[1] Peng Wang, Shuyun Ding, Shilin Wu, Ningjie Fang, Qiongyue Zhang, Yinghao Chu*, Investigation of the by-product selectivity of industrialized support for the catalytic elimination of o-DCB over Pt-catalysts, Microporous and Mesoporous Materials, 381(2025) 113334.
[2] Weili Yu, Ningjie Fang*, Zhaobing Liu, Yinghao Chu*, Bo Lai, MIL-125-PDI/ZnIn2S4 Inorganic–Organic S-Scheme Heterojunction With Hierarchical Hollow Nanodisc Structure for Efficient Hydrogen Evolution from Antibiotic Wastewater Remediation, Small 2024, 2407104.
[3] Shuyun Ding, Shilin Wu, PengWang, Ningjie Fang, Qiongyue Zhang, S.Li, Yinghao Chu*, Structure-selectivity relevance of multiple-component catalysts for CVOCs’ complete oxidation: State-of-the-art and perspectives, Separation and Purification Technology, 354(2025) 128964.
[4] Shuyun Ding, Shilin Wu, Ningjie Fang, Yinghao Chu*, Peng Wang, Ling Ding, Design and synthesis of porous nano-confined catalysts for VOCs oxidation: A critical review based on pollutant sorts, Separation and Purification Technology, 352 (2025) 128158.
[5] Qiongyue Zhang, Shilin Wu, Ling Ding, Ningjie Fang*, Hanpeng Tang, Yinghao Chu*, Shuyun Ding, Acid-modified CoSnOx/MZSM-5 catalysts with the Cl poisoning resistance and high activity for catalytic oxidation of 1,2-dichloroethane, Separation and Purification Technology, 339 (2024).
[6] Shilin Wu, Peng Wang, Ningjie Fang, Ying Wang, Shuyun Ding, Yinghao Chu*, Insight into catalytic performance and reaction mechanism for 1,2-dichloroethane elimination over MnCoOx-supported catalyst, Fuel, 360(2024) 130551.
[7] Jiaxiu Guo*, Xiaoxiong Liu, Xinru Wen, Xinyue Su, Yinghao Chu*, Juan Liang, Heteroatom Sr doped MCM-41 molecular sieve for VOC adsorption: Study of the surface functionalization and adsorption performance, Chemical Engineering Journal, 488(2024) 150924.
[8] Jiaxiu Guo*, Shulin He, Xiaoxiong Liu, Mingyang Xu, Juan Liang, Yinghao Chu*, Hydrophobic modification of walnut shell biomass-derived porous carbon for the adsorption of VOCs at high humidity, Chemical Engineering Journal, 488(2024) 150792.
[9] Shuyun Ding, Shilin Wu, Ningjie Fang, Yinghao Chu*, Peng Wang, Recent advances in chlorinated volatile organic compounds’ oxidation over multiple noble metal catalysts: A review based on rational manipulation of redox-acidity balance, Separation and Purification Technology, 349(2024) 127859.
[10] Shilin Wu, Peng Wang, Ningjie Fang, Shuyun Ding, Weitong Ling, Qiongyue Zhang, Yinghao Chu*, Ling Ding, In-situ encapsulated CeO2 and doped Al in meso-ZSM-5 for efficient catalytic combustion of o-dichlorobenzene, Applied Catalysis B: Environment and Energy, 358(2024) 124412.
[11] Haopeng Tang, Shilin Wu, Ling Ding, Ningjie Fang, Qiongyue Zhang, Yinghao Chu*, Catalyticoxidation and mixed oxidation of ethyl acetate: A review, Separation and Purification Technology, 343 (2024) 126980.
[12] Yige Deng, Song Shu, Ningjie Fang, Ruobing Wang, Yinghao Chu*, Zhaobing Liu, Wanglai Cen, One-pot synthesis of SrTiO3-SrCO3 heterojunction with strong interfacial electronic interaction as a novel photocatalyst for water splitting to generate H2, Chinese Chemical Letters, 34(2023) 107323.
[13] Ningjie Fang, Ping Yan, R.Koide, Song Shu, Yinghao Chu*, Zhengming Wang, T.Sano, A novel Co1.29Ni1.71O4/glycerolate-derived oxygen-vacancies-containing TiO2 composite for highly efficient photocatalytic hydrogen evolution, Journal of Environmental Chemical Engineering, 11(2023).
[14] Weili Yu, Ningjie Fang*, Ruobing Wang, Zhaobing Liu, Yinghao Chu*, Chenxi Huang, Molecule Dipole and Steric Hindrance Engineering to Modulate Electronic Structure of PTCDA/PTA for Highly Efficient Photocatalytic Hydrogen Evolution and Antibiotics Degradation, Adv. Funct. Mater., (2023).
[15] Lili Deng, Ningjie Fang, Shilin Wu, Song Shu, Yinghao Chu*, Jiaxiu Guo, Wanglai Cen, Uniform H-CdS@NiCoP core-shell nanosphere for highly efficient visible-light-driven photocatalytic H2 evolution, J. Colloid Interface Sci., 608(2022) 2730-2739.
[16] Ying Wang, Shilin Wu, Ganxue Wu, Ningjie Fang, Yinghao Chu*, Jiaxiu Guo, The abundant oxygen vacancies of the Co-Ce mixed oxides towards catalytic combustion toluene, Microporous Mesoporous Mat., 343(2022) 10.
[17] Jinfan Zhou, Di Wang, Ganxue Wu, Ningjie Fang, Xincheng Song, Jjianjun Li, Junhui Chen, Yongjun Liu, Jiaxiu Guo, Yinghao Chu*, Enhanced Catalytic Combustion Performance of Toluene over a Novel Co-CeOx Monolith Catalyst, Energy & Fuels, 35(2021) 6190-6201.
[18] Ningjie Fang, Xincheng Song, Mingyue Zhang, Yinghao Chu*, Design and fabrication of C-Mn0.5Cd0.5S/Cu3P ternary heterojunction catalyst for photocatalytic hydrogen evolution, International Journal of Hydrogen Energy, 46(2021) 30382-30392.
[19] Song Shu, Peng Wang, Wendong Zhang, Weilu Wang, Jianjun Li, Yinghao Chu*, Fusheng Wei, Xianming Zhang, Guangming Jiang*, Pd nanoparticles on defective polymer carbon nitride: Enhanced activity and origin for electrocatalytic hydrodechlorination reaction, Chinese Chemical Letters, 31(2020) 2762-2768.
[20] Mingyue Zhang, Ningjie Fang, Xincheng Song, Yinghao Chu*, Song Shu , Yongjun Liu, p-n Heterojunction Photocatalyst Mn0.5Cd0.5S/CuCo2S4 for Highly Efficient Visible Light-Driven H2 Production, ACS Omega, 5(2020) 32715-32723.
[21] Jing Li, Jiaxiu Guo, Xueke Shi, Xinru Wen, Yinghao Chu*, Shandong Yuan, Effect of aluminum on the catalytic performance and reaction mechanism of Mn/MCM-41 for NH3-SCR reaction, Appl. Surf.Sci.,534(2020).
[22] Peng Wang, Xuelin Shi, Chunhong Fu, Xiangjun Li, Junxi Li, Xiaoshu Lv, Yinghao Chu*, Fan Dong, Guangming Jiang*, Strong pyrrolic-N-Pd interactions boost the electrocatalytic hydrodechlorination reaction on palladium nanoparticles, Nanoscale, 12(2020) 843-850.
[23] Jieyuan Li, Ping Yan, Kanglu Li, Junjie You, Hong Wang, Wen Cui, Wanglai Cen, Yinghao Chu*, Fan Dong, Cu supported on polymeric carbon nitride for selective CO2 reduction into CH4: a combined kinetics and thermodynamics investigation, J. Mater. Chem. A, 7(2019) 17014-17021.
[24] Kanglu Li, Wen Cui, Jieyuan Li, Yanjuan Sun, Yinghao Chu*, Guangming Jiang, Ying Zhou, Yuxin Zhang, Fan Dong, Tuning the reaction pathway of photocatalytic NO oxidation process to control the secondary pollution on monodisperse Au nanoparticles@g-C3N4, Chem. Eng. J., 378(2019) 122184.
[25] Song Shu, Wenyang Fu, Peng Wang, Wanglai Cen, Yinghao Chu*, Fusheng Wei, Xianming Zhang, Fan Dong, Guangming Jiang, Electrocatalytic hydrodechlorination of 2,4-dichlorophenol over palladium nanoparticles: The critical role of hydroxyl group deprotonation, Appl. Catal. A-Gen., 583(2019).
[26] Xinyi Feng, Jiaxiu Guo, Xinru Wen, Mingyang Xu, Yinghao Chu*, Shandong Yuan, Enhancing performance of Co/CeO2 catalyst by Sr doping for catalytic combustion of toluene, Appl. Surf. Sci., 445(2018) 145-153.
[27] Jieyuan Li, Shi Yin, Fan Dong, Wanglai Cen, Yinghao Chu*, Tailoring Active Sites via Synergy between Graphitic and Pyridinic N for Enhanced Catalytic Efficiency of a Carbocatalyst, ACS Appl. Mater. Interfaces, 9(2017) 19861-19869.
[28] Jieyuan Li, Meiling Hou, Yanqiu Chen, Wanglai Cen, Yinghao Chu*, Shi Yin, Enhanced CO2 capture on graphene via N, S dual-doping, Appl. Surf. Sci., 399(2017) 420-425.
[29] Jiaxiu Guo, Xiaoli Liu, Deming Luo, Huaqiang Yin, Jianjun Li, Yinghao Chu*, Influence of Calcination Temperatures on the Desulfurization Performance of Fe Supported Activated Carbons Treated by HNO3, Ind. Eng. Chem. Res., 54(2015) 1261-1270.
[30] Jiaxiu Guo, Yifan Qu, Song Shu, Xuejiao Wang, Huaqiang Yin, Yinghao Chu*, Effects of preparation conditions on Mn-based activated carbon catalysts for desulfurization, New Journal of Chemistry, 39(2015) 5997-6015.
[31] Yinghao Chu*, Tengteng Zhang, Jiaxiu Guo, Chao Liu, Huaqiang Yin, Xiaofan Zhu, Yongjun Liu, Low temperature selective catalytic reduction of NO by C3H6 over CeOx loaded on AC treated by HNO3, J. Rare Earths, 33(2015) 371-381.
[32] YingHao Chu, JiaXiu Guo, Juan Liang, QiangBo Zhang, HuaQiang Yin, Ni supported on activated carbon as catalyst for flue gas desulfurization, Science China Chemistry, 53(2010) 846–850.
