190. Qian Peng, Weiliang Han, Weigao Han, Fang Dong*, Zhicheng Tang*, Zhifang Zhou*, Tailored Pt/NiaCobAlOx catalysts derived from LDH structure for efficient catalytic combustion of propane, Chemical Engineering Journal, 500 (2024) 157181.
189. Bingzheng Zhao, Rongji Cui, Zhicheng Tang*, Qingchun Wang*, Fabrication of a mesoporous La-doped TiO2 nanofiber-supported Ru catalyst by electrospun technology for efficient catalytic wet air oxidation of phenol, Industrial & Engineering Chemistry Research, 63 (2024) 17062-17074.
188. Qing Zhang, Rongji Cui*, Jun Wu, Zhicheng Tang*, Exploring the influence of CeTiOx morphology on wet catalytic oxidation performance of phenol over the Ru-based catalyst, Industrial & Engineering Chemistry Research, 63 (2024) 17014-17024.
187. Xiaoshuai Gao, Weigao Han*, Fang Dong, Xiaosheng Huang, Zhicheng Tang*, Qiuye Li*, Engineering multi-component 3DOM FeVCrOx catalysts with high oxygen mobility for the oxidative dehydrogenation of 1-butene with CO2, Nanoscale, 16 (2024) 19306-19321.
186. Tian Zhao, Xiaosheng Huang*, Rongji Cui, Xin Song, Zhicheng Tang*, Design the confinement structure Mn-TNTs@Ce catalyst for selective catalytic reduction of nitrogen oxides with superior SO2 resistance over a wider operation window, Applied Catalysis B: Environment and Energy, 358 (2024) 124353.
185. Jie Wang, Fang Dong, Dan Yang, Weiliang Han, Weigao Han, Zhicheng Tang*, Lei Niu*, Engineering the core-shell structure CoMnOx@OTS cubic catalyst with excellent water resistant for low-temperature catalytic combustion of VOCs, Environmental Science: Nano, 11 (2024) 3533-3550.
184. Yibo Mu, Xiaosheng Huang, Zhicheng Tang*, Qingchun Wang*, Facile strategy to promote SO2‑resistance ability for NH3-SCR catalyst CeSnTiOx via copper sulfate-modified: Boost from a double reaction site, Separation and Purification Technology, 353 (2025) 128490.
183. Qiang Zhao, Xiaosheng Huang*, Tian Zhao, Rongji Cui, Jiyi Zhang*, Zhicheng Tang*, Rationally designed confined structure Ce-Mn-TNTs catalyst for low-temperature NH3-SCR reaction with superior activity and H2O/SO2 tolerance, ACS Sustainable Chemistry & Engineering, 12 (2024) 9987-10001.
182. Shixing Wu#, Shilin Wu#, Fang Dong, Siyi Ma, Yu Meng*, Haitao Zhang, Zhicheng Tang*, Engineering a CoMnOx nanocube core catalyst through epitaxial growth of CoAlOx hydrotalcite shell nanosheets for efficient elimination of propane, Journal of Materials Chemistry A, 12 (2024) 16210-16226.
181. Qingjun Ren, Guodong Zhang*, Jiyi Zhang, Zhicheng Tang*, Deeply revealing the mechanism of the synergistic effect of Cu and P on alleviating CaO poisoning performance of V-W-Ti catalysts in cement kilns, Chemical Engineering Journal, 492 (2024) 152382.
180. Zhan Shi, Fang Dong, Weiliang Han, Xiuyan Dong*, Zhicheng Tang*, Engineering Co3O4@3DOM LaCoO3 multistage-pore nanoreactor with superior SO2 resistance for toluene catalytic combustion, Nanoscale, 16 (2024) 10760-10778.
179. Siyi Ma, Fang Dong*, Shixing Wu, Weitong Ling, Weiliang Han, Weigao Han, Zhicheng Tang*, Silica-assisted Pt1/CeO2 single-atom catalyst for enhancing the catalytic combustion performance of VOCs by inducing H2O activation, Applied Catalysis B: Environment and Energy, 354 (2024) 124152.
178. Yuhang Wang, Guodong Zhang, Yongjie Xi*, Zhicheng Tang*, Hua Feng*, Elucidating the electron confinement effect on CeFeW/ZrO2 catalysts to enhance SO2 resistance in the low temperature NH3-SCR reaction, Separation and Purification Technology, 346 (2024) 127569.
177. 杨丹, 董芳, 张继义, 唐志诚*, VOCs催化燃烧催化剂抗SO2中毒研究进展, 分子催化, 38 (2024) 284-296.
176. Rongji Cui, Xiaosheng Huang, Guodong Zhang, Zhicheng Tang*, Significantly improving N2 selectivity and H2O resistance by confining Mn into TiO2 nanotubes for low temperature selective catalytic reduction of NO with NH3, Industrial & Engineering Chemistry Research, 63 (2024) 7003-7017.
175. Dan Yang, Fang Dong*, Jie Wang, Zhicheng Tang*, Jiyi Zhang*, Constructing a core-shell Pt@MnOx/SiO2 catalyst for benzene catalytic combustion with excellent SO2 resistance: new insights into active sites, Environmetal Science: Nano, 11 (2024) 1926-1947.
174. 包鹏飞, 周小纳, 韩维亮, 张继义*, 唐志诚*, VOCs催化燃烧整体式催化剂及涂层材料研究进展, 分子催化, 38 (2024) 254-262.
173. Xiuzi He, Fang Dong*, Weigao Han, Zhicheng Tang*, Yong Ding, Recent advances and future challenges in the catalytic combustion of light hydrocarbon VOCs, Journal of Materials Chemistry A, 12 (2024) 7470-7507.
172. Mengqian Li, Xiaosheng Huang, Guodong Zhang, Zhicheng Tang*, Dongcheng Hu*, An effective strategy to enhance the anti-poisoning ability of CeWTi catalyst for low-temperature selective catalytic reduction of NO with NH3, Separation and Purification Technology, 340 (2024) 126798.
171. Tingting Zhu, Xin Song*, Tianle Li, Junpeng Hu, Kai Qi, Panting Gao, Rongji Cui, Zhicheng Tang*, Simultaneous catalytic removal of complex sulfur-containing VOCs over Mn-based hydrotalcite-like compounds: Active sites and oxidation mechanism, Separation and Purification Technology, 339 (2024) 126694.
170. Fang Dong#, Yu Meng#, Weitong Ling, Weigao Han, Weiliang Han, Xiaona Li, Zhicheng Tang*, Single atomic Pt confined into lattice defect sites for low-temperature catalytic oxidation of VOCs, Applied Catalysis B: Environment and Energy, 346 (2024) 123779.
169. Weigao Han#, Weitong Ling#, Peng Gao, Fang Dong*, Zhicheng Tang*, Engineering Pt single atom catalyst with abundant lattice oxygen by dual nanospace confinement strategy for the efficient catalytic elimination of VOCs, Applied Catalysis B: Environment and Energy, 345 (2024) 123687.
168. Xiaosheng Huang#, Ningjie Fang#, Shilin Wu, Fang Dong, Yinghao Chu, Zhicheng Tang*, Interfacial confinement effect induced by pre-sulfurization for promoting SO2 tolerance of MnFe-TOS catalyst in low temperature NH3-SCR reaction, Applied Catalysis B: Environmental, 343 (2024) 123518.
167. Guodong Zhang, Xiaosheng Huang, Weiliang Han, Zhicheng Tang*, Engineering bifunctional Pd/CeNbTiOx catalyst for the simultaneous removal of NO and CO under oxygen-rich conditions at low temperature, Applied Catalysis B: Environmental, 343 (2024) 123482.
166. Shixing Wu, Shilin Wu, Fang Dong, Yuntai Xi, Peng Wang, Yinghao Chu, Zhicheng Tang*, Jiyi Zhang, Elucidating the nature role of acid etching on the CoMnOx catalyst with outstanding performance for the catalytic combustion of o-dichlorobenzene, Applied Catalysis B: Environmental, 342 (2024) 123390.
165. Weigao Han, Fang Dong, Weiliang Han, Xiaosheng Huang, Zhicheng Tang*, Constructing mesoporous FeAlOx based catalysts through framework-confined strategy with superior performance for the oxidative dehydrogenation of 1-butene with CO2, Chemical Engineering Journal, 475 (2023) 146432.
164. Siyi Ma, Fang Dong, Weiliang Han, Weigao Han, Zhicheng Tang*, Engineering Pt nanoclusters on CeO2 surface with abundant point defects by in situ confined-domain encapsulation strategy for the catalytic elimination of VOCs, RSC Applied Interfaces, 1 (2024) 155-172.
163. Dan Yang, Fang Dong*, Weigao Han, Jiyi Zhang*, Zhicheng Tang*, The significant enhanced SO2-resistance of Pt/SiO2 catalysts by building the ultra-thin metal oxides shell for benzene catalytic combustion, ACS Applied Materials & Interfaces, 15 (2023) 42541-42556.
162. Zhan Shi, Fang Dong, Zhicheng Tang*, Xiuyan Dong*, Design Sr, Mn-doped 3DOM LaCoO3 perovskite catalysts with excellent SO2 resistance for benzene catalytic combustion, Chemical Engineering Journal, 473 (2023) 145476.
161. Mengqian Li, Xiaosheng Huang*, Guodong Zhang, Zhicheng Tang*, Dongcheng Hu*, Elaborating the improving SO2 resistance mechanism of CeWTi catalysts through framework confined ordered mesoporous structures for low-temperature NH3-SCR reaction, Separation and Purification Technology, 324 (2023) 124555.
160. Tian Zhao, Xiaosheng Huang*, Rongji Cui, Guodong Zhang, Zhicheng Tang*, Unveiling remarkable enhancement role by designing the confined structure Ho-TNTs@Mn catalyst for low-temperature NH3-SCR reaction, Nanoscale, 15 (2023) 12540-12557.
159. Jie Wang, Fang Dong, Zhicheng Tang*, Lei Niu, Xia Zhao*, New insights into electronic structure effect of the SnMnOx nanorod catalysts for low-temperature catalytic combustion of o-dichlorobenzene, Chemistry-An Asian Journal, 18 (2023) e202300413.
158. Yuhang Wang, Guodong Zhang, Xiaosheng Huang, Zhicheng Tang*, Hua Feng*, An effective strategy to enhance the sulfur resistance of Ce-based catalyst for low temperature SCR reaction, Fuel, 352 (2023) 129078.
157. Qingjun Ren, Guodong Zhang, Xiaosheng Huang, Zhicheng Tang*, Jiyi Zhang*, Revealing the deactivation mechanism of Ca poisoning on V-W-Ti catalysts in cement kilns, Fuel, 351 (2023) 128999.
156. Fei Zhao, Guodong Zhang*, Xiaosheng Huang, Zhicheng Tang*, Fei Zha*, Boosting water-resistance ability on a PTFE modified Ti-OMS-2 catalyst for low-temperature NH3-SCR reaction, Industrial & Engineering Chemistry Research, 62 (2023) 9077-9090.
155. Rongji Cui, Xiaosheng Huang, Guodong Zhang, Zhicheng Tang*, Engineering 3D structure Mn/YTiOx nanotube catalyst with an efficient H2O and SO2 tolerance for low-temperature selective catalytic reduction of NO with NH3, Nanoscale, 15 (2023) 7945-7961.
154. Weitong Ling, Peng Gao, Wenyan Du, Shilin Wu, Haijun Zhao*, Fang Dong, Fei Zha*, Zhicheng Tang*, Facile construction of new coronal-like MnCeOx hollow nanosphere for efficiently removing o-dichlorobenzene, Applied Catalysis B: Environmental, 330 (2023) 122637.
153. Yuntai Xi, Fang Dong*, Xin Xu, Shixing Wu, Zhicheng Tang*, Jiyi Zhang*, A novel 3D printed technology to construct a monolithic ultrathin nanosheets Co3O4/SiO2 catalyst for benzene catalytic combustion, Nano Research, 16 (2023) 12173-12185.
152. Xiaosheng Huang, Fang Dong, Guodong Zhang, Zhicheng Tang*, Design and identify the confinement effect of active site position on catalytic performance for selective catalytic reduction of NO with NH3 at low temperature, Journal of Catalysis, 420 (2023) 134-150.
151. Liqiong Liu, Weiliang Han*, Fang Dong, Hua Feng*, Zhicheng Tang*, Designing ordered mesoporous confined Pt/Ti0.1AlOy catalysts for the catalytic combustion of propane, New Journal of Chemistry, 47 (2023) 5519-5533.
150. Tian Zhao, Xiaosheng Huang*, Rongji Cui, Weiliang Han, Guodong Zhang, Zhicheng Tang*, Design of confined catalysts and applications in environmental catalysis: Original perspectives and further prospects, Journal of Cleaner Production, 390 (2023) 136125.
149. Weigao Han#, Shilin Wu#, Fang Dong*, Weiliang Han, Yinghao Chu, Linghui Su, Zhicheng Tang*, A confined growth strategy to construct 3DOM SiO2 nanoreactor in-situ embedded Co3O4 nanoparticles catalyst for the catalytic combustion of VOCs: Superior H2O and SO2 resistance, Nano Research, 17 (2024) 207-220.
148. Siyi Ma, Weigao Han, Weiliang Han, Fang Dong*, Zhicheng Tang*, Recent advances and future perspectives in MOF-derived single atom catalysts and their application: A review, Journal of Materials Chemistry A, 11 (2023) 3315-3363.
147. Shixing Wu, Haijun Zhao*, Yuntai Xi, Zhicheng Tang*, Jiyi Zhang*, Core-shell CoCuOx@MOx (M = Nb, Ti and Ce) catalysts with outstanding durability and resistance to H2O for the catalytic combustion of o-dichlorobenzene, Science of The Total Environment, 860 (2023) 160472.
146. Yibo Mu, Xiaosheng Huang, Zhicheng Tang*, Qingchun Wang*, Order mesoporous TiO2 framework confined CeSn catalyst exhibiting excellent high activity for selective catalytic reduction of NO with NH3 at low temperature, Chemical Engineering Journal, 454 (2023) 140181.
145. Yuntai Xi, Fang Dong*, Zhongying Ji, Zhicheng Tang*, Jiyi Zhang*, Design order macro-meso porous structure monolithic Co3O4/SiO2 catalyst via a novel 3D printing for the highly efficient catalytic combustion of toluene, Journal of Cleaner production, 379 (2022) 134694.
144. Yibo Mu, Xiaosheng Huang, Zhicheng Tang*, Qingchun Wang*, Ordered mesoporous TiO2/SBA-15 confined CexWy catalyst for selective catalytic reduction of NO with NH3, New Journal of Chemistry, 46 (2022) 22030-22044.
143. Xiaolong Liang, Fang Dong, Zhicheng Tang*, Qingchun Wang*, Surface hydroxy functionalized Pt/g-C3N4-CNS for highly effcient methanol electrocatalytic oxidation, Molecular Catalysis, 530 (2022) 112638.
142. Ziguo Cai, Guodong Zhang, Zhicheng Tang*, Jiyi Zhang*, Engineering yolk-shell MnFe@CeOx@TiOx nanocages as a highly efficient catalyst for selective catalytic reduction of NO with NH3 at low temperatures, Nanoscale, 14 (2022) 12281-12296.
141. Liqiong Liu, Weiliang Han, Fang Dong, Hua Feng*, Zhicheng Tang*, Construction of framework confined ordered mesoporous Pt/TixAlOy catalysts and applied for the catalytic oxidation of propane, Microporous and Mesoporous Matierials, 341 (2022) 112111.
140. Xiaolong Liang, Shuyan Liu, Fang Dong*, Zhicheng Tang*, Constructing CNT@NiCo Texture Anchoring Pt Nanoparticle Catalyst for Highly Efficient Methanol Electrocatalytic Oxidation, ChemistrySelect, 7 (2022) e202200373.
139. Meng Wen, Fang Dong*, Jianfei Yao, Zhicheng Tang*, Jiyi Zhang*, Pt nanoparticles confined in the ordered mesoporous CeO2 as a highly efficient catalyst for the elimination of VOCs, Journal of Catalysis, 412 (2022) 42-58.
138. Shixing Wu, Haijun Zhao, Zhicheng Tang*, Jiyi Zhang*, Fabrication of a multi-dimensional CoFeOx catalyst for the efficient catalytic oxidation elimination of o-dichlorobenzene, New Journal of Chemistry, 46 (2022) 11579-11590.
137. Fang Dong, Weigao Han, Weiliang Han, Zhicheng Tang*, Assembling core-shell SiO2@NiaCobOx nanotube decorated by hierarchical NiCo-Phyllisilicate ultrathin nanosheets for highly efficient catalytic combustion of VOCs, Applied Catalysis B: Environmental, 315 (2022) 121524.
136. Jianfei Yao, Fang Dong*, Xin Xu, Meng Wen, Zhongying Ji, Hua Feng*, Xiaolong Wang, Zhicheng Tang*, Rational design and construction of monolithic ordered mesoporous Co3O4@SiO2 catalyst by a novel 3D printed technology for catalytic oxidation of toluene, ACS Applied Materials & Interfaces, 14 (2022) 22170-22185.
135. Fei Zhao, Guodong Zhang, Zhicheng Tang*, Fei Zha*, Construction of fluffy MnFe nanoparticles and their synergistic catalysis for selective catalytic reduction reaction at low temperature, Fuel, 322 (2022) 124185.
134. Siyi Ma, Weiliang Han*, Fang Dong, Zhicheng Tang*, Construction of a nanorod structure-confined Pt@CeO2 catalyst by an in-situ encapsulation strategy for low-temperature catalytic oxidation of toluene, Chemistry-An Asian Journal, 17 (2022) e202200074.
133. Ziguo Cai, Guodong Zhang, Zhicheng Tang*, Jiyi Zhang*, MnFe@CeOx core-shell nanocages for the selective catalytic reduction of NO with NH3 at low temperature, ACS Applied Nano Materials, 5 (2022) 3619-3631.
132. Weigao Han, Fang Dong*, Weiliang Han, Jianfei Yao, Yu Meng*, Zhicheng Tang*, A new strategy for designing highly efficient Co3O4 catalyst with the molecular space configurations for toluene catalytic combustion, Chemical Engineering Journal, 435 (2022) 134953.
131. Meng Wen, Fang Dong, Zhicheng Tang*, Jiyi Zhang*, Engineering order mesoporous CeCoOx catalyst via in-situ confined encapsulation strategy for VOCs catalytic combustion, Molecular Catalysis, 519 (2022) 112149.
130. Xiaolong Liang, Fang Dong, Zhicheng Tang*, Qingchun Wang*, The Pt/g-C3N4-CNS catalyst via in-situ synthesis process with excellent performance for methanol electrocatalytic oxidation reaction, New Journal of Chemistry, 46 (2022) 3121-3129.
129. Enhui Yuan*, Meng Li, Minghui Yang, Xiaosheng Huang, Kun Zhang, Weiliang Han, Zhicheng Tang*, Zhongwen Liu*, Encapsulation of ultra-small Cu-Fe into ZSM-5 zeolites for NH3-SCR with broad reaction-temperature ranges, Microporous and Mesoporous Materials, 331 (2022) 111675.
128. Jianfei Yao, Fang Dong, Hua Feng*, Zhicheng Tang*, Construction of superhydrophobic layer for enhancing the water-resistant performance of VOCs catalytic combustion, Fuel, 314 (2022) 123139.
127. Xiaosheng Huang, Fang Dong, Guodong Zhang*, Zhicheng Tang*, Constructing TiO2@CeMnOx nanocages by self-sacrificial hydrolytic etching MIL-125 for efficient wide-temperature selective catalytic reduction of nitrogen oxides, Chemical Engineering Journal, 432 (2022) 134236.
126. Weiliang Han, Guodong Zhang, Zhicheng Tang*, Synthesis of rod-like Co3O4 catalyst derived from Co-MOFs with rich active sites for catalytic combustion of toluene, Catalysis Surveys from Asia, 26 (2022) 92-103.
125. Shilin Wu, Haijun Zhao*, Weitong Ling, Zhicheng Tang*, Jiyi Zhang*, In situ self-assembly encapsulation of CoFeOx nanoparticles in ordered mesoporous TiZrOx channels for enhanced catalytic combustion of o-dichlorobenzene, Fuel, 311 (2022) 122496.
124. Xiaolong Liang, Fang Dong, Zhicheng Tang*, Qingchun Wang*, The significant promotion of g-C3N4 on Pt/CNS catalyst for the electrocatalytic oxidation of methanol, International Journal of Hydrogen Energy, 46 (2021) 39645-39657.
123. Weitong Ling, Haijun Zhao, Fei Zha*, Zhicheng Tang*, Precise design and construction of 3D nanoflowers hollow spherical NiO@MnMOx (M = Co, Cu, and Fe) catalysts for efficiently catalytic elimination of 1,2-dichlorobenzene, Industrial & Engineering Chemistry Research, 60 (2021) 14087-14098.
122. Jianfei Yao, Fang Dong, Hua Feng, Zhicheng Tang*, Hierarchical MnOx/Co3O4 nanoarrays on Ni foam for catalytic oxidation of volatile organic compounds, ACS Applied Nano Materials, 4 (2021) 9322-9332.
121. Zihao Fu, Guodong Zhang, Weiliang Han*, Zhicheng Tang*, The water resistance enhanced strategy of Mn based SCR catalyst by construction of TiO2 shell and superhydrophobic coating, Chemical Engineering Journal, 426 (2021) 131334.
120. Chengxiu Ding, Fang Dong, Zhicheng Tang*, Controllable synthesis of core-shell PtOx/CoOy@C catalysts with enriched oxygen functional groups for electrocatalytic oxidation of methanol, Journal of Electroanalytical Chemistry, 895 (2021) 115487.
119. Chengxiu Ding, Fang Dong, Zhicheng Tang*, Construction of hollow carbon polyhedron supported Pt catalyst for methanol electrocatalytic oxidation, Electrochimica Acta, 390 (2021) 138790.
118. Ziguo Cai, Guodong Zhang, Zhicheng Tang*, Jiyi Zhang*, MnFeOx@TiO2 nanocages for selective catalytic reduction of NO with NH3 at low temperature, ACS Applied Nano Materials, 4 (2021) 6201-6211.
117. Zihao Fu, Guodong Zhang, Zhicheng Tang*, Haitao Zhang*, A green CeO2-WO3/TiO2 medium-low temperature de-NOx catalyst for selective catalytic reduction of NOx with NH3, ChemistrySelect, 6 (2021) 5586-5596.
116. Meng Wen, Fang Dong*, Zhicheng Tang*, Jiyi Zhang, In situ confined encapsulation strategy for construction of Co3O4@SiO2 catalyst for the efficient elimination of toluene, Microporous and Mesoporous Materials, 322 (2021) 111156.
115. Weitong Ling, Haijun Zhao*, Shilin Wu, Zhicheng Tang*, Fei Zha, A CeCoOx core/Nb2O5@TiO2 double shell nanocage catalyst demonstrates high activity and water resistance for catalytic combustion of o-dichlorobenzene, Chemistry - A European Journal, 27 (2021) 10356-10368.
114. Xiaosheng Huang, Fang Dong*, Guodong Zhang, Yan Guo, Zhicheng Tang*, A strategy for constructing highly efficient yolk-shell Ce@Mn@TiOx catalyst with dual active sites for low-temperature selective catalytic reduction of NO with NH3, Chemical Engineering Journal, 419 (2021) 129572.
113. Wangwang Xie, Guodong Zhang, Bin Mu, Zhicheng Tang*, Jiyi Zhang*, The effects of surface modification of ATP on the performance of CeO2-WO3/TiO2 catalyst for the selective catalytic reduction of NOx with NH3, Catalysis Surveys from Asia, 25 (2021) 301-311
112. Shuyan Liu, Fang Dong, Zhicheng Tang*, Qingchun Wang*, The formation of wrapping type Pt-Ni alloy on three-dimensional carbon nanosheet for electrocatalytic oxidation of methanol, International Journal of Hydrogen Energy, 46 (2021) 15431-15441.
111. Shilin Wu, Haijun Zhao, Fang Dong, Weitong Ling, Zhicheng Tang*, Jiyi Zhang*, Construction of superhydrophobic Ru/TiCeOx catalysts for the enhanced water-resistance of o-dichlorobenzene catalytic combustion, ACS Applied Materials & Interfaces, 13 (2021) 2610-2621.
110. 周广贺, 韩维高, 张晓虹, 张国栋, 唐志诚*, 基底表面构建单原子催化剂与催化性能研究进展, 分子催化, 35 (2021) 54-64.
109. Fang Dong, Weigao Han, Yan Guo, Weiliang Han, Zhicheng Tang*, CeCoOx-MNS catalyst derived from three-dimensional mesh nanosheet Co-based metal-organic frameworks for highly efficient catalytic combustion of VOCs, Chemical Engineering Journal, 405 (2021) 126948.
108. Jie Guo, Guodong Zhang, Zhicheng Tang*, Jiyi Zhang*, Design of Prussian blue analogues-derived double-cone structure Ce-Fe catalysts and their enhanced performances for the selective catalytic reduction of NOx with NH3, New Journal of Chemistry, 44 (2020) 21244-21254.
107. Weigao Han, Fang Dong, Weiliang Han, Zhicheng Tang*, A strategy to construct uniform MOFs/PAN nanowire derived bead-like Co3O4 for VOCs catalytic combustion, Chemical Communications, 56 (2020) 14307-14310.
106. Chengxiu Ding, Fang Dong, Zhicheng Tang*, Research progress on catalysts for the electrocatalytic oxidation of methanol, ChemistrySelect, 42 (2020) 13318-13340.
105. 谢旺旺, 周广贺*, 张晓虹, 张继义*, 张国栋, 唐志诚*, 凹凸棒石在烟气SCR脱硝催化反应中的应用研究进展, 分子催化, 34 (2020) 546-558.
104. Shuyan Liu, Fang Dong, Zhicheng Tang*, Qingchun Wang*, Methanol electrocatalytic oxidation over Pt nanoparticles anchoring on three-dimensional carbon nanosheet rich in oxygen functional groups, International Journal of Hydrogen Energy, 45 (2020) 30547-30558.
103. Jie Guo, Guodong Zhang, Zhicheng Tang*, Jiyi Zhang*, Morphology-controlled synthesis of TiO2 with different structural units and applied for the selective catalytic reduction of NOx with NH3, Catalysis Surveys from Asia, 24 (2020) 300-312.
102. Weiliang Han, Zhicheng Tang*, Qi Lin*, Rationally designed synthesis of metal-organic framework-derived cobalt oxide with abundant surface active sites for efficient catalytic oxidation performance, Crystal Growth & Design, 20 (2020) 5716-5727.
101. Xiaosheng Huang, Fang Dong, Guodong Zhang, Zhicheng Tang*, Modification of composite catalytic material CumVnOx@CeO2 core-shell nanorods with tungsten for NH3-SCR, Nanoscale, 12 (2020) 16366-16380.
100. Weitong Ling, Haijun Zhao, Zhicheng Tang*, Fei Zha*, Direct synthesis of novel sponge-like porous MnOx catalysts derived from Mn-MOFs for high-efficiently eliminate o-dichlorobenzene by catalytic combustion, Catalysis Surveys from Asia, 24 (2020) 278-290.
99. Weigao Han, Fang Dong, Weiliang Han, Zhicheng Tang*, Mn-polyacrylonitrile nanofibers decorated with Co-metal-organic frameworks as precursors of CoMnOx catalysts for the combustion of toluene, ACS Applied Nano Materials, 3 (2020) 7818-7828.
98. Xuebi Du, Fang Dong, Zhicheng Tang*, Jiyi Zhang, Precise design and synthesis of Pd/InOx@CoOx core-shell nanofibers for the highly efficient catalytic combustion of toluene, Nanoscale, 12 (2020) 12133-12145.
97. Haijun Zhao, Weiliang Han, Zhicheng Tang*, Tailored design of high-stability CoMn1.5Ox@TiO2 double-wall nanocages derived from Prussian blue analogue for catalytic combustion of o-dichlorobenzene, Applied Catalysis B: Environmental, 276 (2020) 119133.
96. Wangwang Xie, Guodong Zhang, Bin Mu, Zhicheng Tang*, Jiyi Zhang*, The promoting effect of palygorskite on CeO2-WO3-TiO2 catalyst for the selective catalytic reduction of NOx with NH3, Applied Clay Science, 192 (2020) 105641.
95. Shilin Wu, Haijun Zhao, Zhicheng Tang*, Jiyi Zhang*, Controlled synthesis of ordered mesoporous TiO2-ZrO2 supported CeSn oxides catalyst for the elimination of 1,2-dichlorobenzene, Microporous and Mesoporous Materials, 302 (2020) 110214.
94. Xiaomei Chang, Fang Dong, Fei Zha, Zhicheng Tang*, The three-dimensional carbon nanosheets as high performance catalyst support for methanol electrooxidation, International Journal of Hydrogen Energy, 45 (2020) 8975-8984.
93. Jiuhu Zhao, Weiliang Han, Jiyi Zhang, Zhicheng Tang*, In situ growth of Co3O4 nano-dodecahedrons on In2O3 hexagonal prisms for toluene catalytic oxidation, Arabian Journal of Chemistry, 13 (2020) 4857-4867.
92. Xiaosheng Huang, Guodong Zhang, Zhicheng Tang*, Facile fabrication of Ce/V-modified multi-channels TiO2 nanotubes and their enhanced selective catalytic reduction performance, Chemistry - An Asian Journal, 15 (2020) 371-379.
91. Zihao Fu, Guodong Zhang, Zhicheng Tang*, Haitao Zhang*, Preparation and application of ordered mesoporous metal oxide catalytic materials, Catalysis Surveys from Asia, 24 (2020) 38-58.
90. Xuebi Du, Fang Dong, Zhicheng Tang*, Jiyi Zhang*, The synthesis of hollow In2O3@Pd-Co3O4 core/shell nanofibers with ultra-thin shell for the low-temperature CO oxidation reaction, Applied Surface Science, 505 (2020) 144471.
89. Sai Yang, Haijun Zhao, Fang Dong, Zhicheng Tang*, Fei Zha, Three-dimensional flower-like OMS-2 supported Ru catalysts for application in the combustion reaction of o-dichlorobenzene, Catalysis Science & Technology, 9 (2019) 6503-6516.
88. Haijun Zhao, Weiliang Han, Fang Dong, Zhicheng Tang*, Enhanced catalytic performance of Nb doping Ce supported on ordered mesoporous TiO2-SiO2 catalysts for catalytic elimination of 1,2-dichlorobenzene, Molecular Catalysis, 479 (2019) 110638.
87. Guodong Zhang, Xiaosheng Huang, Zhicheng Tang*, Enhancing water resistance of a Mn-based catalyst for low temperature selective catalytic reduction by modifying super hydrophobic layers, ACS Applied Materials & Interfaces, 11 (2019) 36598-36606.
86. Haijun Zhao, Fang Dong, Weiliang Han, Zhicheng Tang*, Study of morphology-dependent and crystal-plane effects of CeMnOx catalysts for 1,2-dichlorobenzene catalytic elimination, Industrial & Engineering Chemistry Research, 58 (2019) 18055-18064.
85. Xiaomei Chang, Fang Dong, Zhicheng Tang*, Fei Zha*, Construction of carboxyl functional groups and their enhancement effect for methanol electrocatalytic oxidation reaction, International Journal of Hydrogen Energy, 44 (2019) 27445-27454.
84. Jiuhu Zhao, Fang Dong, Weiliang Han,Zhicheng Tang*, Jiyi Zhang, Carefully design hollow MnxCo3-xO4 polyhedron derived from in situ pyrolysis of metal-organic frameworks for oustanding of low temperature catalytic oxidation performance, Crystal Growth & Design, 19 (2019) 6207-6217.
83. Xuebi Du, Weiliang Han, Zhicheng Tang*, Jiyi Zhang*, Controlled synthesis of Pd/CoOx-InOx nanofibers for the low-temperature CO oxidation reaction, New Journal of Chemistry, 43 (2019) 14872-14882.
82. Guodong Zhang, Xiaosheng Huang, Zhicheng Tang*, New insight into the synergistic promotion effect of phosphorus and molybdenum on the ceria-titanium catalysts for superior SCR performance, Molecular Catalysis, 478 (2019) 110562.
81. Fang Dong, Yu Meng, Weiliang Han, Haijun Zhao, Zhicheng Tang*, Morphology effects on surface chemical properties and lattice defects of Cu/CeO2 catalysts applied for low-temperature CO oxidation, Science Report, 9 (2019) 12056.
80. Weigao Han, Fang Dong, Weiliang Han, Zhicheng Tang*, Fabrication of homogeneous and highly dispersed CoMn catalysts for outstanding low temperature catalytic oxidation performance, New Journal of Chemistry, 43 (2019) 12846-12857.
79. Weiliang Han, Zhicheng Tang*, Qi Lin*, Morphology-controlled synthesis of the metal-organic framework-derived nanorods interweaved lamellose structure Co3O4 for outstanding catalytic combustion performance, Crystal Growth & Design, 19 (2019) 4546-4556.
78. Xiaomei Chang, Fang Dong, Sai Yang, Zhicheng Tang*, Fei Zha*, Well dispersed Pt nanoparticles on commercial carbon black oxidized by ozone possess significantly high electro-catalytic activity for methanol oxidation, International Journal of Hydrogen Energy, 44 (2019) 21559-21568.
77. Jie Guo, Guodong Zhang, Zhicheng Tang*, Jiyi Zhang*, Controlled synthesis of mesoporous CeO2-WO3/TiO2 microspheres catalysts for the selective catalytic reduction of NOx with NH3, Catalysis Surveys from Asia, 23 (2019) 311-321.
76. Fang Dong, Weiliang Han, Haijun Zhao, Guodong Zhang, Zhicheng Tang*, Porous hollow CoInOx nanocubes as a highly efficient catalyst for the catalytic combustion of toluene, Nanoscale, 11 (2019) 9937-9948.
75. Weiliang Han, Fang Dong, Haijun Zhao, Guodong Zhang, Zhicheng Tang*, Exploring the influence of Pd species valence state and chemisorbed oxygen concentration on the catalytic oxidation performance of toluene, Catalysis Surveys from Asia, 23 (2019) 110-125.
74. Sai Yang, Haijun Zhao, Fang Dong, Zhicheng Tang*, Fei Zha*, Highly efficient catalytic combustion of o-dichlorobenzene over lattice-distored Ru/OMS-2: The rapidly replenishing effect of surface adsorbed oxygen on lattice oxygen, Molecular Catalysis, 470 (2019) 127-137.
73. Guodong Zhang, Xiaosheng Huang, Xing Yang, Zhicheng Tang*, Comprehensive study of the promotional mechanism of F on the Ce-Mo/TiO2 catalysts for wide temperature NH3-SCR performance: the activation of the surface ≡Ti-F bonds, Catalysis Science & Technology, 9 (2019) 2231-2244.
72. Zhonghao Wang, Xun Hu*, Guojun Zou, Zhiwei Huang, Zhicheng Tang, Qing Liu, Guangzhi Hu*, Dongsheng Geng*, Advances in constructing polymeric carbon-nitride-based nanocomposites and their applications in energy chemistry, Sustainable Energy & Fuels, 3 (2019) 611-655.
71. Sai Yang, Haijun Zhao, Fang Dong, Fei Zha*, Zhicheng Tang*, Highly efficient catalytic combustion of o-dichlorobenzene over three-dimensional ordered mesoporous cerium manganese bimetallic oxides: A new concept of chlorine removal mechanism, Molecular Catalysis, 463 (2019) 119-129.
70. Weigao Han, Xiaosheng Huang, Gongxuan Lu, Zhicheng Tang*, Research progresses in the preparation of Co-based catalyst derived from Co-MOFs and application in the catalytic oxidation reaction, Catalysis Surveys from Asia, 23 (2019) 64-89.
69. Jiuhu Zhao, Zhicheng Tang*, Fang Dong, Jiyi Zhang*, Controlled porous hollow Co3O4 polyhedral nanocages derived from metal-organic frameworks (MOFs) for toluene catalytic oxidation, Molecular Catalysis, 463 (2019) 77-86.
68. Xiaosheng Huang, Guodong Zhang, Fang Dong, Zhicheng Tang*, An environmentally friendly wide temperature CeWTiOx catalyst with superior performance for the selective catalytic reduction NOx with NH3, Journal of Industrial and Engineering Chemistry, 69 (2019) 66-76.
67. Yinshuang Zhao, Fang Dong, Weiliang Han, Haijun Zhao, Zhicheng Tang*, The synergistic catalytic effect between graphene oxide and three-dimensional ordered mesoporous Co3O4 nanoparticles for low-temperature CO oxidation, Microporous and Mesoporous Materials, 273 (2019) 1-9.
66. Weiliang Han, Haijun Zhao, Fang Dong, Zhicheng Tang*, Morphology-controlled synthesis of 3D, mesoporous, rosette-like CeCoOx catalyst by pyrolysis of Ce[Co(CN)6] and applied for the catalytic combustion of toluene, Nanoscale, 10 (2018) 21307-21319.
65. Xiaosheng Huang, Guodong Zhang, Fang Dong, Zhicheng Tang*, The remarkable promotional effect of Sn on CeVO4 catalyst for wide temperature NH3-SCR process by citric acid-assisted solvothermal synthesis and post-hydrothermal treatment, Catalysis Science & Technology, 8 (2018) 5604-5615.
64. Jiuhu Zhao, Weiliang Han, Fang Dong, Jiyi Zhang*, Zhicheng Tang*, Solvothermal systhesis of size-controlled porous Co3O4 nanostructure catalyst and their catalytic properties for VOCs removal, ChemistrySelect, 3 (2018) 10408-10417.
63. Luyao Zong, Guodong Zhang, Haijun Zhao, Jiyi Zhang, Zhicheng Tang*, One pot synthesized CeO2-WO3-TiO2 catalysts with enriched TiO2 (001) facets for selective catalytic reduction of NO with NH3 by evaporation-induced self-assembly method, Chemical Engineering Journal, 354 (2018) 295-303.
62. Weiliang Han, Fang Dong, Haijun Zhao, Zhicheng Tang*, Outstanding water-resistance Pd-Co nanoparticles functionalized mesoporous carbon catalyst for CO catalytic oxidation at room temperature, ChemistrySelect, 3 (2018) 6601-6610.
61. Luyao Zong, Jiyi Zhang*, Gongxuan Lu, Zhicheng Tang*, Controlled synthesis of TiO2 shape and effect on the catalytic performance for selective catalytic reduction of NOx with NH3, Catalysis Surveys from Asia, 22 (2018) 105-117.
60. Kun Zhao, Jipeng Meng, Jiangyin Lu*, Yang He, Huizi Huang, Zhicheng Tang*, Xinping Zhen, Sol-gel one-pot synthesis of efficient and environmentally friendly iron-based catalysts for NH3-SCR, Applied Surface Science, 445 (2018) 454-461.
59. Haijun Zhao, Weiliang Han, Fang Dong, Zhicheng Tang*, Highly-efficient catalytic combustion performance of 1,2-dichlorobenzene over mesoporous TiO2-SiO2 supported CeMn oxides: The effect of acid sites and redox sites, Journal of Industrial and Engineering Chemistry, 64 (2018) 194-205.
58. Luyao Zong, Guodong Zhang, Jiuhu Zhao, Fang Dong, Jiyi Zhang, Zhicheng Tang*, Morphology-controlled synthesis of 3D flower-like TiO2 and the superior performance for selective catalytic reduction of NOx with NH3, Chemical Engineering Journal, 343 (2018) 500-511.
57. Yinshuang Zhao, Fang Dong, Weiliang Han, Haijun Zhao, Zhicheng Tang*, Construction of Cu-Ce/graphene catalysts via a one-step hydrothermal method and their excellent CO catalytic oxidation performance, RSC Advances, 8 (2018) 1583-1592.
56. Guodong Zhang, Weiliang Han, Haijun Zhao, Luyao Zong, Zhicheng Tang*, Solvothermal synthesis of well-designed ceria-tin-titanium catalysts with enhanced catalytic performance for wide temperature NH3-SCR reaction, Applied Catalysis B: Environmental, 226 (2018) 117-126.
55. Weiliang Han, Xiaosheng Huang, Gongxuan Lu, Zhicheng Tang*, Carefully designed oxygen-containing functional groups and defects of porous carbon spheres with UV-O3 treatment and their enhanced catalytic performance, Applied Surface Science, 436 (2018) 747-755.
54. Kun Zhao, Weiliang Han, Zhicheng Tang*, Jiangyin Lu, Xun Hu, High-efficiency environmental-friendly Fe-W-Ti catalyst for selective catalytic reduction of NO with NH3: The structure-activity relationship, Catalysis Surveys from Asia, 22 (2018) 20-30.
53. Xiaosheng Huang, Guodong Zhang, Gongxuan Lu, Zhicheng Tang*, Recent progress on establishing structure-activity relationship of catalysts for selective catalytic reduction (SCR) of NOx with NH3, Catalysis Surveys from Asia, 22 (2018) 1-19.
52. Yinshuang Zhao, Fang Dong, Weiliang Han, Haijun Zhao, Zhicheng Tang*, Promotion effect of oxygen- containing functional groups and Fe species on the Pd@graphene for CO catalytic oxidation, New Journal of Chemistry, 41 (2017) 12052-12060.
51. Fang Dong, Yinshuang Zhao, Weilang Han, Haijun Zhao, Gongxuan Lu, Zhicheng Tang*, Co Nanoparticles anchoring three dimensional graphene lattice as bifunctional catalyst for low-temperature CO oxidation, Molecular Catalysis, 439 (2017) 118-127.
50. 黄晓昇, 赵吟霜, 吕功煊, 唐志诚*, 溶剂热法在金属氧化物和分子筛及贵金属等催化剂制备中的应用研究进展, 分子催化, 31 (2017) 287-298.
49. Haijun Zhao, Kegong Fang*, Fang Dong, Minggui Lin, Yuhan Sun, Zhicheng Tang*, Textual properties of Cu-Mn mixed oxides and applicataion for methyl formate synthesis from syngas, Journal of Industrial and Engineering Chemistry, 54 (2017) 117-125.
48. Luyao Zong, Fang Dong, Guodong Zhang, Weiliang Han, Zhicheng Tang*, Jiyi Zhang*, Highly efficient mesoporous V2O5/WO3-TiO2 catalyst for selective catalytic reduction of NOx: Effect of the valence of V on the catalytic performance, Catalysis Surveys from Asia, 21 (2017) 103-113.
47. Liyan Li, Weiliang Han, Fang Dong, Luyao Zong, Zhicheng Tang*, Jiyi Zhang*, Controlled pore size of ordered mesoporous Al2O3-supported Mn/Cu catalysts for CO oxidation, Microporous and Mesoporous Materials, 249 (2017) 1-9.
46. Weiliang Han, Yinshuang Zhao, Fang Dong, Guodong Zhang, Gongxuan Lu, Zhicheng Tang*, Effect of the well-designed functional groups and defects of porous carbon spheres on the catalytic oxidation performance, Microporous and Mesoporous Materials, 250 (2017) 35-42.
45. Fang Dong, Yulei Zhu*, Haijun Zhao, Zhicheng Tang*, Ratio-controlled synthesis of phyllosilicate-like materials as precursors for highly efficient catalysis of the formyl group, Catalysis Science & Technology, 7 (2017) 1880-1891.
44. Zhonghao Wang, Guojun Zou, Wei Wang, Zhicheng Tang, Yingpu Bi*, Xiaolai Wang*, Melamine-assisted to fabricate pure a-Fe2O3 polyhedron with high-index facet exposed as an effective photoelectrode, Journal of Power Sources, 343 (2017) 94-102.
43.Weiliang Han, Liyan Li, Fang Dong, Haijun Zhao, Zhicheng Tang*, Gongxuan Lu, Controllable modulation of oxygen functional groups and structure defects of porous carbon spheres for CO oxidation, Journal of Molecular Catalysis A: Chemical, 430 (2017) 20-28.
42. Liyan Li, Weiliang Han, Jiyi Zhang*, Gongxuan Lu, Zhicheng Tang*, Controlled pore size of 3D mesoporous Cu-Ce based catalysts and influence of surface textures on the CO catalytic oxidation, Microporous and Mesoporous Materials, 231 (2016) 9-20.
41. Enhui Yuan, Kun Zhang, Gongxuan Lu, Zunli Mo, Zhicheng Tang*, Synthesis and application of metal-containing ZSM-5 for the selective catalytic reduction of NOx with NH3, Journal of Industrial and Engineering Chemistry, 42 (2016) 142-148.
40. Guodong Zhang, Weiliang Han, Fang Dong, Luyao Zong, Gongxuan Lu, Zhicheng Tang*, One pot synthesis of a highly efficient mesoporous ceria-titanium catalyst for selective catalytic reduction of NO, RSC Advances, 6 (2016) 76556-76567.
39. Liyan Li, Weiliang Han, Zhicheng Tang*, Jiyi Zhang*, Gongxuan Lu, Hard-template synthesis of three-dimensional mesoporous Cu-Ce based catalysts with tunable architectures and their application in the CO catalytic oxidation, RSC Advances, 6 (2016) 64247-64257.
38. Yunfei Su, Lingfeng Dai, Qingwen Zhang, Yunzhen Li, Jiaxi Peng, Ren’an Wu*, Weiliang Han, Zhicheng Tang, Yi Wang*, Fabrication of Cu-Doped CeO2 Cataysts with Different Dimension Pore Structures for CO Catalytic Oxidation, Catalysis Surveys from Asia, 20 (2016) 231-240.
37. EnHui Yuan, Weiliang Han, Guodong Zhang, Kun Zhao, Zunli Mo*, Gongxuan Lu*, Zhicheng Tang*, Structural and textural characteristics of Zn-containing ZSM-5 zeolites and application for the selective catalytic reduction of NOx with NH3 at high temperatures, Catalysis Surveys from Asia, 20 (2016) 41-52.
36. Kun Zhao, Weiliang Han, Zhicheng Tang*, Guodong Zhang, Jiangyin Lu*, Gongxuan Lu, Xinping Zhen, Investigation of coating technology and catalytic performance over monolithic V2O5-WO3/TiO2 catalyst for selective catalytic reduction of NOx with NH3, Colloids and surfaces A: Physicochemical and Engineering Aspects, 503 (2016) 53-60.
35. Kun Zhao, Weiliang Han, Gongxuan Lu, Jiangyin Lu*, Zhicheng Tang*, Xinping Zhen, Promotion of redox and stability features of doped Ce-W-Ti for NH3-SCR reaction over a wide temperature range, Applied Surface Science, 379 (2016) 316-322.
34. Luyao Zong, Liyan Li, Jiyi Zhang*, Xiaobo Yang, Gongxuan Lu, Zhicheng Tang*, Synthesis of high dispersion and uniform nano-sized flame retardant-used hexagonal Mg(OH)2, Journal of Cluster Science, 27 (2016) 1831-1841.
33. Weiliang Han, Gongdong Zhang, Kun Zhao, Gongxuan Lu*, Zhicheng Tang*, Surface texture and physicochemical characterization of mesoporous carbon-wrapped Pd-Fe catalysts for low-temperature CO catalytic oxidation, Physical Chemistry Chemical Physics, 17 (2015) 29027-29035.
32. Weiliang Han, Guodong Zhang, Gongxuan Lu*, Zhicheng Tang*, Influence of pore structures of a carbon support on the surface textures of a CO oxidation catalyst, RSC Advances, 5 (2015) 59666-59676.
31. Yunfei Su, Zhicheng Tang*, Weiliang Han, Yu Song, Gongxuan Lu, Effect of different pore structures on the surface textures of the Cu-doped CeO2 cataysts and applied for CO catalytic oxidation, Catalysis Surveys from Asia, 19 (2015) 129-139.
30. Yunfei Su, Zhicheng Tang*, Weiliang Han, Yu Song, Gongxuan Lu, Enhanced catalytic performace of three-dimensional ordered mesoporous transition metal (Co, Cu, Fe)-doped CeO2 catalysts for CO catalytic oxidation, Catalysis Surveys from Asia, 19 (2015) 68-77.
29. Weiliang Han, Zhicheng Tang*, Peng Zhang, Gongxuan Lu, Fabrication of porous carbon spheres and as support for the application of low-temperature CO oxidation, Applied Surface Science, 350 (2015) 100-108.
28. 袁恩辉, 唐志诚*, 陆江银, 吕功煊, 莫尊理, ZSM-5分子筛介孔的构筑, 材料导报, 29 (2015) 106-110, 120.
27. 赵堃, 韩维亮, 张国栋, 吕功煊*, 陆江银*, 唐志诚*, 甄新平, 柴油车SCR脱硝金属氧化物催化剂研究进展, 分子催化, 29 (2015) 494-504.
26. Yunfei Su, Zhicheng Tang*, Weiliang Han, Peng Zhang, Yu Song*, Gongxuan Lu, Influence of the pore structures of CeO2 supports on the surface texture and catalytic activity for CO oxidation, CrystEngComm, 16 (2014) 5189-5197.
25. Weiliang Han, Zhicheng Tang*, Peng Zhang, Gongxuan Lu, Deposition of Pd-Fe nanoparticles onto carbon spheres with controllable diameters and applied for CO catalytic oxidation, RSC Advances, 4 (2014) 23262-23270.
24. Weiliang Han, Zhicheng Tang*, Peng Zhang, Gongxuan Lu, Xia Pan, Fabrication and catalytic properties of Pd and Ce decorated carbon nanotube-TiO2 composite catalysts for low-temperature CO oxidation, Colloids and surfaces A: Physicochemical and Engineering Aspects, 460 (2014) 422-428.
23. Enhui Yuan, Zhicheng Tang*, Zunli Mo*, Gongxuan Lu, A new method to construct hierarchical ZSM-5 zeolites with excellent catalytic activity, Journal of Porous Materials, 21 (2014) 957-965.
22. Weiliang Han, Peng Zhang, Zhicheng Tang*, Gongxuan Lu, Low temperature CO oxidation over Pd-Ce catalysts supported on ZSM-5 zeolites, Process Safety and Environmental Protection, 92 (2014) 822-827.
21. Weiliang Han, Peng Zhang, Xia Pan, Zhicheng Tang*, Gongxuan Lu*, Influence of promoter on the catalytic activity of high performance Pd/PATP catalysts, Journal of Hazardous Materials, 263 (2013) 299-306.
20. Weiliang Han, Zhicheng Tang*, Peng Zhang, Gongxuan Lu*, Study of one step synthesis of rare earth zeolite (Ln-ZSM-5) and application for low temperature CO catalytic oxidation, Catalysis Surveys from Asia, 17 (2013) 147-155.
19.Weiliang Han, Peng Zhang, Zhicheng Tang*, Xia Pan, Gongxuan Lu, Low temperature carbon monoxide catalytic oxidation at the Pd/Ce-Zr-Al-Ox catalyst, Journal of Sol-Gel Science and Technology, 66 (2013) 526-532.
18. Weiliang Han, Peng Zhang, Pan Xia, Zhicheng Tang*, Gongxuan Lu*, Highly active Pd/Fe based catalyst prepared with polyol-reduction method for low-temperature CO oxidation, Journal of Environmental Chemical Engineering, 1 (2013) 189-193.
17. Zhicheng Tang*, Peng Zhang, Weiliang Han, Gongxuan Lu, Jiangyin Lu, Butene catalytic cracking to ethylene and propylene on fluorinated ZSM-5-based catalyst, Reaction Kinetics, Mechanisms and Catalysis, 108 (2013) 231-239.
16. Bo Li, Zhicheng Tang*, Peng Zhang, Weiliang Han, Jiangyin Lu, Gongxuan Lu*, Low cost raw material for one step synthesis of small crystal ZSM-5 molecular sieve, Journal of Molecular Catalysis (China), 27 (2013) 227-234.
15. Xionghou Gao, Zhicheng Tang*, Gongxuan Lu, Haitao Zhang, Baojie Wang, Application of new porous binder material in fluid catalytic cracking reaction, Journal of Industrial and Engineering Chemistry, 18 (2012) 591-593.
14. 杜晓辉, 唐志诚, 张海涛, 高雄厚, 朱学梅, 镍钒污染对催化裂化催化剂的影响, 化学工程与装备, 5 (2011) 1-5.
13. Xionghou Gao*, Zhicheng Tang, Haitao Zhang, Conghua Liu, Zhongdong Zhang, Gongxuan Lu, Dong Ji, High performance phosphorus-modified ZSM-5 zeolite for butene catalytic cracking, Korean Journal of Chemical Engineering, 27 (2010) 812-815.
12. Xionghou Gao*, Zhicheng Tang, Gongxuan Lu*, Gengzheng Cao, Di Li, Zhengguo Tan, Butene catalytic cracking to ethylene and propylene on mesoporous ZSM-5 by desilication, Solid State Sciences, 12 (2010) 1278-1282.
11. Xionghou Gao*, Zhicheng Tang, Haitao Zhang, Dong Ji, Gongxuan Lu, Zhifeng Wang, Zhengguo Tan, Influence of particle size of ZSM-5 on the yield of propylene in fluid catalytic cracking reaction, Journal of Molecular Catalysis A: Chemical, 325 (2010) 36-39.
10. 唐志诚, 季东, 张海涛, 谭争国, 高雄厚*, 吕功煊*, 元素改性对分子筛催化裂化性能的调变作用, 分子催化, 24 (2010) 274-280.
9. Xionghou Gao*, Zhicheng Tang, Dong Ji, Haitao Zhang, Modification of ZSM-5 zeolite for maximizing propylene in fluid catalytic cracking reaction, Catalysis Communications, 10 (2009) 1787-1790.
8. 唐志诚, 张海涛, 季东, 汪毅, 高雄厚*, 吕功煊*, C4烃催化裂解增产丙烯催化剂研究进展, 分子催化, 23 (2009) 564-573.
7. Zhicheng Tang, Gongxuan Lu*, Synthesis and characterization of high performance Pt-(PrxCeyOz)/C catalysts for methanol electrooxidation, Applied Catalysis B: Environmental, 79 (2008) 1-7.
6. 唐志诚, 吕功煊*, 直接甲醇燃料电池阳极电催化剂, 化学进展, 19 (2007) 1301-1312.
5. Zhicheng Tang, Qiuye Li, Gongxuan Lu*, The effect of plasma pre-treatment of carbon used as a Pt catalyst support for methanol electrooxidation, Carbon, 45 (2007) 41-46.
4. Zhicheng Tang, Dongsheng Geng, Gongxuan Lu*, Electrocatalytic oxidation of carbon monoxide on platinum-modified polyaniline film electrodes, Thin Solid Films, 497 (2006) 309-314.
3. Zhicheng Tang, Gongxuan Lu*, High performance rare earth oxides LnOx (Ln = Sc, Y, La, Ce, Pr and Nd) modified Pt/C electrocatalysts for methanol electrooxidation, Journal of Power Sources, 162 (2006) 1067-1072.
2. Zhicheng Tang, Dongsheng Geng, Gongxuan Lu*, Size-controlled synthesis of colloidal platinum nanoparticles and their activity for the electrocatalytic oxidation of carbon monoxide, Journal of Colloid and Interface Science, 287 (2005) 159-166.
1. Zhicheng Tang, Dongsheng Geng, Gongxuan Lu*, A simple solution-phase reduction method for the synthesis of shape-controlled platinum nanoparticles, Materials Letters, 59 (2005) 1567-1570.