Wei-Lin Dai GroupWei-Lin Dai Group

ACS Wiley Elsevier RSC

Publications

2024年

175. Wang Xinglin, Huang Yamei, Zhang Huihui, Gao Linlin, Gu Huajun, Zhang Yu, Li Yu, Liao Yifan, Meng Jiayi, Dai Wei-Lin. J. Catal.10.1016-j.jcat.2024.115746.pdf

174. Liao Yifan, Wang Xinglin, Gu Huajun, Zhang Huihui, Meng Jiayi, Dai Wei-Lin. J. Phys. D Appl. Phys.10.10881361-6463ad7470.pdf

173. Huang Yamei, Gu Huajun, Zhang Huihui, Wang Xinglin, Gao Linlin, Cui Yuanyuan, Zong Baoning, Li Hexing, Dai Wei-Lin. ACS Catalysis.10.1021acscatal.4c03630.pdf

172. Meng Jiayi, Huang Yamei, Wang Xinglin, Liao Yifan, Zhang Huihui, Dai Wei-Lin. Catalysts 2024, 14, 429.10.3390catal14070429.pdf

171. Gao Linlin, Chang Shengyuan, Gu Huajun, Zhang Huihui, Huang Yamei, Wang Xinglin, Li Qin, Dai Wei-Lin. ChemCatChem 2024, e202400502.10.1002cctc.202400502.pdf

170. Li Qin, Zhang Huihui, Gu Huajun, Cui Yuanyuan, Gao Ruihua, Dai Wei-Lin. Acta Phys. -Chim. Sin. 2024, 40, 2402016.10.3866PKU.WHXB202402016.pdf

169. Zhang Huihui, Gu Huajun, Huang Yamei, Wang Xinlin, Gao Linlin, Li Qin, Li Yu, Zhang Yu, Cui Yuanyuan, Gao Ruihua, Dai Wei-Lin. Journal of Colloid and Interface Science, 2024, 664 916-927.10.1016j.jcis.2024.03.102.pdf

2023年

168. Chang Shengyuan, Gu Huajun, Zhang Huihui, Wang Xinglin, Li Qin, Cui Yuanyuan, Dai Wei-Lin. Journal of Colloid and Interface Science, 2023, 644, 304-314. 1-s2.0-S0021979723007014-main.pdf

167. Gu Huajun, Zhang Huihui, Wang Xinglin, Li Qin, Chang Shengyuan, Huang Yamei, Gao Linlin, Cui Yuanyuan, Liu Renwei, Dai Wei-Lin. Applied Catalysis B: Environmental, 2023, 328, 122537. 1-s2.0-S0926337323001807-main.pdf

166. Zhang Huihui, Gu Huajun, Wang Xinglin, Chang Shengyuan, Li Qin, Dai Wei-Lin. Chemical Engineering Journal, 2023, 457, 141185. 1-s2.0-S1385894722066669-main.pdf

2022年

165. Zhang Juhua, Gu Huajun, Wang Xinglin, Zhang Huihui, Chang Shengyuan, Li Qin, Dai Wei-Lin. Journal of Colloid and Interface Science, 2022, 625, 785-799. 1-s2.0-S0021979722010633-main.pdf

164. Zhang Huihui, Gu Huajun, Wang Xiaohao, Li Lingfeng, Zhang Juhua, Chang Shengyuan, Dai Wei-Lin. Journal of Colloid and Interface Science, 2022, 622, 539-648. 1-s2.0-S0021979722006877-main.pdf

163. Li Lingfeng, Wang Xiaohao, Gu Huajun, Zhang Huihui, Zhang Juhua, Zhang Quan, Dai Wei-Lin. Inorganic Chemistry, 2022, 61, 4760-4768. acs.inorgchem.2c00171.pdf

162. Zhang Juhua, Gu Huajun, Wang Xinglin, Zhang Huihui, Li Lingfeng, Wang Xiaohao, Dai Wei-Lin. Catalysis Science & Technology, 2022, 12, 2346.  d2cy00115b.pdf

161. Wang Xiaohao, Li Lingfeng, Gu Huajun, Zhang Huihui,  Zhang Juhua, Zhang Quan, Dai Wei-Lin. Applied Surface Science, 2022, 574, 151553. 1-s2.0-S0169433221026015-main.pdf

2021年

160. Zhang Quan, Gu HuaJun,Wang Xiaohao, Li Lingfeng, Zhang Juhua, Zhang Huihui,Li Yefei,  Dai Wei-Lin. Applied Catalysis B: Environmental, 2021, 298, 120632. 10.1016_j.apcatb.2021.120632.pdf

159.  Li Lingfeng, Zhang Quan, Wang Xiaohao, Zhang Juhua, Gu HuaJun, Dai Wei-Lin, Au Nanoparticles Embedded in Carbon Self-Doping g-C3N4: Facile Photodeposition Method for Superior Photocatalytic H2 Evolution, J. Phys. Chem. C, 2021, doi.org/10.1021/acs.jpcc.1c02269acs.jpcc.1c02269.pdf

158. Zhang Quan,  Zhang Juhua, Wang Xiaohao, Li Lingfeng, Li Yefei, Dai Wei-Lin. In–N–In Sites Boosting Interfacial Charge Transfer in Carbon-Coated Hollow Tubular In2O3/ZnIn2S4 Heterostructure Derived from In-MOF for Enhanced Photocatalytic Hydrogen Evolution[J].ACS catalysis, 2021, 11, 6276-6289.acscatal.0c05520.pdf

157. Zhang Quan, Wang Xiaohao, Zhang Juhua, Li Lingfeng, Gu HuaJun, Dai Wei-Lin. Hierarchical fabrication of hollow Co2P nanocages coated with ZnIn2S4 thin layer: Highly efficient noble-metal-free photocatalyst for hydrogen evolution[J].Journal of Colloid and Interface Science, 2021, 590, 632-640.1-s2.0-S0021979721000965-main.pdf

156. Li Lingfeng, Zhang Juhua, Zhang Quan, Wang Xiaohao, Dai Wei-Lin. Superior sponge-like carbon self-doping graphitic carbon nitride nanosheets derived from supramolecular pre-assembly of a melamine-cyanuric acid complex for photocatalytic H2 evolution[J]. Nanotechnology, 2021, 32, 155604.Li_2021_Nanotechnology_32_155604.pdf

2020年

155. Cao Mengting, Yang Fengli, Zhang Quan, Zhang Juhua, Zhang Lu, Li Lingfeng, Wang Xiaohao, Dai Wei-Lin. Facile construction of highly efficient MOF-based Pd@UiO-66-NH2@ZnIn2S4 flower-like nanocomposites for visible-light-driven photocatalytic hydrogen production[J]. Journal of Materials Science & Technology, 2021, 76, 189-199.Cao-2021-Facile-construction-of-highly-effic.pdf

154. Chen Xueru, Zhang Yin, Yuan Dashui, Huang Wu, Ding Jing, Wan Hui, Dai Wei-Lin, Guan Guofeng. One step method of structure engineering porous graphitic carbon nitride for efficient visible-light photocatalytic reduction of Cr(VI)[J]. Journal of Materials Science & Technology, 2020, 71, 211-220.Chen-2021-One-step-method-of-structure-engine.pdf

153. Liu Qianqian, Zhang Quan, Liu Bo, Dai Wei-Lin. Facile one-step hydrothermal synthesis of single-crystalline SnNb2O6 nanosheets with greatly extended visible-light response for enhanced photocatalytic performance and mechanism insight[J]. Nanotechnology, 2020, 32, 065705.Liu_2021_Nanotechnology_32_065705 (1).pdf

152. Liu Qianqian, Zhang Quan, Zhang Lu, Dai Wei-Lin. Highly efficient single-crystalline NaNb1-XTaXO3 (X = 0.125) wires: The synergistic effect of tantalum-doping and morphology on photocatalytic hydrogen evolution[J].Journal of Materials Science &Technology, 2020, 54, 20-30.Liu-2020-Highly-efficient-single-crystalline.pdf

151. Yang Fengli, Zhang Quan, Zhang Juhua, Zhang Lu, Cao Mengting, Dai Wei-Lin. Embedding Pt Nanoparticles at the Interface of CdS/NaNbO3 Nanorods Heterojunction with Bridge Design for Superior Z-Scheme Photocatalytic Hydrogen Evolution[J].Applied Catalysis B: Environmental, 2020, 119290.1-s2.0-S0926337320307050-main.pdf

150. Li Huabo, Cui Yuanyuan, Liu Yixin, Zhang Lu, Zhang Quan, Zhang Juhua, Dai Wei-Lin. Highly efficient Ag-modified copper phyllosilicate nanotube: Preparation by co-ammonia evaporation hydrothermal method and application in the selective hydrogenation of carbonate[J]. Journal of Materials Science & Technology, 2020, 47: 29-37.Li-2020-Highly-efficient-ag-modified-copper.pdf

149. Zhang Lu, Cui Yuanyuan, Yang Fengli, Zhang Quan, Zhang Juhua, Cao Mengting, Dai Wei-Lin. Electroless-hydrothermal construction of nickel bridged nickel sulfide@mesoporous carbon nitride hybrids for highly efficient noble metal-free photocatalytic H2 production[J]. Journal of Materials Science & Technology, 2020, 45: 176-186.Zhang-2020-Electroless-hydrothermal-constructi.pdf

2019年

148.Zhang Quan, Zhang Juhua, Zhang Lu, Yang Fengli, Li Lingfeng, Dai Wei-Lin. Black phosphorus quantum dots facilitate carrier separation for enhancing hydrogen production over hierarchical Cu7S4/ZnIn2S4 composites[J]. Catalysis science & Technology, 2020, 10: 1030-1039.c9cy02278c.pdf

147. Zhang Quan, Zhang Juhua, Zhang Lu, Cao Mengting, Yang Fengli, Dai Wei-Lin. Facile construction of flower-like black phosphorus nanosheet@ZnIn2S4 composite with highly efficient catalytic performance in hydrogen production[J]. Applied Surface Science, 2019, 144366.Zhang-2020-Facile-construction-of-flower-like-.pdf

146. Zhang Quan, Chai Yuanyuan, Cao Mengting, Yang Fengli, Zhang Lu, Dai Wei-Lin. Facile synthesis of ultra-small Ag decorated g-C3N4 photocatalyst via strong interaction between Ag+ and cyano group in monocyanamide[J]. Applied Surface Science, 2019, 143891.1-s2.0-S0169433219327072-main.pdf

145. Zhang Yong, Li Huabo, Zhang Lu, Gao Ruihua, Dai Wei-Lin. Construction of Highly Efficient 3D/2D MnO2/g-C3N4 Nanocomposite in the Epoxidation of Styrene with TBHP[J]. ACS Sustainable Chemistry & Engineering, 2019, 7(20): 17008-17019.acssuschemeng.9b02683.pdf

144. Li Huabo, Cui Yuanyuan, Liu Yixin, Dai Wei-Lin. Promotional Effect of Cr on Cu/SiO2 Catalyst for the Production of Methanol from Carbonate Hydrogenation[J]. Acta Chimica Sinica-Chinese Edition, 2019, 77(4): 371-378.

143. Zhang Quan,  Yang Fengli, Dai Wei-Lin. Recent Advances in the Aspects of Architectural Photocatalysts and its Application[J]. Current Organocatalysts, 2019, 6 (1): 3-19.

142. Yang Fengli, Zhang Quan, Zhang Lu, Cao Mengting, Liu Qianqian, Dai Wei-Lin. Facile synthesis of highly efficient Pt/N-rGO/N-NaNbO3 nanorods toward photocatalytic hydrogen production[J]. Applied Catalysis B: Environmental, 2019, 257: 117901.1-s2.0-S0926337319306472-main.pdf

141. Zhang Yong, Yang Fengli, Gao Ruihua, Dai Wei-Lin. Manganese-doped CeO2 nanocubes as highly efficient catalysts for styrene epoxidation with TBHP[J]. Applied Surface Science, 2019, 471: 767-775.1-s2.0-S0169433218333245-main.pdf

2018年

140. Chai Yuanyuan, Zhang Lu, Liu Qianqian, Yang Fengli, Dai Wei-Lin. Insights into the Relationship of the Heterojunction Structure and Excellent Activity: Photo-Oxidative Coupling of Benzylamine On CeO2-rod/g-C3N4 Hybrid Under Mild Reaction Conditions[J]. ACS Sustainable Chemistry & Engineering, 2018,6(8):10526-10535.
139. Yang Fengli, Ren Jia, Liu Qianqian, Zhang Lu, Chai Yuanyuan, Dai Wei-Lin. Facile Oxalic Acid-Assisted Construction of Laminated Porous N-deficient Graphitic Carbon Nitride: Highly Efficient Visible-Light-Driven Hydrogen Evolution Photocatalyst[J]. Journal of Energy Chemistry, 2018, 33: 1-8.
138. Zhang Lu, Liu Qianqian, Chai Yuanyuan, Yang Fengli, Cao Mengting, Dai Wei-Lin. In Situ Growth of g-C3N4 on Hexangular Flowerlike FeWO4 Microcrystals: Highly Efficient Catalyst and the Crucial Roles of Fe3+/Fe2+ Couple in the Photoassisted Oxidation and Reduction Reactions[J]. The Journal of Physical Chemistry C, 2018,122(24):12900-12912.
137. Lu Zhang , Qianqian Liu, Yuanyuan Chai, Wei-Lin Dai. Facile Construction of Phosphate Incorporated Graphitic Carbon Nitride with Mesoporous Structure and Superior Performance for H2 Production[J]. International Journal of Hydrogen Energy, 2018,43(11):5591-5602.
136. Huabo Li, Yuanyuan Cui, Qianqian Liu, Wei-Lin Dai. Insight Into the Synergism Between Copper Species and Surface Defects Influenced by Copper Content Over Copper/Ceria Catalysts for the Hydrogenation of Carbonate[J]. ChemCatChem,2018, 10(3): 619-624.
135. Lu Zhang, Qianqian Liu, Yuanyuan Chai, Jia Ren, Wei-Lin Dai. Imidazole Modified G-C3N4 Photocatalyst: Structural Characterization and Versatile Energy Applications[J]. Applied Surface Science, 2018, 430: 316-324.
134. Jing Ding, Wei Xu, Hui Wan, Dashui Yuan, Chong Chen, Lei Wang, Guofeng Guan, Wei-Lin Dai. Nitrogen Vacancy Engineered Graphitic C3N4-Based Polymers for Photocatalytic Oxidation of Aromatic Alcohols to Aldehydes[J]. Applied CatalysisB: Environmental, 2018, 221: 626-634.

2017年

133. Qianqian Liu, Lu Zhang, Yuanyuan Chai, Wei-Lin Dai. Facile Fabrication and Mechanism of Single-Crystal Sodium Niobate Photocatalyst: Insight Into the Structure Features Influence On Photocatalytic Performance for H2 Evolution[J].The Journal of Physical Chemistry C, 2017, 121(46): 25898-25907.
132. Jia Ren, Xin Liu, Ruihua Gao, Wei-Lin Dai. Morphology and Crystal-Plane Effects of Zr-Doped Ceo2 Nanocrystals On the Epoxidation of Styrene with Tert-Butylhydroperoxide as the Oxidant[J]. Journal of Energy Chemistry, 2017, 26(4):681-687.
131. Yuanyuan Chai, Qianqian Liu, Lu Zhang, Jia Ren, Wei-Lin Dai. Structure Engineered G-C3N4 Nano-Sheets by Switching the Pyrolysis Gas Atmosphere for Enhanced Photo-Catalytic Degradation[J]. Chinese Journal of Chemistry, 2017, 35(2):173-182.
130. Jia Ren, Yuanyuan Chai, Qianqian Liu, Lu Zhang, Wei-Lin Dai. Intercorrelated Ag3Po4 Nanoparticles Decorated with Graphic Carbon Nitride: Enhanced Stability and Photocatalytic Activities for Water Treatment[J]. Applied Surface Science, 2017, 403: 177-186.
129. Jing Ding, Lu Zhang, Qianqian Liu, et al. Synergistic Effects of Electronic Structure of WO3 Nanorods with the Dominant {001} Exposed Facets Combined with Silver Size-Dependent On the Visible-Light Photocatalytic Activity[J]. Applied Catalysis B: Environmental, 2017, 203: 335-342.
128. Jia Ren, Xin Liu, Lu Zhang, et al. Thermal Oxidative Etching Method Derived Graphitic C3N4: Highly Efficient Metal-Free Catalyst in the Selective Epoxidation of Styrene[J]. RSC Advances, 2017, 7(9): 5340-5348.
127. Qianqian Liu, Yuanyuan Chai, Lu Zhang, et al. Highly Efficient Pt/NaNbO3 Nanowire Photocatalyst: Its Morphology Effect and Application in Water Purification and H2 Production[J]. Applied Catalysis B: Environmental, 2017, 205: 505-513.

2016年

126. Yuanyuan Cui, Xi Chen, Wei-Lin Dai. Continuous Heterogeneous Hydrogenation of CO2-derived Dimethyl Carbonate to Methanol Over a Cu-based Catalyst[J]. RSC Advances, 2016, 6(73): 69530-69539.
125. Yuanyuan Cui, Wei-Lin Dai. Support Morphology and Crystal Plane Effect of Cu/CeO2 Nanomaterial On the Physicochemical and Catalytic Properties for Carbonate Hydrogenation[J]. Catalysis Science and Technology, 2016, 6(21): 7752-7762.
124. Yuanyuan Cui, Bin Wang, Chao Wen, et al. Investigation of Activated-Carbon-Supported Copper Catalysts with Unique Catalytic Performance in the Hydrogenation of Dimethyl Oxalate to Methyl Glycolate[J]. ChemCatChem, 2016, 8(3): 527-531.
123. Wei-Lin Dai, Jing Ding, Quanjing Zhu, et al. Tungsten Containing Materials as Heterogeneous Catalysts for Green Catalytic Oxidation Process: Catalysis[Z]. 2016: 28, 1-27.
122. Jing Ding, Yuanyuan Chai, Qianqian Liu, et al. Selective Deposition of Silver Nanoparticles onto WO3 Nanorods with Different Facets: The Correlation of Facet-Induced Electron Transport Preference and Photocatalytic Activity[J]. Journal of Physical Chemistry C, 2016, 120(8): 4345-4353.
121. Bin Wang, Yuanyuan Cui, Chao Wen, et al. Role of Copper Content and Calcination Temperature in the Structural Evolution and Catalytic Performance of Cu/P25 Catalysts in the Selective Hydrogenation of Dimethyl Oxalate[J]. Applied Catalysis a: General, 2016, 509: 66-74.

2015年

120. Chao Wen, Yuanyuan Cui, Xi Chen, Baoning Zong, and Wei‐Lin Dai, Reaction temperature controlled selective hydrogenation of dimethyl oxalate to methyl glycolate and ethylene glycol over copper-hydroxyapatite catalysts, Appl. Catal. B:Envior., 2015, 162, 483-493
119. Yuanyuan Cui, Bin Wang, Chao Wen, Xi Chen,Wei‐Lin Dai, Investigation of activated carbon supported copper catalysts with unique catalytic performance in hydrogenation of dimethyl oxalate to methyl glycolate, Chem.Cat.Chem., 2015, doi: 10.1002/cctc.201501055R1.
118. Yuanyuan Chai, Li Wang, Jia Ren, Wei‐Lin Dai, A novel visible light-driven Ag3PO4/SBA-15 nanocomposite:Preparation and application in the photo-degradation of pollutants, Appl. Surf. Sci., 2015, 324, 212-220.
117. Bin Wang, Chao Wen, Yuanyuan Cui, Xi Chen, Yu Dong, and Wei‐Lin Dai, Remarkable crystal phase effect of Cu/TiO2 catalysts on the selective hydrogenation of dimethyl oxalate, RSC Adv. 2015, 5(37), 29040-29047.
116. Li Wang, Yuanyuan Chai, Jia Ren, Jing Ding, Qianqian Liu,Wei‐Lin Dai, Ag3PO4 nanoparticles loaded on 3D flower-like spherical MoS2:Highly efficient hierarchical heterojunction photocatalyst, Dalton Transactions, 2015, 44(33), 14625-14634.
115. Li Wang, Jing Ding, Yuanyuan Chai, Qianqian Liu, Jia Ren, Xin Liu,Wei‐Lin Dai, CeO2 nanorods/g-C3N4/N-rGO composite: Enhanced visible-light-driven photocatalytic performance and the role of N-rGO as electronic transfer media, Dalton Transactions, 2015, 44(24), 11223-11234.
114. Xi Chen, Yuanyuan Cui, Chao Wen, Bin Wang and Wei‐Lin Dai, Continuous synthesis of methanol: heterogeneous hydrogenation of ethylene carbonate over Cu/HMS catalyst in fixed bed reactor system, Chem. Commun., 2015, 51(72), 13776-13778.
113. Jing Ding, Qianqian Liu, Zhaoyan Zhang, Xin Liu, Junqi Zhao, Shibiao Cheng, Baoning Zong,Wei‐Lin Dai, Carbon nitride nanosheets decorated with WO3 nanorods: ultrasonic assisted facile synthesis and catalytic application in the green manufacture of dialdehydes, Appl. Catal. B:Envior. 2015, 165, 511-518.
112. Xin Liu, Jing Ding, Xi Lin, Ruihua Gao, Zhenhua Li,Wei‐Lin Dai, Zr-doped CeO2 nanorods as versatile catalyst in the epoxidation of styrene with tert-butyl hydroperoxide as the oxidant, Appl. Catal. A:Gen., 2015, 503, 117-123.
111. Jing Ding, Li Wang, Qianqian Liu, Yuanyuan Chai, Xin Liu, Wei‐Lin Dai, Remarkable enhancement in visible-light absorption and electron transfer of carbon nitride nanosheets with 1% tungstate dopant, Appl. Catal. B:Envior. 2015, 176, 91-98.
110. Yuanyuan Chai, Jing Ding, Li Wang, Qianqian Liu, Jia Ren, Wei‐Lin Dai, Enormous enhancement in photocatalytic performance of Ag3PO4/HAp composite: a Z-scheme mechanism insight, Appl. Catal. B:Envior. 2015, 179, 29-36.
109. Qianqian Liu, Jing Ding, Yuanyuan Chai, Junqi Zhao, Shibiao Cheng, Baoning Zong,Wei‐Lin Dai, Unprecedented Enhancement in Visible-light-driven Photoactivity of Modified Graphitic C3N4 by Coupling with H2WO4, J. Envior. Chem. Engin., 2015, 3(2), 1072-1080.
108. Xin-Li Yang, Li-Ming Qiao,Wei‐Lin Dai, Phosphotungstic acid encapsulated in metal-organic framework UiO-66: An effective catalyst for the selective oxidation of cyclopentene to glutaraldehyde, Micro. Mesco. Mater., 2015, 211, 73-81.
107. Bin Wang, Yuanyuan Cui, Chao Wen, Xi Chen, Yu Dong, Wei‐Lin Dai, Role of copper content and calcination temperature in the structural evolution and catalytic performance of Cu/P25 catalysts in the selective hydrogenation of dimethyl oxalate, Appl. Catal. A:Gen., 2015.
106. 戴维林,丁靖,刘倩倩,王力,刘欣. 功能性离子液体修饰的石墨相C3N4催化材料及其制备方法和应用. 中国发明专利,CN104475153A,2015-04-01.
105. 戴维林,王滨,温超,崔园园,陈曦. 一种用于草酸二甲酯气相催化加氢合成乙二醇及乙醇酸甲酯的催化剂及其制备方法. 中国发明专利,CN104492445A,2015-04-08.
104. 杨新丽,李浩博,曹晓雨,谢文磊,刘洋,戴维林. 一种用于合成戊二醛的金属-有机骨架固载氧化钨催化剂及其生产方法. 中国发明专利,CN104383965A,2015-03-04.

2014年

103. Chao Wen, Fanqi Li, Yuanyuan Cui, Wei-Lin Dai, Kangnian Fan, Catalysis Today, 2014,233,117-126.
102. Zhaoyan Zhang, Quanjing Zhu, Jing Ding, Xin Liu, Wei-Lin Dai, Applied Catalysis A: General, 2013,482,171-178.
101. Chao Wen, Anyuan Yin, Wei-Lin Dai, Applied Catalysis B: Environmental, 2014, 160-161,730-741.
100. Yuanyuan Cui,Chao Wen,Xi Chen, Wei-Lin Dai, RSC Adv., 2014,4, 31162-31165;

2013年

99. Xian Li, Yuanyuan Cui, Xinli Yang, Wei-Lin Dai,Kangnian Fan, Applied Catalysis A: General 458 (2013) 63–70;
98. Yuanyuan Cui, Ying Wang, Kangnian Fan, Wei-Lin Dai, Applied Surface Science, 2013,279,391;
97. Chao Wen, Anyuan Yin, Yuanyuan Cui, Xinli Yang, Wei-Lin Dai, Kangnian Fan, Applied Catalysis A: General 458 (2013) 82;
96. Chao Wen, Yuanyuan Cui, Wei-Lin Dai, Songhai Xie and Kangnian Fan, Chemical Communications, 2013,49,5195;

2012年

95. Jian-Feng Guo, Bowen Ma, Anyuan Yin, Kangnian Fan, Wei-Lin Dai, Journal of Hazardous Materials,2012, 211–212,77-82
94. Jiamin Zheng, Jie Huang, Xian Li, Wei-Lin Dai* and Kangnian Fan,RSC Adv., 2012,2, 3801-3809;
93. YANG Xinli*, ZHANG Chengjun, DAI Weilin*, LIU Jianping, WEI Meisheng,2012,33,878;
92. Quanjing Zhu, Xiaofeng Chu, Zhaoyan Zhang, Wei-Lin Dai*, Kangnian Fan,Applied Catalysis A: General.,2012,435-436,141;
91. Xiaofeng Chu, Quanjing Zhu, Wei-Lin Dai*, Kangnian Fan,RSC Adv., 2012,2, 7135-7139;
90. Bowen Ma, Jianfeng Guo, Wei-Lin Dai*, Kangnian Fan,Applied Catalysis B: Environmental,2012,123-124,193;

2011年

89. Ruihua Gao, Quanjing Zhu, Wei-Lin Dai and Kangnian Fan, Green Chem., 2011,13, 702-708;
88. Anyuan Yin, Chao Wen, Wei-Lin Dai, Kangnian Fan,Applied Surface Science,2011,257,5844;
87. Yingyi Le,Anyuan Yin,Weilin Dai,Kangnian Fan,Chinese Journal of Chemistry,2011,28,29;
86. Anyuan Yin, Chao Wen, Xiaoyang Guo, Wei-Lin Dai and Kangnian Fan,Journal of Catalysis,2011,280,77;
85. Anyuan Yin, Jingwen Qu, Xiaoyang Guo, Wei-Lin Daiand Kangnian Fan, Applied Catalysis A: General,2011,400,39;
84. Bowen Ma, Jianfeng Guo, Luyao Zou, Weilin Dai, Kangnian Fan, Chinese Journal of Chemistry 29(2011) 857–859;
83. Xiaofeng Chu, Ying-Yi Le, Quanjing Zhu, Kangnian Fan and Wei-Lin Dai, Applied Surface Science,2011, 257, 8605;
82. Ying Wang, Jia-Min Zheng, Kangnian Fan and Wei-Lin Dai, Green Chem., 2011, 13, 1644;
81. Jie Huang, Ying Wang, Jiaming Zheng, Wei-Lin Dai, Kangnian Fan, Applied Catalysis B: Environmental, 2011, 103, 343;
80. Anyuan Yin, Chao Wen, Wei-Lin Dai and Kangnian Fan, Journal of Material Chemistry, J. Mater. Chem., 2011,21, 8997-8999;
79. Anyuan Yin, Chao Wen, Wei-Lin Dai∗, Kangnian Fan, Applied Catalysis B: Environmental, 2011, 108-109, 90;

2010年

78. Quan-Jing Zhu, Wei-Lin Dai and Kang-Nian Fan,Green Chem., 2010,12, 205-208;
77. Anyuan Yin, Xiuying Guo, Kangnian Fan, Wei-Lin Dai,ChemcatChem 2010,2,206-213;
76. Anyuan Yin, Xiuying Guo, Kangnian Fan, Wei-Lin Dai,Appl.Catal.A 2010,377,128–133;
75. Anyuan Yin, Xiaoyang Guo, Weilin Dai and Kangnian Fan,Chem. Commun., 2010, 46, 4348–4350;
74. Anyuan Yin, Xiaoyang Guo, Weilin Dai and Kangnian Fan,Acta Chimica Sinica 68(2010)1285-1290
73. Jian-Feng Guo, Bowen Ma, Anyuan Yin, Kangnian Fan, Wei-Lin Dai,Applied Catalysis B: Environmental, 2011,101,580-586;
72. Anyuan Yin, Xiaoyang Guo, Wei-Lin Dai, Kangnian Fan, Catalysis Communicataions,2011,12,412;
71. Jianfeng Guo, Jingxia Li, Anyuan Yin, Kangnian Fan, Wei-Lin Dai, Chinese Journal of Chemistry, 2010,28,2144;

2009年

70. Jie Huang, Wei-Lin Dai, Kangnian Fan,J.Catal.2009,228-235;
69. An-Yuan Yin, Xiu-Ying Guo, Wei-Lin Dai and Kang-Nian Fan, Green Chemistry 2009,11,1514;
68. Xiuying Guo, Anyuan Yin, Wei-Lin Dai and Kangnian Fan, Catal.Lett.132(2009)22;
67. Hongwei Chen1, Anyuan Yin1, Xiuying Guo1, Wei-Lin Dai and Kangnian Fan,Catal.Lett.131(2009)632;
66. 尹安远; 郭秀英; 戴维林; 范康年,Acta Chimica Sinica,2009,67,1731;
65. Anyuan Yin, Xiuying Guo, Wei-Lin Dai and Kangnian Fan,J. Phys. Chem. C, 2009, 113 (25),11003;
64. Jingxia Li, Jianhua Xu, Wei-Lin Dai* and Kangnian Fan,J. Phys. Chem. C 2009, 113, 8343–8349;

2008年

63. Ruihua Gao, Xinli Yang, Dai WL*, Yingyi Le, Hexing Li, and Kangnian Fan, High-activity, single-site tungsten-containing mesocellular silica foam materials for catalytic epoxidation of cycloocta-1,5-diene with aqueous hydrogen peroxide,J. Catal., 256( 2008)259-267.
62. Xinli Yang, Ruihua Gao, W.L. Dai*, and K.N. Fan, Influence of tungsten precursors on the structure and catalytic properties of WO3/SBA-15 in the selective oxidation of cyclopentene to glutaraldehyde. J. Phys. Chem. C112 (10)(2008)3819–3826.
61. Jian-hua Xu, Wei-Lin Dai*, Jingxia Li, Yong Cao, Hexing Li, Kangnian Fan, Simple fabrication of twist-like helix N,S-codoped titania photocatalyst with visible-light response, Appl. Catal. B: Envior., 2008 (79) 72-80.
60. Jingxia Li, Jian-hua Xu, Wei-Lin Dai*, Hexing Li, Kangnian Fan, Direct Hydro-alcohol Thermal Synthesis of Special Core-shell Structured Fe-doped Titania Microspheres with Extended Visible Light Response and Enhanced Photoactivity, Appl. Catal. B: Envior., In Press, 2008.
59. Jingxia Li, Jian-hua Xu, Wei-Lin Dai*, Hexing Li, Kangnian Fan, One-Pot Synthesis of Twist-Like Helix W,N-Codoped Titania Photocatalysts with Highly Improved Visible Light Activity in the Abatement of Phenol, Appl. Catal. B: Envior., 82 (2008)233-243.
58. Anyuan Yin, Xiuying Guo, Dai WL*, Hexing Li, and Kangnian Fan, High active and selective copper-containing HMS catalyst in the hydrogenation of dimethyl oxalate to ethylene glycol, Appl. Catal. A:Gen., 2008, In Press.
57. Yingyi Le, Wei-Lin Dai*, Xinli Yang, Ruihua Gao Kangnian Fan, Unexpected mononuclear W(VI) complexes containing phosphonate ligands anchored on mesoporous silica. Another strategy for immobilization, Catal. Commun., 9(9) (2008)1838-1841.
56. Jingxia Li, Yingyi Le, Wei-Lin Dai*, Hexing Li, Kangnian Fan*, Self-assembled Mg5(CO3)4(OH)2×4H2O nanosheet as an effective catalyst in the Baeyer-Villiger oxidation of cyclohexanone, Catal. Commun., 9(2008)1334-1341.
55. Jian-hua Xu, Wei-Lin Dai*, Jingxia Li, Yong Cao, Hexing Li, Heyong He, Kangnian Fan, Simple fabrication of thermally stable apertured N-doped TiO2 microtubes as a highly efficient photocatalyst under visible light irradiation, Catal. Commun., 9,146-152, 2008.
54. Jian-hua Xu, Wei-Lin Dai*, Jingxia Li, Yong Cao, Hexing Li, Kangnian Fan, Novel Core-Shell Structured Mesoporous Titania Microspheres: Preparation, Characterization and Excellent Photocatalytic Activity in Phenol Abatement, J.Photochem&Photobio A., 195, 284-294, 2008.
53. Jingxia Li, Liping Ren,Wei-Lin Dai*, Yong Cao, Kangnian Fan*, Novel Flower-like Ag-SiO2-MgO-Al2O3 Material:Preparation, Characterization and Catalytic Application in Methanol Dehydrogenation, Chin. J. Chem., 26,1045-1051, 2008.
52. 李静霞,黄靓,戴维林*,范康年,高活性MgO/SnO2复合金属氧化物催化剂的合成及在双氧水选择氧化环己酮制ε-己内酯反应中的应用,化学学报 2008, 66(1), 5-9.
51. 杨新丽,戴维林*,高瑞华,沈晚晴,范康年, 新型WO3/TiO2纳米管催化剂的合成及其在环戊烯选择氧化反应中的性能研究.化学学报 2008, 66(12), 1391-1398.
50. 尹安远,戴维林*,范康年,草酸二甲酯催化加氢合成乙二醇过程的热力学计算与分析,石油化工 2008,37(1), 64-68.
49. 尹安远,陈粱峰,戴维林*,乔明华,范康年,草酸酯催化加氢制备乙二醇研究进展,化学世界 2008,6,369-­373.

2007年

48. Xinli Yang, Wei-Lin Dai*, Ruihua Gao, and K.N. Fan,Characterization and catalytic behavior of highly active tungsten-doped SBA-15 catalyst in the synthesis of glutaraldehyde using an anhydrous approach. J. Catal. 2007, 249, 278-288.
47. Jie Huang, Wei-Lin Dai *, Hexing Li, Fan KN, Au/TiO2 as high efficient catalyst for the selective oxidative cyclization of 1,4-butanediol to g-butyrolactone, J. Catal., 2007, In press.
46. Ruihua Gao, Wei-Lin Dai*, Yingyi Le, Xinli Yang, Yong Cao, Hexing Li, and Kangnian Fan, A green process for O-hetero-cyclization of cycloocta-1,5-diene by peroxo tungstic specieswith aqueous H2O2, Green Chem., 9(2007) 878-881.
45. Jian-hua Xu, Wei-Lin Dai*, Jingxia Li, Yong Cao, Hexing Li, Kangnian Fan, Simple fabrication of twist-like helix N,S-codoped titania photocatalyst with visible-light response,Appl. Catal. B: Envior., In Press, 2007.
44. Jian-hua Xu, Wei-Lin Dai*, Jingxia Li, Yong Cao, Hexing Li, Heyong He, Kangnian Fan, Simple fabrication of thermally stable apertured N-doped TiO2 microtubes as a highly efficient photocatalyst under visible light irradiation, Catal. Commun., In Press, 2007.
43. Ruihua Gao, Wei-Lin Dai *, Xinli Yanga, Hexing Lib, and Kangnian Fan, New green catalytic manufacture of glutaric acid from the oxidation of cyclopentane-1,2-diol with aqueous hydrogen peroxide, Appl. Catal. A: Gen., 2007, In press.
42. Hui Chen, Wei-Lin Dai *, Ruihua Gao,Yong Cao, Hexing Li, Fan KN, New green catalytic manufacture of glutaric acid from the oxidation of cyclopentane-1,2-diol with aqueous hydrogen peroxide, Appl. Catal. A: Gen., 2007, 328, 226-236.
41. 李静霞,黄靓,戴维林*,范康年,高活性MgO/SnO2复合金属氧化物催化剂的合成及在双氧水选择氧化环己酮制ε-己内酯反应中的应用,化学学报2007,出版中。
40. 徐建华,戴维林*,李静霞,李闻,曹勇,范康年,掺银二氧化钛多孔微管的制备、表征及光催化活性,化学学报,65(12)(2007)1172-1176.
39. 李静霞,戴维林*,曹勇,范康年,选择氧化反应中新型Keggin结构硅钨酸盐催化剂研究进展,石油化工2007,4,412-417.
38. 黄靓,李静霞,戴维林*,曹勇,范康年,含锡催化剂在Baeyer-Villiger反应中的应用进展,石油化工2007,2,200-204。

2006年

37. Hui Chen, Dai WL*, Xin-Li Yang, Ruihua Gao,Yong Cao, Hexing Li, Fan KN, Studies on the structural change of a reaction-controlled phase-transfer [π-C5H5NC16H33]3{PO4[WO3]4} catalyst during the selective oxidation of cyclopentene to glutaric acid with aqueous H2O2, Applied Catalysis A: General, 2006, 309, 62-69
36. Li-Ping Ren, Dai WL*, Xin-Li Yang, Yong Cao, Zaiku Xie, Fan KN, Study on the transformation of various oxygen species on the surface of electrolytic silver by in situ Raman, Chin. J. Catal.(2006), 27(2),115-118
35. 陈慧,戴维林*, 杨新丽, 高瑞华,曹勇, 范康年,环戊烯催化氧化合成戊二酸反应及机理研究.石油化工 2006,35(2),118-121.

2005年

34. Xinli Yang, W.L. Dai*, Changwen Guo, Hui Chen, Yong Cao, Hexing Li, Heyong He and K.N. Fan, Synthesis of Novel Core-shell Structured WO3/TiO2 Spheroids and Its Application in the Catalytic Oxidation of Cyclopentene to Glutaraldehyde by Aqueous H2O2. J. Catal. 2005, 234, 438-450.
33. Xinli Yang, W.L. Dai*, Hui Chen, Yong Cao, Hexing Li, and K.N. Fan, Preparation, characterization and catalytic application of highly ordered mesoporous W-MCM-48 for the selective oxidation of cyclopentene to glutaraldehyde. J. Mol. Catal. A 2005, 241, 205-214.
32. 高瑞华,戴维林*,杨新丽,曹勇,范康年,新型铀基催化剂研究进展.石油化工 2005,34(8),791-796。
31. Xinli Yang, W.L. Dai*, Hui Chen, Yong Cao, Hexing Li, Heyong He, and K.N. Fan,. Novel efficient and green approach to the synthesis of glutaraldehyde over highly active W-doped SBA-15 catalyst., J. Catal.(2005), 229(1), 259-263.
30. Xinli Yang, W.L. Dai*, Hui Chen, Jianhua Xu, Yong Cao, Hexing Li, and K.N. Fan, Novel tungsten-containing mesoporous HMS material: Its synthesis, characterization and catalytic application in the selective oxidation of cyclopentene to glutaraldehyde by aqueous H2O2. Appl. Catal. A 2005, 283(1-2)1-8.
29. 杨新丽,戴维林*,徐建华,陈浩,曹勇,范康年,新型WO3/HMS催化剂的合成及其在环戊烯选择氧化反应中的性能研究.催化学报 2005,26(4),311-316.
28. Li-Ping Ren, Dai WL*, Xin-Li Yang, Jianhua Xu, Yong Cao, Hexing Li, Fan KN, Direct Dehydrogenation of Methanol to Formaldehyde over Pre-treated Polycrystalline Silver Catalyst,Catal. Lett.2005, 99(1-2), 83-87.

2004年

27. Dai WL*,Yong Cao, Li-Ping Ren, Xin-Li Yang, Jian-Hua Xu, He-Xing Li,He-Yong He, Kang-Nian Fan, Ag–SiO2–Al2O3 composite as highly active catalyst for the formation of formaldehyde from the partial oxidation of methanol, J. Catal., 2004, 228(1), 80-91.
26. 徐建华,戴维林,杨新丽,曹勇,范康年,新型MCM-41固载化铌酸催化氧化环戊烯制备戊二醛,化学学报,2004, 62(16),1467-1471.
25. Li-Ping Ren, Dai WL*, Xin-Li Yang,Yong Cao, Hexing Li, Fan KN, Novel Highly Active Four Composite Ag-SiO2-Al2O3-ZnO Catalyst Used for the Production of Anhydrous HCHO from the Direct Dehydrogenation of CH3OH, APPL CATAL A:GEN., 2004, 273(1-2), 83-88.

2003年

24. Ren LP, Dai WL*, Cao Y, Li HX, Fan KN, First observation of highly efficient dehydrogenation of methanol to anhydrous formaldehyde over novel Ag-SiO2-MgO-Al2O3 catalyst, Chem. Commun. 2003, 24, 3030-3031.
23. 郭昌文,戴维林,曹勇,范康年,W-SBA-15的原位合成及其在环戊烯氧化反应中的催化性能研究,化学学报,2003, 61(9),1496-1499.
22. 郭昌文,戴维林,曹勇,范康年,规则中孔TiO2微球的均相沉淀合成及其在环戊烯氧化反应中的应用,高等学校化学学报,2003, 24(6), 1097-1099.
21. 任丽萍,戴维林,董义,乔明华,曹勇,范康年,李和兴,氧在银/二氧化硅催化剂上的超高真空程序升温脱附研究,催化学报,2003, 24(9), 669-673.
20. Ren LP, Dai WL, Li HX, Cao Y, Zhang XH, Fan KN, The non-isothermal decomposition kinetics of copper(II) complexes with phthalanilic acids and amino acids, Int. J. Chem. Kinetics, 2003, 35(12), 623-628.
19. 任丽萍,戴维林,曹勇,李和兴,章文华,范康年,甲醇脱氢制无水甲醛的高活性Ag-SiO2-Al2O3催化剂,化学学报,2003, 61(6), 937-940.(通讯联系人)
18. Ren LP, Dai WL, Li HX, Cao Y, Zhang XH, Fan KN, The non-isothermal decomposition kinetics of copper(II) complexes with phthalanilic acids and amino acids, Int. J. Chem. Kinetics, 2003, 35(12), 623-628.
17. 任丽萍,戴维林,曹勇,李和兴,章文华,范康年,甲醇脱氢制无水甲醛的高活性Ag-SiO2-Al2O3催化剂,化学学报,2003, 61(6), 937-940.(通讯联系人)
16. 戴维林,曹勇,范康年,邓景发,纳米Ni-Co-B非晶态合金抗氧化行为的原位XPS研究,高等学校化学学报,2003, 3, 473-476

2002年

15. Dai WL,Li HX, Cao Y, Qiao MH, Fan KN, Deng JF, Evidence for the anti-oxidation effect of boron on the ultra-fine Ni-B amorphous alloy catalyst, Langmuir, 18(24), 9605-9608, 2002.
14. 陈浩,邓景发,蒋安仁,戴维林,范康年,过氧铌酸催化下双氧水选择氧化环戊烯制备戊二醛,复旦学报,41(3),317-319,2002.
13. Dai WL, Dong Y, Cao Yong, Fan KN, Deng JF, Liao YY, Hong BF, In situ Raman Studies on the Interaction of Oxygen and Methanol with iodine-modified Electrolytic Silver Catalyst, J. Raman Spectr., 33(5),318-324, 2002
12. Chen H, Dai WL, Deng JF, Fan KN, Novel heterogeneous W-doped MCM-41 catalyst for highly selective oxidation of cyclopentene to glutaraldehyde by aqueous H2O2, Catal. Lett., 81(1-2)131-136, 2002
11. Chen H, Dai WL, Jiang AR, Deng JF, Reaction-controlled phase-transfer catalytic oxidative cleavage of cyclopentene to glutaraldehyde over peroxy-niobic acid, Chem. Lett. (2): 220-221 FEB 5 2002.

2001年前

10. Dai WL, Sun Q, Deng JF, Wu D, Sun YH, XPS studies of Cu/ZnO/Al2O3 ultra-fine catalysts derived by a novel gel oxalate co-precipitation for methanol synthesis by CO2+H-2, Appl. Surf. Sci., 177 (3): 172-179 JUN 8 2001
9. Dong Y, Dai WL, Li JL, Deng JF, Direct dehydrogenation of methanol to formaldehyde over novel Ag-containing ceramics, Chem.? Lett. (6): 534-535 JUN 5 2001
8. Li JL, Dai WL, Dong Y, Deng JF,A new silver-containing ceramics for catalytic oxidation of methanol to formaldehyde,MATER LETT 44: (3-4) 233-236 JUN 2000
7. Dai WL, Li JL, Cao Y, et al.,Novel sol-gel-derived Ag/SiO2-Al2O3 catalysts for highly selective oxidation of methanol to formaldehyde,CATAL LETT 64: (1) 37-40 2000
6. Dai WL, Cao Y, Deng JF, Liao YY, Hong BF,The role of iodide promoter in selective oxidation of methanol to formaldehyde,CATAL LETT 63: (1-2) 49-57 1999.
5. Dai WL, Huang XJ, Chen HY, Deng JF, Kinetics and mechanism of the catalytic oxidation of cyclopentene to glutaraldehyde with aqueous hydrogen peroxide, INDIAN J CHEM B 36: (7) 583-589 JUL 1997.
4. Dai WL, Qiao MH, Deng JF, XPS studies on a novel amorphous Ni-Co-W-B alloy powder, APPL SURF SCI 120: (1-2) 119-124 NOV 1997.
3. Dai WL, Cao Y, Li HX, Deng JF, A novel silver-silica catalyst used for the manufacture of formaldehyde, CHEM LETT (3) 197-198 1997
2. Dai WL, Cao Y, Li HX, Deng JF, A novel silver-silica catalyst used for the manufacture of formaldehyde, CHEM LETT (3) 197-198 1997
1. Dai WL, YU HK, DENG JF, et al. Studies on the mechanism of catalytic oxidation of yclopentene to prepare glutaraldehyde with aqueous hydrogen peroxide, ACTA CHIM SINICA 53: (2) 188-192 1995