Paper Publications

[1] Songquan Tang, Wenzhi Li*, Jingting Jin, Xin Zhang, Zilong Shen, Yunfan Gui. Lean methane catalytic combustion using Pd/ZSM-5 catalysts prepared by ammonia evaporation method. Molecular Catalysis. 2025, 579:115092-115101.
[2] Yihang Jiang, Wenzhi Li*, Xia Zhang, Liang Yuan. The impact of Cu distribution in Cu/SAPO-34 catalyst on the continuous direct conversion of methane to methanol. Microporous and Mesoporous Materials. 2025, 391:113607-113616.
[3] Xuanlan Xie, Chang Li*, Zhiheng Lu, Yishuang Wang, Wenqiang Yang, Mingqiang Chen*, Wenzhi Li*. Noble metal modified copper-exchanged mordenite zeolite (Cu-ex-MOR) catalysts for catalyzing the methane efficient gas-phase synthesis methanol. Energy, 2024, 300: 131595-131608.
[4] Liqun Wang, Jingting Jin, Wenzhi Li*, Cunshuo Li, Leyu Zhu, Zheng Zhou, Lulu Zhang, Xia Zhang, Liang Yuan. Highly Selective Catalytic Oxidation of Methane to Methanol using Cu-Pd/Anatase. Energy & Environmental Science. 2024, 17:9122–9133.
[5] Xia Zhang, Wenzhi Li*, Yihang Jiang, Leyu Zhu, Liqun Wang. Valorization of waste lignin: Efficient and steady production of liquid fuels. Industrial Crops & Products. 2024, 220:119400-119410.
[6] Leyu Zhu, Wenzhi Li*, Xia Zhang, Liqun Wang, Jingting Jin, Zheng Zhou, Lulu Zhang. ly upgrade bamboo biomass into three multifunctional products through biphasic alerolactone and aqueous phosphoric acid pretreatment. Bioresource Technology. 2024, :130946-130955.
[7] Zheng Zhou, Meng Miao, Wenzhi Li*, Jingting Jin, Liqun Wang, Lulu Zhang,Liang Yuan. Synergistic effect of Cu and Fe on g-C3N4 for selective oxidation of methane to C1 products. Molecular Catalysis. 2024, 562:114237-114247.
[8] Xia Zhang, Yihang Jiang, Wenzhi Li*, Leyu Zhu, Liqun Wang. Production of liquid fuels via catalytic transfer hydrogenation promoting lignin depolymerization on modifed Y zeolite: Formic acid as a continuous hydrogen source. Energy Conversion and Management. 2024, 302:118144-118154.
[9] Taimin Zheng, Wenzhi Li*, Cunshuo Li, Shengxin An, Yihang Jiang, Liang Yuan. gle-step methane to methanol over lanthanum cerium oxide: The crucial role of surface ctive oxygen and carbonate species. Molecular Catalysis. 2023, 551:113623-113634.
[10] Cunshuo Li, Bingyue Tang, Yu Bai, Wenzhi Li*, Qiang Lu, Liang Yuan. Facet-dependently interfacial hybridization stabilized trivalent cerium species and related application in the catalytic oxidation of lean methane. Journal of Environmental Chemical Engineering. 2023, 11:111282-111290.
[11] Yan Fu, Cunshuo Li, Shengxin An, Wenzhi Li*, Liang Yuan. Cu and Zn Bimetallic Co-Modified H-MOR Catalyst for DirectOxidation of Low-Concentration Methane to Methanol. ACS Omega. 2023, 8:27179-27189.
[12] Cunshuo Li, Bingyue Tang, Xiangguang Fu, Taimin Zheng, Liqun Wang,Hao Zhang, Wenzhi Li*，Liang Yuan. Highly active siO2-supported palladium nanoparticles prepared by amodified ammonia evaporation method for lean methane oxidation. Molecular Catalysis. 2023, 549:113522-113532.
[13] Leyu Zhu, Wenzhi Li*, Hao Zhang, Xia Zhang, Jingting Jin, Mingwei Wu. Bimetallic Ruthenium- and Zinc-Doped Beta zeolite for efficiently depolymerizing Kraft lignin. Fuel. 2023, 349: 128766-128776.
[14] Jingting Jin, Wenzhi Li*, Lulu Zhang, Leyu Zhu, Liqun Wang, Zheng Zhou. CuxOy nanoparticles and Cu–OH motif decorated ZSM-5 for selective methane oxidation to methyl oxygenates. Journal of Colloid And Interface Science. 2023, 645:964-973.
[15] Chen Zhu, Ge Guo, Wenzhi Li*, Mingwei Wu, Yihang Jiang, Wenjian Wu, Hao Zhang. Direct Catalytic Oxidation of Low-Concentration Methane to Methanol in One Step on Ni-Promoted BiOCl Catalysts. ACS Omega, 2023, 8(12): 11220–11232.

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