[1] Juan Liang,Ningjie Fang*, chungiong Liu, Peng Wang, Yinghao chu, shilin wu, Jiaxiu Guo. Highly efficient Cr(Ⅵ) photoreduction by CN vacancies and hydroxyl co-modified g-C3N4: The new insight into the key role of citric acid. Chemical Engineering Journal 486 (2024) 150155.
[2] Weili Yu,Ningjie Fang*, Ruobing Wang,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, Advanced Functional Materials 2023, 2314894.
[3] Qiongyue Zhang, Shilin Wu, Ling Ding,Ningjie Fang*, Haopeng 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) 126619.
[4] Chenxi Li, Zhaobing Liu,Ningjie Fang*, Weili Yu, Chuanfan Yang, Yinghao Chu, Wen Liu. Extrinsic defects-rich biochar for efficient peroxydisulfate activation: Electronic structure modulation and disparate nonradical mechanisms. Separation and Purification Technology 336 (2024) 126338.
[5] Ruobing Wang, Weili Yu,Ningjie Fang*, Peng Wang, Yinghao Chu, Shilin Wu, Juan Liang. Constructing fast charge separation of ZnIn2S4@CuCo2S4p-n heterojunction for efficient photocatalytic hydrogen energy recovery from quinolone antibiotic wastewater, Applied Catalysis B: Environmental 341 (2024) 123284.
[6]Xiaosheng Huang#, Ningjie Fang#, Shilin Wu, Fang Dong, Yinghao Chu, Zhicheng Tang. Interfacial confinement effect induced by pre-sulfurization for promoting SO2tolerance of MnFe-TOS catalyst in low temperature NH3-SCR reaction. Applied Catalysis B: Environmental 343 (2024) 123518.
7] Ziqi Yan, Kangwei Yin, Mucheng Xu,Ningjie Fang*, Weili Yu, Yinghao Chu, Song Shu, Photocatalysis for synergistic water remediation and H2production: A review. Chemical Engineering Journal 472 (2023) 145066.
[8] Kangwei Yin, Ziqi Yan,Ningjie Fang*, Weili Yu, Yinghao Chu,Song Shu*, Mucheng Xu. The synergistic effect of surface vacancies and heterojunctions for efficient photocatalysis: A review. Separation and Purification Technology 325 (2023) 124636.
[9]Ningjie Fang, Ping Yan, Ryota Koide, Song Shu, Yinghao Chu*, Zhengming Wang*, Taizo Sano, A novel Co1.29Ni1.71O4/glycerolate-derived oxygen-vacancies-containing TiO2composite for highly efficient photocatalytic hydrogen evolution, Journal of Environmental Chemical Engineering 11 (2023) 109142.
[10]Ningjie Fang, Zhengming Wang*, Taizo Sano, Noriko Yoshizawa, YingHao Chu, Novel Dyadic Amorphous-Crystalline Nano-Titania Hybrids for Sacrifiers-Stored Photocatalysis. Journal of Colloid and Interface Science, 608 (2022) 1638-1651.
[11]Ningjie Fang, Yinghao Chu*, Xincheng Song, Mingyue Zhang, 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.
[12]Ningjie Fang, Jiaxiu Guo*, Song Shu, Hongdi Luo, Jianjun Li, Yinghao Chu, Effect of calcination temperature on low-temperature NH3-SCR activity and the resistance of SO2with or without H2O over Fe-Mn-Zr catalyst. Journal of the Taiwan Institute of Chemical Engineers 93 (2018) 277-288.
[13]Ningjie Fang, Jiaxiu Guo*, Song Shu, Hongdi Luo, Yinghao Chu, Jianjun Li, Enhancement of low-temperature activity and sulfur resistance of Fe0.3Mn0.5Zr0.2catalyst for NO removal by NH3-SCR. Chemical Engineering Journal 325 (2017) 114-123.
[14]Ningjie Fang, Jiaxiu Guo*, Song Shu, Jian-Jun Li, YingHao Chu, Influence of textures, oxygen-containing functional groups and metal species on SO2and NO removal over Ce-Mn/NAC. Fuel 202 (2017) 328-337.