORPTION of ETHYLENE traces for fruitpreservation,Larisha Cisnerosa, Fei Gao, Avelino Cormaa,Microporous and Mesoporous Materials,283(2019)25-30

    9.Enhancing the deNOx performance of MnOx/CeO2-ZrO2 nanorod catalyst for low-temperature NH3-SCR by TiO2 modification Xiaojiang Yao, Li Chen, Jun Cao, Yang Chen, Mi Tian, Fumo Yang, Jingfang Sun, Changjin Tang, Lin Dong. Chemical Engineering Journal ,369 (2019) 46–56

    10.Highly selective catalytic reduction of NOx by MnOx–CeO2–Al2O3 catalysts prepared by self-propagating high-temperature synthesis Chao Wang, Feng Yu, Mingyuan Zhu, Changjin Tang, Ke Zhang, Dan Zhao, Lin Dong , Bin Dai. JOURNAL O F ENVIRONMENTAL SCIENCES ,75(2019)124–135

    11.Cavity size dependent SO2 resistance for NH3-SCR of hollow structured CeO2-TiO2 catalysts Kaili Ma, Kai Guo, Lulu Li, Weixin Zou, Changjin Tang, Lin Dong.Catalysis Communications 12,8 (2019) 105719

    12.Composite catalytic systems: A strategy for developing the low temperature NH3-SCR catalysts with satisfactory SO2 and H2O tolerance Shuohan Yu, Yiyang Lu, Yuan Cao, Jiaming Wang, Bowen Sun, Fei Gao, Changjin Tang, Lin Dong. Catalysis Today ,327 (2019) 235–245

    13.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) 1–9

    14.Synergistic effects of Cu2O-decorated CeO2 on photocatalytic CO2 reduction:Surface Lewis acid/base and oxygen defectYu Pu, Yidan Luo, Xiaoqian Wei, Jingfang Sun, Lulu Li, Weixin Zou, Lin Dong, Applied Catalysis B: Environmental ,254 (2019) 580–586

    15.Investigation of Two-Phase Intergrowth and Coexistence in Mn−−Ce−Ti−O Catalysts for the Selective Catalytic Reduction of NO with NH3: Structure−Activity Relationship and Reaction MechanismLulu Li, Yaohui Wu, Xueyan Hou, Bingxian Chu, Bing Nan, Qiuju Qin, Minguang Fan, Chuanzhi Sun, Bin Li, Lihui Dong ,Lin Dong. Ind. Eng. Chem. Res. 2019, 58, 849−862

    16.Pore Size Expansion Accelerates Ammonium Bisulfate Decomposition for Improved Sulfur Resistance in Low-Temperature NH3‑SCR Kai Guo, Gaofeng Fan, Di Gu, Shuohan Yu, Kaili Ma, Annai Liu, Wei Tan, Jiaming Wang,Xiangze Du, Weixin Zou, Changjin Tang , Lin Dong. Appl. Mater. Interfaces ,2019, 11, 4900−4907

    17.Promoting N2 Selectivity of CeMnOx Catalyst by Supporting TiO2 in NH3‑SCR Reaction Lei Zhang, Lulu Li, Chengyan Ge, Tingzhen Li, Chuanjiang Li, Shuxin Li, Feng Xiong, Lin Dong. Ind. Eng. Chem. Res. 2019, 58, 6325−6332

    18.Vapor-Phase Deoxygenation of Lactic Acid to Biopropionic Acid over Dispersant-Enhanced Molybdenum Oxide CatalystXinli Li, Jun Pang, Ju Zhang, Chunyu Yin, Weixin Zou, Congming Tang, and Lin Dong. Ind. Eng. Chem. Res. 2019, 58, 101−109

    19.Effect of Ti4+ and Sn4+ co-incorporation on the catalytic performance of CeO2 -MnOx catalyst for low temperature NH3-SCRLi Chen, Xiaojiang Yao, Jun Cao, Fumo Yang, Changjin Tang, Lin Dong. Applied Surface Science ,476(2019)283-292

    20.Chemically activated hydrochar as an effective adsorbent for volatile.Xueyang Zhang, Bin Gao, June Fang, Weixin Zou , Lin Dong ,Chengcheng Cao , Jian Zhang , Yuncong Li , Hailong Wang,Chemosphere,218(2019)680-686.

    21.Improving the denitration performance and K-poisoning resistance .Jun Cao ,Xiaojiang Yao,Fumo Yang , Li Chen , Min Fu , Changjin Tang , Lin Dong,Chinese Journal of Catalysis ,40 (2019) 95–104.

    22.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)671-683.

    23.Integrated adsorption and photocatalytic degradation of volatile organic compounds (VOCs) using carbon-based nanocomposites: A critical review.Weixin Zou , Bin Gao,Yong Sik Ok ,Lin Dong,Chemosphere, 218 (2019) 845-859.

    24.我国氮氧化物排放控制及脱硝催化剂研究进展 ,王修文,李露露,孙敬方,万海勤,汤常金,高飞,董林,工业催化,1008 -1143( 2019) 02 -0001 -23

    25.Highly dispersed Pd/modified-Al2O3 catalyst on complete oxidation of toluene: Role of basic sites and mechanism insight ,Xiaoyu Weng, Bingqing Shi, Annai Liu, Jingya Sun, Yan Xiong, Haiqin Wan, Shourong Zheng, Lin Dong, Yu-wen Chen,Applied Surface Science,497,143747

    26.铁基催化剂用于氨选择性催化还原氮氧化物研究进展,张洪亮,龙红明,李家新,董林,无机化学学报,35,5,753-768(2019)

专利

1、一种介孔二氧化硅螺旋管的制备方法,董林, 高飞, 陈懿, 张炎华 

2、铈锆纳米棒、纳米方块或纳米管担载铜基的催化剂及其制法,董林,刘连军,高飞 

3、一种热稳定的负载型纳米金属催化剂的制备方法,董林,汤常金,李健潮,高飞 

4、TixSn1-xO2固溶体为载体的负载型金属氧化物纳米催化剂的制备方法,董林,孙传智,张兵,高飞,董丽辉 
5、双金属掺杂介孔材料SBA-15催化剂的制法和双金属掺杂的SBA-15催化剂,董林,张洪亮,汤常金,高飞 

6、一种具有介孔结构铈锆铝纳米复合物及其制法和用途,董林,余强,高飞 

7、一种纳米级铈基复合氧化物及其制法和用途,董林,余强,高飞 

8、一种铈镍复合氧化物催化材料的制备方法,董林,汤常金,高飞,张洪亮,李健潮 

9、一种直接水热法合成Ti-SBA-15催化剂的方法及其制备的催化剂,董林,张洪亮,汤常金,高飞 

10、一种纳米级氧化锌及其制法和用途,董林,齐蕾,戴越,高飞 

11、一种具有高CO-PROX活性的CuOx/CeO2催化剂的制备方法,董林,吴肖霞,余强,高飞,汤常金,戴越 

12、一种耐高温、高比表面积CeO2及其制法和用途,董林,伍仕国,汤常金,高飞 

13、一种不同价态铜基纳米催化剂的制备方法,董林,姚小江,汤常金,高飞 

14、一种可控的不同暴露晶面的TiO2纳米晶的制备方法,董林,刘礼晨, 顾贤睿, 纪泽阳, 高飞 
15、一种用于CO选择性氧化反应的铜铈催化剂的制备方法,董林,汤常金,孙敬方,高飞 

16、一种负载型二元金属氧化物纳米催化剂的制备,董林,姚小江,汤常金,高飞 

17、铈锡复合氧化物纳米催化剂的制法及其制得的催化剂的用途,董林,姚小江,汤常金,高飞 
18、一种用于烟气脱硝的铈钛锡复合氧化物催化剂及其制法,董林,张雷,汤常金,高飞,邓昱,熊燕,李露露,曹原 
19、用于固定源烟气低温脱硝的铁锰钛催化剂的制法及其制备的催化剂,董林,伍士国,汤常金,高飞 

20、一种高性能钛铈固溶体催化剂的制法及其制得的催化剂和用途,董林,姚小江,汤常金,高飞 

21、一种高性能NH3-SCR催化剂的制法及其用途,董林,李露露,张雷,邹伟欣,汤常金,高飞 

22、一种铜铈固溶体催化剂失活后的再生方法,董林,熊燕,汤常金,李露露 

23、一种钨铈负载型烟气脱硝催化剂及其制法,董林,张雷,汤常金,高飞 

24、透射电镜气体衍射装置的气体微束喷嘴,邓昱,张诚平,孙敬方,董林,陈强,方江邻,高飞,汤常金,蔡宁生
25、一种铁钛负载型烟气脱硝催化剂及其制法,董林,孙敬方,陆亦洋,汤常金,邹伟欣,高飞 

26、Avelino Corma, Larisha Yanira Cisneros Reyes, Fei Gao, Eliminación de Concentraciones Ultra-bajas de Etileno en Corrientes de Aire a Baja Temperatura

27、一种中低温燃煤烟气脱硝催化剂及其制法,董林,孙敬方,陆亦洋,汤常金,李奇隽,邹伟欣,葛成艳

28、一种铁铈铝氧化物催化剂、制备方法及其应用,董林,安冬琦,孙敬方,余雅昕 ,汤常金,高飞

29、一种WO3改性FeTiOx催化剂的制法及其用途,董林、余雅昕 、孙敬方 、汤常金 、高飞

30、一种铈硅复合氧化物的制备方法及其产物和应用,  董林,谭伟, 刘安鼐 ,高飞, 汤常金

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