（1）代表性论文

[1] He Kuanchang, Li Wei*, Tang Longxiang, Li Wei, Lv Sihao, and Xing Defeng*. Suppressing Methane Production to Boost High-Purity Hydrogen Production in Microbial Electrolysis Cells. Environmental Science & Technology, 56, 17(2022): 11931-11951. IF₂₀₂₂ = 11.4

[2] Li Wei, Xiao Runlin, Xu Jiale, Lin Hui*, Yang Kui, Li Wei, He Kuanchang, Tang Longxiang, Chen Jie, Wu Yiping, Lv Sihao*, Interface engineering strategy of a Ti4O7 ceramic membrane via graphene oxide nanoparticles toward efficient electrooxidation of 1,4-dioxane. Water Research, 216, (2022): 118287. IF₂₀₂₂ = 12.8

[3] Li Wei*, He Kuanchang, Tang Longxiang, Chen Lingyu, Xin Xiaodong, Wang Gang, Liu Qian, Wang Jinxia, Lv Sihao, and Xing Defeng*. Reactive nanostructured membrane with high permeate flux under an ultralow pressure for excellent removal of refractory organic matter in actual water. Applied Catalysis B: Environmental, 334, (2023): 122794. IF₂₀₂₂ = 22.1

[4] He Kuanchang, Li Wei*, Tang Longxiang, Chen Lingyu, Wang Gang, Liu Qian, Xin Xiaodong, Yang Cao, Wang Zhenbei, Lv Sihao, and Xing Defeng*. Insight into the design of a Ti3C2 MXene/Ti4O7 composite ceramic membrane boosts the electrocatalytic activity for 1,4-dioxane electro-oxidation. Applied Catalysis B: Environmental, 338, (2023): 123077. IF₂₀₂₂ = 22.1

[5] Li Wei, Zhu Jiageng, Lou Yu, Fang Anran, Zhou Huihui, Liu Bingfeng, Xie Guojun, Xing Defeng*, MnO2/tourmaline composites as efficient cathodic catalysts enhance bioelectroremediation of contaminated river sediment and shape biofilm microbiomes in sediment microbial fuel cells. Applied Catalysis B: Environmental, 278, (2020): 119331. IF₂₀₂₂ = 22.1

[6] Xu Lina, Li Wei*, Luo Jiaqin, He Kuanchang, Ma Dongmei, Lv Sihao, and Xing Defeng*. Carbon-based materials as highly efficient catalysts for the hydrogen evolution reaction in microbial electrolysis cells: mechanisms, methods, and perspectives. Chemical Engineering Journal, 471, (2023): 144670. IF₂₀₂₂ = 15.1

[7] Li Wei, Li Wei*, He Kuanchang, Tang Longxiang, Liu Qian, Yang Kui, Chen Yi-Di, Zhao Xin, Wang Kai, Lin Hui*, Lv Sihao, Peroxymonosulfate activation by oxygen vacancies-enriched MXene nano-Co3O4 co-catalyst for efficient degradation of 1,4-dioxane: Efficiency, mechanism, and stability. Journal of Hazardous Materials, 432, (2022): 128719. IF₂₀₂₂ = 13.6

[8] Li Wei, Xiao Runlin, Lin Hui*, Yang Kui, Li Wei, He Kuanchang, Yang Li-Hui, Pu Mengjie, Li Mengyun, Lv Sihao*, Electro-activation of peroxymonosulfate by a graphene oxide/iron oxide nanoparticle-doped Ti4O7 ceramic membrane: mechanism of singlet oxygen generation in the removal of 1,4-dioxane. Journal of Hazardous Materials, 424, (2021): 127342. IF₂₀₂₂ = 13.6

[9] Li Wei, Lou Yu, Fang Anran, Kun Feng, Xing Defeng*, Potassium permanganate (KMnO4)/sodium sulfite (Na2SO3) rapidly disintegrates waste activated sludge by reactive Mn(III) species and shapes microbial community structure, Chemical Engineering Journal, 394, (2020)：124920. IF₂₀₂₂ = 15.1

[10] Li Wei, Fang Anran, Liu Bingfeng, Xie Guojun, Lou Yu, Xing Defeng*, Effect of different co-treatments of waste activated sludge on biogas production and shaping microbial community in subsequent anaerobic digestion, Chemical Engineering Journal, 378, (2019): 122098. IF₂₀₂₂ = 15.1

[11] Li Wei, Yu Najiaowa, Fang Anran, Liu Bingfeng, Ren Nanqi, Xing Defeng*, Co-treatment of potassium ferrate and ultrasonication enhances degradability and dewaterability of waste activated sludge, Chemical Engineering Journal, 361, (2019): 148-155. IF₂₀₂₂ = 15.1

[12] Li Wei, Yu Najiaowa, Liu Qian, Li Yiran, Ren Nanqi, Xing Defeng*, Enhancement of the sludge disintegration and nutrients release by a treatment with potassium ferrate combined with an ultrasonic process, Science of the Total Environment, 635, (2018): 699-704. IF₂₀₂₂ = 9.8

（2）已经授权的发明专利
[1] 李威，何宽畅，吕斯濠，林辉，刘倩。一种微生物电解池的泡沫铜材料复合阴极及其制备方法。专利号：ZL 202111049997.6

[2] 何宽畅，吕斯濠，李威，林辉，杨立辉。一种微生物电解池的泡沫镍材料复合阴极及其制备方法。专利号：ZL 202111049980.0

[3] 邢德峰，李威，娄宇，房安然，朱家庚。一种用于沉积式微生物燃料电池的电气石/二氧化锰复合阴极及其制备方法。专利号：ZL 201910814479.5

[4] 邢德峰，李威，于娜娇娃，房安然，刘倩。一种微生物电解池的泡沫材料复合阴极及其制备方法分案。专利号：ZL 201810161237.6

[5] 邢德峰，李威，于娜娇娃，房安然，刘倩。横式搅拌恒温微生物燃料电解池。专利号：ZL 201721707296.6 （已经授权）

[6] 邢德峰，李威，于娜娇娃，房安然，刘倩。一种微生物电解池的泡沫材料复合阴极及其制备方法。专利号：ZL 201710396908.2 （已经授权）
[7] 邢德峰，于娜娇娃，杨洋，李真，李威。一种厌氧产氢菌与好氧菌呼吸互作好氧产氢方法。专利号：ZL 201710512660.1 （已经授权）

[8] 邢德峰，于娜娇娃，李威，李真，杨洋。A system for hydrogen production under limited aerobic conditions. 美国专利（已经授权）

[9] 邢德峰，李威，房安然，娄宇，赵鑫。一种微生物电解池高效产氢并且抑制产甲烷的方法。专利号：CN 2019102072967 （已经授权）

[10] 邢德峰，李威，房安然，娄宇，杨洋。一种原位快速破坏细胞壁的污泥预处理方法。专利号：CN 2019102072844（已经公开及实审）

[11] 邢德峰，娄宇，李威，周慧慧，李宜然。一种利用鞘翅目昆虫幼虫及其肠道微生物对塑料的生物降解方法。专利号：CN 201910464184 （已经公开及实审）