[1]Xiaofeng Zeng, Caihua Liu, Junhui Zhou*, Ning Li, Yingtan Zhou*, Xing Xu, Meng Zhang, Minglei Feng, Ming Sun, Xiaoming Peng*. An Electron Relay Driven by Built-in Electric Fields for Self-Sustaining and External-Energy-Free Fenton-Like Catalysis, Angewandte Chemie International Edition, 2026, e4309718
[2]Zhaohui Wang, Caihua Liu*, Peng Zhan*, Peng Shu, Xiaoming Peng*. Rare earth metal-organic frameworks: design, synthetic strategies and environmental applications, Coordination Chemistry Reviews 565 (2026) 218112
[3]Zihuan Wang, Yang Wei*, Caihua Liu, Yuan Teng, Peng Shu, Xiaoming Peng*. Rare earth doping-regulated G-C3N4-based photocatalysts: heterojunction construction, mechanisms, and synergistic applications in energy and environment, Advanced Sustainable Systems 10 (2026) e70458
[4]Yue Zhou, Caihua Liu*, Xin Li, Peng Zhan*, Xing Xu, Xiaoming Peng*. Recent advances in piezocatalysis and piezo-photocatalysis in energy and environment: materials, design, and applications, Rare Metals 45 (2026) e70175
[5]Qianyu Pan, Chuqiao Wang, Caihua Liu, Chong-Chen Wang*, Yuying Hu, Xing Xu, Xiaoming Peng*. Oxidative polymerization in heterogeneous Fenton-like systems: Towards sustainable water treatment, Chinese Chemical Letters 37 (2026) 112191
[6]Yue Zhou, Xianbin Hu, Fangfang Zhao, Yiren Pi, Xiaoming Peng*, Zhen Huang*, Xing Xu, Peng Zhan, Caihua Liu, Junhui Zhou*. Boosting the built-in electric field via sulfur vacancy engineering in an g-C3N4@FeS2 Z-scheme heterojunction for TC photocatalytic degradation: Process, mechanism and application, Chemical Engineering Journal 533 (2026) 174577
[7]Hongling Dai, Jiawen Zhang, Anjie Luo, Xuejie Yue, Tao Zhang, Zhiyuan Du, Peng Zhan*, Xiaoming Peng*. Unraveling the manganese ore integrated constructed wetland-microbial fuel cells system for wastewater containing pharmaceuticals and personal care products: Efficacy and the synergetic mechanisms, Bioresource Technology 447 (2026) 134219
[8]Xiaoming Peng, Zecheng Liu, Caihua Liu, Chuqiao Wang*, Xing Xu, Peng Zhan*, Yuying Hu, Xuejie Yue*. One-step construction of biomimetic catalytic membrane for soluble organic pollutants degradation and efficient insoluble oils separation, Separation and Puriϧcation Technology, 384 (2026) 136419
[9]Jiajie Zhang, Chuqiao Wang*, Xin Li, Xing Xu, Zihuan Wang, Xiaoming Peng*. A review of MOF/ZnIn2S4 heterojunction photocatalysts: mechanisms, fabrication, modification, and applications. Coordination Chemistry Reviews, 550 (2026) 217402
[10]Hongling Dai, Zhihui Liu, Li Xu, Gaoping Xu, Yuying Hu, Peng Zhan*, Fengping Hu, Xiaoming Peng*. Remediation of tetracycline contaminated soil and water phases by straw-derived biochar: Adsorption performance and bacterial community evolution, Industrial Crops & Products, 236 (2025) 121880
[11]Zhaohui Wang, Xin Li, Song Wang, Chuqiao Wang*, Zihuan Wang, Xiaoming Peng*. Machine Learning Accelerated Catalyst Design for Advanced Oxidation Processes: Efficient and Streamlined Development, Chemical Research in Chinese Universities, 41(2025) 704-715
[12]Xiaoyin You, Chaohai Wang, Chuqiao Wang, Xing Xu, Yuying Hu, Ning Li*, Fengping Hu, Wen Liu*, Xiaoming Peng*. Long-range electron transfer pathways at FeCu bimetallic interfaces: Bridging catalytic mechanisms and scalable applications for persistent pollutant degradation, Journal of Hazardous Materials, 494 (2025) 138682
[13]Zhiyuan Du, Sai Bai, Jin Qian*, Peng Zhan, Fengping Hu, Xiaoming Peng*. Iron-carbon enhanced constructed wetland microbial fuel cells for tetracycline wastewater treatment: Efficacy, power generation, and the role of iron-carbon, Bioresource Technology, 430 (2025) 132578
[14]Xiaoyin You, Chaohai Wang, Chuqiao Wang, Xing Xu, Yuying Hu, Ning Li*, Fengping Hu , Wen Liu*, Xiaoming Peng*. Unveiling the synergistic mechanism of Fe-Cu bimetallic catalysts for degradation of tetracycline antibiotic with ultralow peroxymonosulfate dosage consumption: Key contribution of electron transfer process, Journal of Colloid and Interface Science, 689 (2025) 137277
[15]Zhiyuan Du, Sai Bai, Wu Lan, Jin Qian*, Fengping Hu, Xiaoming Peng*. Effective treatment of phosphorus-laden wastewater via coupling pyrite-microbial fuel cell with constructed wetlands: The role of pyrite and substrate filling mode, Journal of Water Process Engineering, 71 (2025) 107177
[16]Hongling Dai, Zhen Huang, Chuqiao Wang, Yuying Hu, Xing Xu, Fangfang Zhao, Yiren Pi, Jian Qian*, Fengping Hu, Xiaoming Peng*. Activation of PAA by pyrite for the degradation of tetracycline with adjusted pH conditions: The overlooked role of sulfur species, Separation and Purification Technology, 361 (2025) 131225
[17]Jiale Chang, Bingliang Yu, Xiaoming Peng*, Ping Zhang, Xing Xu*. Nanoconfined catalytic macrostructures for advanced water remediation: From basic understanding to future application strategies, Water Research, 272 (2025) 122960
[18]游小银, 汪楚乔, 刘才华, 彭小明. Z型CN/NGBO/BV催化剂体系的构筑及光类芬顿降解四环素性能, 化工进展, 44 (2025) 286-296(EI, 卓越期刊)
[19]Jiajie Zhang, Chuqiao Wang*, Xiaofeng Zeng, Zhihui Liu, Zhihui Ning, Xiaoming Peng*. ZnCo2S4/Bi2WO6 S-scheme heterojunction for efficient photocatalytic hydrogen evolution: Process and mechanism, International Journal of Hydrogen Energy, 60 (2024) 441-450
[20]Yandong Chai, Hongling Dai, Xiaoguang Duan*, Zhiqiang Sun, Fengping Hu, Jin Qian, Xiaoming Peng*. Elucidation of the mechanistic origin of spin-state-dependent P-doped Fe single-atom catalysts for the oxidation of organic pollutants through peroxymonosulfate activation, Applied Catalysis B: Environmental, 341 (2024) 123289(ESI高被引论文、热点论文)
[21]Mingxin Li, Hongling Dai, Peng Zhan, Chaoqun Tan, Zhihui Ning, Fengping Hu, Xing Xu, Xiaoming Peng*. Rapid reduction of aqueous Cr (VI) by oxalic acid on N-doped lignin charcoal: A significant contribution of structural defects and electronic shuttle effect, Journal of Cleaner Production, 415 (2023) 137883
[22]Xiaoming Peng, Zhanhong Yang, Peng Zhan, Yandong Chai, Zhihui Ning, Fengping Hu, Hongling Dai. Construction of core-shell Fe3O4@MoS2 activates peroxymonosulfate for the degradation of tetracycline: Structure-activity relationship, performance and mechanisms, Journal of Alloys and Compounds, 961 (2023) 170991
[23]Yandong Chai, Hongling Dai, Peng Zhan, Zhaochen Liu, Zhen Huang, Chaoqun Tan, Fengping Hu, Xing Xu, Xiaoming Peng*. Selective degradation of organic micropollutants by activation of peroxymonosulfate by Se@NC: Role of Se doping and nonradical pathway mechanism, Journal of Hazardous Materials, 452 (2023) 131202(ESI高被引论文)
[24]Caihua Liu, Hongling Dai, Chaoqun Tan, Qianyu Pan, Fengping Hu, Xiaoming Peng*. Photo-Fenton degradation of tetracycline over Z-scheme Fe-g-C3N4/Bi2WO6 heterojunctions: Mechanism insight, degradation pathways and DFT calculation, Applied Catalysis B: Environmental, 310 (2022) 121326 (ESI高被引论文、热点论文)
[25]Xiaoming Peng, Zhanhong Yang, Fengping Hu*, Chaoqun Tan, Qianyu Pan, Hongling Dai*. Mechanistic investigation of rapid catalytic degradation of tetracycline using CoFe2O4@MoS2 by activation of peroxymonosulfate, Separation and Purification Technology, 287 (2022) 120525
[26]Xiaoming Peng, Jianqun Wu, Zilong Zhao*, Xing Wang, Hongling Dai, Yiming Li, Yang Wei, Gaoping Xu, Fengping Hu*. High efficiency degradation of tetracycline by peroxymonosulfate activated with Fe/NC catalysts: Performance, intermediates, stability and mechanism, Environmental Research, 205 (2022) 112538
[27]Xiaoming Peng, Caihua Liu, Zilong Zhao*, Fengping Hu, Hongling Dai*. Construction of a Z-scheme g-C3N4/NBGO/BiVO4 heterostructure with visible-light driven photocatalytic degradation of tetracycline: efficiency, reaction pathway and mechanism. Catalysis Science & Technology, 12(2022) 1339-1358
[28]Xiaoming Peng, Jianqun Wu, Zilong Zhao*, Xing Wang, Hongling Dai, Yang Wei, Gaoping Xu, Fengping Hu. Activation of peroxymonosulfate by single atom Co-N-C catalysts for high-efficient removal of chloroquine phosphate via non-radical pathways: Electron-transfer mechanism, Chemical Engineering Journal, 429 (2022) 132245(ESI高被引论文、热点论文)
[29]Xiaoming Peng, Jianqun Wu, Zilong Zhao*, Xing Wang, Hongling Dai, Li Xu, Gaoping Xu, Yan Jian, Fengping Hu*. Activation of peroxymonosulfate by single-atom Fe-g-C3N4 catalysts for high efficiency degradation of tetracycline via nonradical pathways: Role of high-valent iron-oxo species and Fe–Nx sites, Chemical Engineering Journal, 427 (2022) 130803(ESI高被引论文、热点论文)
[30]彭小明, 吴健群等. Fe、N共掺杂原子级分散Fe-g-C3N4催化剂活化过硫酸盐降解亚甲基蓝的机制[J]. 环境科学学报, 2022, 42(5):225-236
