(一)近年主持项目
1. 国家重点研发计划课题:铜电解精炼含砷危废源头减量与分质梯级利用微观化学过程数字化技术(2024-2026)
2. 国家自然科学基金面上:协同控铅减泥锌电积覆膜阳极界面形成及破坏失稳行为机制(2022-2025)
3. 国家水专项独立课题:重点行业水污染全过程控制技术集成与工程实证(2017-2020)
4. 国家自然科学基金面上:电解锌阳极氧化膜铅污染释放与分层结构成膜破膜过程交互影响机制(2019-2022)
5. 国家重点研发计划子课题:有色冶金污染因子转化与大气污染物源头减量技术(2017-2020)
6. 国家自然科学基金青年:金属锰电解过程复杂影响因素的数值模拟方法研究(2014-2016)
7. 国家重点实验室专项:电解锌重金属阳极泥生长特性研究(2017)
8. 国家环境基准专项:环境基准专项重点行业特征污染物调查和研究(铅)(2016)
9. 中央级科研业务专项:锌电解车间槽面含酸含重金属废气的物化特性分析及源头控制技术研究(2016-2018)
(二)近年一作及通讯论文
1.Siwei Zhuang, Ning Duan*, Fuyuan Xu*.Synergistic strategy of solute environment and phase control of Pb-based anodes to solve the activity-stability trade-off.Journal of Hazardous Materials,2024,470:134119.
2.Liao, Jiaqi, Fuyuan Xu*,Ning Duan*,et al.An efficient measure for controlling pollution in the dye industry: Experimental and DFT investigations on direct determination of 3-(N, N-diethylamino)acetanilide.Journal of Cleaner Production,2024,466:142872.
3.Yong Liu, Ning Duan*,Fuyuan Xu*, et al.A new method to determine composition of sphalerite without secondary pollution based on CIELAB color space. Sustainable Materials, 2023,doi.org/10.1002/sus2.161.2.
4.Siwei Zhuang,Ning Duan*,Fuyuan Xu*,et al.Contradictory role of reactive oxygen species in dissolution-dependent activity of Pb-based anodes in acidic electrooxidation.Journal of Materials Chemistry A, 2023, 11, 24192 - 24202.
5.Feilong Zhang, Ning Duan*,Fuyuan Xu*, et al.Fe dopedγ-MnO2 of anode for lead release inhibition in zinc electrowinning.Chemical Engineering Journal,2023, DOI: 10.1016/j.cej.2023.146475.
6.Siwei Zhuang,Ning Duan*,Fuyuan Xu*,et al.Reaction selectivity-regulation via interfacial reconstruction for preventing hazardous slime generation: Driving mechanism of Pb-based anode with oxygen vacancy-rich MnO2.Journal of Cleaner Production,2023,136961.
7.Wen Cheng, Ning Duan*,Fuyuan Xu*, et al. The characteristics of ultraviolet absorption and electronic excitation of sulfate at high concentrations. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, doi.org/10.1016/j.saa.2023.122455.
8.Feilong Zhang,Fuyuan Xu*, Ning Duan*, et al. Dynamic evolution of structure-activity of anode on lead release and overpotential change in zinc electrowinning. Chemical Engineering Journal, 2022,138944.
9.Yong Liu, Ning Duan*;Fuyuan Xu*, et al. Development and validation of a real-time and non-destructive method for direct measurement of solid mixture based on reflection spectra. Journal of Cleaner Production, 2022,134362.
10.Feilong Zhang, Jiane Zuo, Ning Duan,Fuyuan Xu* , et al. Size effect of γ-MnO2 precoated anode on lead-containing pollutant reduction and its controllable fabrication in industrial-scale for zinc electrowinning. Chemosphere,2022,132457.
11.Wanqi Ye, Ning Duan,Fuyuan Xu*, Linhua Jiang*, et al. A novel functional lead-based anode for efficient lead dissolution inhibition and slime generation reduction in zinc electrowinning. Journal of Cleaner Production, 2021,284:124767.
12.Wanqi Ye, Ning Duan,Fuyuan Xu*, Linhua Jiang*, et al. Lead release kinetics and film transformation of Pb-MnO2 pre-coated anode in long-term zinc electrowinning. Journal of Hazardous Materials, 2021, 408:124931.
13.Zizhen Ma, Jingkun Jiang, Ning Duan,Fuyuan Xu*, et al. Ultrasonication to Reduce Aerosols Generated from Bursting Bubbles: A Case Study on Zinc Electrolysis .Journal of Cleaner Production,2020, 272:122697
14.Zizhen Ma, Lei Duan, Ning Duan, Jingkun Jiang,Fuyuan Xu*, et al. Characteristics and threats of particulate matter from zinc electrolysis manufacturing facilities. Journal of Cleaner Production, 2020, 259:120874.
15.Jin Luo, Ning Duan,Fuyuan Xu*, Linhua Jiang*, et al. System-level analysis of the generation and distribution for Pb, Cu,and Ag in the process network of zinc hydrometallurgy: Implications for sustainability. Journal of Cleaner Production, 2019,234:755-766.
16.Chenmu Zhang, Ning Duan,Fuyuan Xu*, et al. New insight into cleaner control of heavy metal anode slime from aqueous sulfate electrolytes containing Mn (Ⅱ): Preliminary characterization and mechanism analysis. Journal of Cleaner Production,2018,177:276-283
17.Chenmu Zhang,Ning Duan,Fuyuan Xu*, et al. The impact mechanism of Mn2+ ions on oxygen evolution reaction in zinc sulfate electrolyte. Journal of Electroanalytical Chemistry,2018,811:53-61.
18.Jin Luo, Peilei Zhang, Ning Duan,Fuyuan Xu*, et al. Interpretation of material flow analysis results and a case study on cleaner production for wastewater source reduction in a zinc electrolysis cellhouse. Journal of Cleaner Production,2018,180:804-813.
19.Jin Luo, PengPeng Jiao, Ning Duan*,Fuyuan Xu*, et al. Flow field characterization in the vicinity of vertical plane electrodes in a bench-scale zinc electrowinning cell. Hydrometallurgy, 2018,181:103-112.
20.Ke Xiao, Ning Duan,Fuyuan Xu*, Linhua Jiang*, et al. Resin oxidization phenomenon and its influence factor during chromium (Ⅵ) removal from wastewater using gel-type anion exchangers. Chemical Engineering Journal,2016,283:1349-1356.
21.JiangtaoDuan, Hong Zhu*,Fuyuan Xu*, et al. A new approach to 4-chlorophenol dechlorination on monometallic copper compared to its Cu/Fe bimetallic system. Chemical Engineering Journal, 2016. 304: 282-288.
22.Ke Xiao, Ning Duan,Fuyuan Xu*,Linhua Jiang*, et al. Evaluation of polyacrylic anion exchange resins on the removal of Cr(Ⅵ) from aqueous solutions. Royal Society of Chemistry,2016,6:5233-5239.
23.Ke Xiao, Ning Duan,Fuyuan Xu*,Linhua Jiang, et al. The oxidative degradation of polystyrene resins on the removal of Cr(VI) from wastewater by anion exchange. Chemosphere,2016,156:326-333.
24.Fuyuan Xu, Ning Duan, Linhua Jiang*, et al. Mass balance and quantitative analysis of cleaner production potential in a zinc electrolysis cellhouse. Journal of Cleaner Production, 2016,135:712-720.
(三)授权专利
1. 一种阳极制膜槽槽液温度场时空均匀分布系统及其调控方法,ZL202110934582.0
2. 一种电解锌锰用旧铅基阳极调控再制膜方法,ZL202110934618.5
3. 一种电解锌锰阴阳极表面物理缺陷智能识别的方法,ZL201911334167.0
4. 锰锌陈化液胶体化过程金属离子浓度智能化在线实时监测系统及方法,ZL201710093942.2
5. 一种高铅阳极泥重金属污染物智能化源削减成套技术方法,ZL201910515831.5
6. Package technology for intelligent source reduction of heavy metal pollutants of hige-lead anode mud, canadian,3064374
7. Method for removing lead of positive plate, korean,10-2329875
8. 一种铅基阳极表面阳极泥智能识别及无损干除方法及系统,ZL201910515826.4
9. 一种高镉溶液中镉离子的高效回收自动化装置及回收方法,ZL201510138365.5
10. 一种锌电解过程重金属水污染物源削减成套技术方法,ZL201510594575.5
11. 一种锌阴极板出槽挟带电解液的原位削减装置及方法,ZL201510594508.3
12. 一种干法清除电解锌阴极板硫酸锌结晶并收集的装置,ZL201410035934.9
13. 一种电解锌电解后续工段阴极板针喷逆流清洗装置,ZL201410035169.0
14. 一种电解锌后序工段阴极板脏板自动识别及分拣装置,ZL201410498356.2
15. 一种电解锌后序工段阴极板变形板自动识别和分拣装置,ZL201410498577.X
16. 一种干法清除阴极板硫酸铵结晶并循环利用的装置,ZL201310685327.2
17. 一种电解锰阴极板变形板自动识别和分拣装置,ZL201310596945.X
18. 一种电解锰阴极板脏板自动识别及分拣装置,ZL201310598449.8
19. 一种机械手在电解锰阴极板出入槽运动过程中的稳定装置,ZL201310684722.9
20. 一种锰电解流程重金属污染削减移动平台工艺动作及分解,ZL201310595014.8
21. 一种原位削减电解锰阴极板挟带电解液的方法,ZL201310595105.1
22. 一种原位削减电解锰阴极板挟带钝化液的方法,ZL201310597512.6
(四)近年荣誉获奖
1. 2024年,第24届中国国际工业博览会CIIF大奖(全国2所高校入选,个人排第2);
2. 2022年,上海市东方英才青年项目(原上海市青年拔尖人才);
2. 2022年,中国有色金属工业科技奖技术发明一等奖(1/6);
3. 2021年,中国环境科学学会青年科学家奖(个人奖);
4. 2021年,中国有色金属工业科技奖科技进步一等奖(3/16);
5. 2020年,国家科学技术进步奖二等奖(2/10);
6. 2017年,全国青年岗位能手(个人奖);
7. 2016年,中国有色金属工业科技奖科技进步二等奖(1/12);
(五)近年学术任职
1. 2022至今,中国生态经济学学会工业生态经济与技术专业委员会副秘书长
2. 2023至今,中国环境科学学会循环经济分委会副主任委员
3. 2020至今,中国环境科学学会持久性有机污染物专业委员会委员
4. 2022至今,《Frontiers of Environmental Science &Engineering》青年编委
5. 2022至今,《International Journal of Minerals, Metallurgy and Materials》青年编委
6. 2021至今,《Transactions of Nonferrous Metals Society of China》第一届青年编委
7. 2021至今,《中国有色金属学报》第一届青年编委
8. 国家科技奖励专家库专家
9. 国家科技专家库专家
10. 国家自然科学基金项目评审专家
