近五年已发表的代表性论著 |
一、专著: 1、铁基氧化物吸附净水技术原理与应用——以磷、铬污染物为例。吕建波著,科学出版社,2020年6月。(中国博士后科学基金资助出版) 2、 Management of Water Resources Using Electrochemical Methods,CRC出版社,2025年,参编。 3、Advances in Desalination Insights,IntechOpen出版社,2025年,参编。 二、近五年主要论文: 1、 Jianbo Lu*, Zhen Wang, Guang Zhang, Tianhao Ma, Hao Chen, Wei Zhang, Jiandang Liu*, Yucan Liu, Bin Lu, Wenzheng Yu. Efficient and low-cost removal of dissolved organic phosphorus by visible light-enhanced Ti electrocoagulation with self-generated rutile photocatalysts. Water Research, 2025, 287: 124465.(Sci, 1区, TOP期刊,IF12.4) 2、 Jianbo Lu*, Yachao Wang, Yumin Cao, Yucan Liu, Bin Lu, Jiajiong Xu, Wei Wang, Zhiqiang Ni. Arsenate removal from water by Al electrocoagulation with graphite as cathodes: Efficiency, cost, and potential reasons superior to aluminum cathodes. Journal of Environmental Chemical Engineering, 2025, 13: 116244.(Sci, 2区, TOP期刊, IF7.7) 3、 Jianbo Lu*, Peng Zhang, Jie Li, Yumin Cao, Wei Zhang, Xintong Zhang, Xuesong Yi, Hongjie Wang. Mo(VI) removal from water by aluminum electrocoagulation: Cost-effectiveness analysis, main influencing factors, and proposed mechanisms. Journal of Hazardous Materials, 2024, 461: 132608.(Sci, 1区, TOP期刊,IF13.6) 4、 Mingyue Sun, Jianbo Lu*, Ruiyan Fan, Wei Zhang*, Xintong Zhang, Wenzheng Yu, Guangming Jiang. Removal of roxarsone from water by Fe electrocoagulation: Main influencing factors, cost-effectiveness analysis, and potential mechanisms. Journal of Water Process Engineering, 2024, 59: 104979.(Sci, 2区, IF7) 5、 Yue Wu, Peng Zhang, Jianbo Lu*, Hui Xu*, Wei Zhang, Wenzheng Yu, Guangming Jiang. Fe electrocoagulation technology for effective removal of molybdate from water: Main influencing factors, response surface optimization, and mechanistic analysis. Journal of Environmental Chemical Engineering, 2024, 12: 112127.(Sci, 2区, TOP期刊, IF7.7) 6、 Ruiyan Fan, Jianbo Lu*, Mingyue Sun, Xiaomeng Sui, Wei Zhang, Xintong Zhang, Xuesong Yi, Wenzheng Yu. Fe electrocoagulation technology for highly-efficient p-arsanilic acid removal from water: Feasibility and mechanisms. Journal of Environmental Chemical Engineering, 2024, 12: 111873.(Sci, 2区, TOP期刊, IF7.7) 7、 Jie Li, Lei Wang, Jianbo Lu*, Wuliang Peng, Jing Chen, Guangming Jiang, Dongfang Liu. Treatment of landfill leachate nanofiltration concentrate by a three-dimensional electrochemical technology with waste aluminum scraps as particle electrodes: Efficacy, mechanisms, and enhancement effect of subsequent electrocoagulation. Waste Management, 2024, 173: 118-130.(Sci, 1区, TOP期刊, IF8.1) 8、 Jie Li, Yumin Cao, Jianbo Lu*, Changcai Qin, Wei Zhang, et al. Arsenate removal from water by Ti electrocoagulation: Main influencing factors, response surface optimization, and potential mechanisms. Journal of Water Process Engineering, 2023, 54: 104042. (Sci, 2区, IF7) 9、 Jianbo Lu, Wei Zhang, Xintong Zhang, Guifang Si, Peng Zhang, et al. Efficient removal of Tetracycline-Cu complexes from water by electrocoagulation technology. Journal of Cleaner Production, 2021, 289: 125729. (Sci, 1区, TOP期刊, IF7.246) 10、 Jianbo Lu, Ruiyan Fan, Hanyang Wu, Wei Zhang*, Jie Li*, Xintong Zhang, Hongwei Sun, Dongfang Liu. Simultaneous removal of Cr(VI) and Cu(II) from acid wastewater by electrocoagulation using sacrificial metal anodes. Journal of Molecular Liquids, 2022, 359: 119276. (Sci, 2区, TOP期刊, IF6.633) 11、 Jianbo Lu*, Peng Zhang, Jie Li. Electrocoagulation technology for water purification: An update review on reactor design and some newly concerned pollutants removal. Journal of Environmental Management, 2021, 296: 113259. (Sci, 2区, TOP期刊,IF6.789) 12、 Jianbo Lu*, Baixue Li, Wanlu Li, Xintong Zhang, Wei Zhang, et al. Nano iron oxides impregnated chitosan beads towards aqueous Cr(VI) elimination: Components optimization and performance evaluation. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2021, 625: 126902. (Sci, 2区, IF3.99) 13、 Jianbo Lu, Lei Wang, Guifang Si, Bin Lu. Xintong Zhang*, Jie Li, Wei Zhang, Zhenhua Wang. Tertiary treatment of bio-treated landfill leachate by a two-step electrochemical process including electrooxidation and electrocoagulation: A bench-scale trial. Environmental Science and Pollution Research, 2023, 30: 32600-32613.(Sci, 3区, IF5.19) 14、 Wei Zhang, Wei Liu, Guoliang Li, Wei Du, Jianbo Lu, et al. Simultaneous adsorption and oxidation of para arsanilic acid by a highly efficient nanostructured Fe-Ti-Mn composite oxide. Chemical Engineering Journal, 2021, 407: 127142. (Sci, 1区, TOP期刊, IF10.652) 15、 张广,吴玥,刘玉灿,倪志强,王威,吕建波*. 阴极调控铝电絮凝去除水中钼酸盐的效能机理. 烟台大学学报, https://doi.org/10.13951/j.cnki.37-1213/n.240809. 16、 王祯,郭叶飞,张欣桐,李杰,吕建波*. 钛电絮凝同步去除水中PO43-和有机磷的效能机理. 中国给水排水, 2025,41(1): 93-100. 17、 曹玉敏,吕建波*,宋晓鹏,张鹏,张欣桐,王春泉. Ti 电絮凝去除饮用水中砷的效能与机理. 烟台大学学报, 2023, 36(4): 494-504. 18、 王亚超,张广,张欣桐,李杰,张浩,吕建波*. 基于铝与石墨阴极调控对比的铝电絮凝工艺对水中磷酸盐的去除. 净水技术, 2025, 44(2): 112-123. 19、 王亚超,曹玉敏,张伟,张欣桐,蒋海成,吕建波*. 以石墨为阴极的铝电絮凝去除水中五价砷. 烟台大学学报, 2025, 38(2): 239-248. 20、 刘红,王兴军,马亚敏,卢杰,李杰,吕建波*. 自清洗聚乙烯亚胺改性纳米平板陶瓷膜在老龄垃圾渗滤液处理中应用实例. 水处理技术, 2024, 50(1): 152-156. 21、 司桂芳,吕建波*,王振华,杨瑛俊,姚爽爽,张鹏,李白雪. 电絮凝法深度处理垃圾渗滤液的效能和工艺强化. 烟台大学学报, 2021, 2: 231-239. |