李方

先後主持2項國家自然科學基金，多項“紡織火電行業水資源高效循環與資源回用技術及示範”國家重點研發計劃🧑‍🦼、“流域水質目標管理技術體系集成研究項目”水專項項目等子課題👩🏿‍🍳；主持“全國第二次汙染源普查-紡織服裝行業產排汙量核算方法”課題和《紡織行業產汙系數手冊》編製💇🏽，負責《排汙許可證申請與核發規範 紡織印染工業》和《紡織工業汙染防治可行技術指南》的編製工作，參與《紡織工業企業環境保護設計規範》修訂工作；主持完成汙水處理工程設計及環境管理咨詢類項目100余項🙍🏿。曾獲得國家科技進步獎二等獎1項，獲上海市及中國紡織工業聯合會等省部級科技進步獎7項；目前已發表期刊論文110余篇；授權發明專利40余項🧏🏿‍♀️。

社會兼職👩🏻‍🦲：

工作經歷

2006.07-2008.09  沐鸣2娱乐            講師

2008.09-2012.01  沐鸣2娱乐            副教授

2012.01-2013.01  德州大學奧斯汀分校 訪問學者

2013.01-2016.09  沐鸣2娱乐            副教授      

2016.09-至今  沐鸣2娱乐            教授/副院長

主講課程

[1] 城鄉梯度汙水減汙降碳關鍵技術研究與示範，上海市科學技術委員會科技創新行動計劃🧎🏻‍♀️，2021.11-2024.10

[2] 一帶一路沿線典型重汙染行業清潔生產技術比較與應用聯合研究，國家重點研發計劃，2020.04-2023.03

[3] 全國第二次汙染源普查-紡織服裝行業產排汙量核算方法，生態環境部，2018.09-2019.12

[4] 流域水質目標管理技術體系集成研究項目，水體汙染控製與治理科技重大專項，2017.06-2020.06

[5] 紡織火電行業水資源高效循環與資源回用技術及示範，國家重點研發計劃，2016.07-2019.12

[6] 《排汙許可證申請與核發技術規範 紡織印染行業》，環境保護部，2016.07-2018.12

[7] 采用氨基功能化氧化石墨烯改性正滲透膜的抗汙染機理及時效性研究，國家自然科學基金委員會👦🏿，2015.01-2018.12

[8] EPS模擬高聚物與鹽類共混體系超濾過程中膜汙染及通量衰減機理分析✡︎，國家自然科學基金委員會🫣，2010.01-2012.12

代表性論著

[1] Zhang, S., Gan J., lv J., Shen C., Xu, C., & Li, F. 2024. Environmental impacts of carbon fiber production and decarbonization performance in wind turbine blades. Journal of Environmental Management, 351: 119893.
[2] Zhou, J., Niu X., Yang, J., Guo, B., Chen, Q., & Li, F. 2024. Coordination of few-atomic Pt clusters with Mo to boost the hydrogenation reduction of bromate. Separation and Purification Technology, 339:126693.
[3] Lou, M., Huang, S., Zhu, X., Chen, J., Fang, X., & Li, F. 2024. Dual-polymers inserted graphene oxide membranes with enhanced anti-wetting and anti-scaling performance for membrane distillation. Journal of Membrane Science, 697: 122494.
[4] Chen, J., Bai, Y., Gadallah, E., Xu, X., Jing, Y., Lou, M., Zhang, X., & Li, F. 2024. Enhancing the perm-selectivity of thin-film nanocomposite membranes intercalated with cyclodextrin-chelated Metal-Organic Framework via modulated interfacial polymerization. Journal of Membrane Science, 693: 122382.
[5] Zhu, X., Lou, M., Fang, X., Li, Y., Xu, X., El-Aassar, A. H. M., & Li, F. 2023. Pyrrole/MXene membranes with simultaneously high structural stability and permeability for nanofiltration: Implication for water transport. Journal of Membrane Science, 687: 122067.
[6] Zhang, S., Xu, C., Xie, R., Yu, H., Sun, M., & Li, F. 2023. Environmental assessment of fabric wet processing from gate-to-gate perspective: Comparative study of weaving and materials. Science of The Total Environment, 857: 159495.
[7] Lou, M., Li, J., Zhu, X., Chen, J., Zhang, X., Fang, X., & Li, F. 2023. Difunctional MOF-wrapped graphene membranes for efficient photothermal membrane distillation and VOCs interception. Journal of Membrane Science, 676: 121592.
[8] Zhu, X., Lou, M., Chen, J.,  Fang, X., Huang, S., & Li, F. 2023. MXene/ZIF-L co-stacking membranes with high water permeation for solute-tailored selectivity. Applied Surface Science, 625:157194.
[9] Zhang, Y., Du, M., Shen, C., Zhang, R., Xu, C., Ma, C., Huang, M., & Li, F. 2023. Enhanced adsorption-oxidation of Sb(III) over chitosan bimetallic beads:  In-situ generated O2•– and autocatalytic effect of Sb(III). Applied Surface Science, 627: 157320
[10] Xu, C., Zhou, G., Lu, J., Shen, C., Dong, Z., Yin, S., & Li, F. 2022. Spatio-vertical distribution of riverine microplastics: Impact of the textile industry. Environmental Research, 211: 112789.
[11] Lou, M., Zhu, X., Fang, X., Liu, Y., & Li, F. 2022. Interception of volatile organic compounds through CNT electrochemistry of electrified membrane surface during membrane distillation. Separation and Purification Technology, 297: 121380.
[12] Lou, M., Fang, X., Huang, S., Li, J., Liu, Y., Chen, G., & Li, F. 2022. Effect of cations on surfactant induced membrane wetting during membrane distillation. Desalination, 532:115739.
[13] Li, F., Ni, Y., Cong, J., Shen C., Ji P., Wang, H., Yin, L., & Xu, C. 2022. Wiping conditions and fabric properties influenced the microfiber shedding from non-woven products†. Environmental Science Processes & Impacts,24:1855-1866.
[14] Li, F., Ma, H., Shen, C., Pan, Y., Zhang, Y., Liu, Y., Xu, C., & Wu, D. 2021. From the accelerated production of ·OH radicals to the crosslinking of polyvinyl alcohol: The role of free radicals initiated by persulfates. Applied Catalysis B: Environmental, 285: 119763.
[15] Lou, M., Fang, X., Liu, Y., Chen, G., Zhou, J., Ma, C., Wang, H., Wu, J., Wang, Z., & Li, F. 2021. Robust dual-layer Janus membranes with the incorporation of polyphenol/Fe3+ complex for enhanced anti-oil fouling performance in membrane distillation. Desalination, 515: 115184.
[16] Liu, Y., Yang, S., Jiang, H., Yang, B., Fang, X., Shen, C., Yang, J., Sand, W., & Li, F. 2021. Sea urchin-like FeOOH functionalized electrochemical CNT filter for one-step arsenite decontamination. Journal of Hazardous Materials, 407: 124384.
[17] Shen, C., Wang, M., Xiong, M., Zhang, Y.,  Xu, C., Ma, C., Liu, Y., Wang, H., & Li, F. 2021. Selective adsorption and fluorescence sensing of tetracycline by Znmediated chitosan non-woven fabric. Journal of Colloid and Interface Science, 603:418-429.
[18] Li, F., Zhong, Z., Gu, C., Shen C., Ma, C., Liu, Y., Yin, S., &Xu, C. Metals pollution from textile production wastewater in Chinese southeastern coastal area: occurrence, source identification, and associated risk assessment, Environmental Science and Pollution Research, 2021, 28(29): 38689-38697.
[19] Xu, C., Zhang, B., Gu, C., Shen, C., Yin, S., Aamir, M., & Li, F. 2020. Are we underestimating the sources of microplastic pollution in terrestrial environment? Journal of Hazardous Materials, 400: 123228.
[20] Li, F., Sun, L., Liu, Y., Fang, X., Shen, C., Huang, M., Wang, Z., & Dionysiou, D. D. 2020. A ClO center dot-mediated photoelectrochemical filtration system for highly-efficient and complete ammonia conversion Journal of Hazardous Materials, 400: 123246.
[21]Pan, Y., Liu, Y., Wu, D., Shen, C., Ma, C., Li, F., Zhang, Y., & Ma, H. 2020. Application of Fenton pre-oxidation, Ca-induced coagulation, and sludge reclamation for enhanced treatment of ultra-high concentration poly(vinyl alcohol) wastewater. Journal of Hazardous Materials, 389: 121866.
[22]Shen, C., Li, H., Wen, Y., Zhao, F., Zhang, Y., Wu, D., Liu, Y., & Li, F. 2020. Spherical Cu2O-Fe3O4@chitosan bifunctional catalyst for coupled Cr-organic complex oxidation and Cr(VI) capture-reduction. Chemical Engineering Journal, 383: 123105.
[23]Liu, Y., Mei, J., Shen, C., Huang, M., Yang, M., Wang, Z., Sand, W., & Li, F. 2020. Rapid and selective electrochemical transformation of ammonia to N2 by substoichiometric TiO2-based electrochemical system. RSC Advances, 10(3): 1219-1225.
[24]Liu, Y., Zhang, J., Liu, F., Shen, C., Li, F., Huang, M., Yang, B., Wang, Z., & Sand, W. 2020. Ultra-rapid detoxification of Sb(III) using a flow-through electro-fenton system. Chemosphere, 245: 125604.
[25] Li, F., Ma, H., Shen, C., Pan, Y., Zhang, Y., Liu, Y., Xu, C., Wu, D. 2020. From the accelerated production of •OH radicals to the crosslinking of polyvinyl alcohol: The role of free radicals initiated by persulfates, Applied Catalysis B: Environmental, 285: 119763-119775.
[26] Li, F., Peng, X., Liu, Y., Mei, J., Sun, L., Shen, C., Ma, C., Huang, M., Wang, Z., & Sand, W. 2019. A chloride-radical-mediated electrochemical filtration system for rapid and effective transformation of ammonia to nitrogen. Chemosphere, 229: 383-391.
[27] Shen, C., Pan, Y., Wu, D., Liu, Y., Ma, C., Li, F., Ma, H., & Zhang, Y. 2019. A crosslinking-induced precipitation process for the simultaneous removal of poly(vinyl alcohol) and reactive dye: The importance of covalent bond forming and magnesium coagulation. Chemical Engineering Journal, 374: 904-913.
[28] Li, F., Huang, J., Xia, Q., Lou, M., Yang, B., Tian, Q., & Liu, Y. 2018. Direct contact membrane distillation for the treatment of industrial dyeing wastewater and characteristic pollutants. Separation and Purification Technology, 195: 83-91.
[29] Liu, Y., Li, F., Xia, Q., Wu, J., Liu, J., Huang, M., & Xie, J. 2018. Conductive 3D sponges for affordable and highly-efficient water purification. Nanoscale, 10(10): 4771-4778.
[30] Li, F., Xia, Q., Gao, Y., Cheng, Q., Ding, L., Yang, B., Tian, Q., Ma, C., Sand, W., & Liu, Y. 2018. Anaerobic biodegradation and decolorization of a refractory acid dye by a forward osmosis membrane bioreactor. Environmental Science: Water Research & Technology, 4(2): 272-280.

學術報告

[1] 染料降解過程中的優先中間產物及其生成機製，2024年環境科學技術年會🫱，口頭報告，2024年5月26-28日🤵🏿‍♀️，武漢🙎，中國
[2] 高性能MXene膜製備及其分離機製研究：滲透性與穩定性，水處理先進膜技術高端論壇💂🏽，口頭報告👩‍⚕️，2023年9月8-10日，哈爾濱，中國
[3] 膜蒸餾中的VOCs的傳質及控製🕴🏻，第十七屆青島國際水大會🧗🏼‍♂️，口頭報告🦁，2022年9月4-8日🏤，青島，中國
[4] 銻在聚酯纖維染整過程中的釋放行為及生物毒性研究🥡，第十一屆全國環境化學大會，口頭報告🧏🏼，2022年7月25日，哈爾濱，中國
[5] Sustainable and Affordable Wastewater Treatment Techniques with Smart Energy for Textile Industry, International Conference on Triangular Cooperation, Oral, September 15th-16th, 2022, Ethiopia
[6] 口罩與擦拭材料微塑料纖維的釋放行為，第十屆先進纖維與聚合物材料國際會議👏🏿🈸，邀請報告，2021年10月17-20日，上海
[7] Accounting Methods for Pollutant Generation Coefficients of Pinpoint Pollution Sources in The Textile Industry: Second National Census of Pollution Sources in China, Sixteenth International Conference on Environmental, Cultural, Economic & Social Sustainability, Oral, Jan 29-31, 2020, Santiago, Chile

主要專利授權

[1] 李方;沈忱思;章耀鵬;徐晨燁;杜繆佳; 一種從印染白泥中水熱回收高純度對苯二甲酸的方法,2024-4-12, 中國, ZL 202111127315.9
[2] 李方;李璟孜;婁蒙蒙;黃世燕;朱曉偉;沈忱思;徐晨燁;張星冉; 一種利用余熱及太陽能膜蒸發對印染廢水再生的系統及方法,2024-1-26, 中國, ZL202210650841.1
[3] 李方;章耀鵬;沈忱思;徐晨燁;劉奎東;李世琪; 一種高濃縮染色殘液的沉澱分離方法, 2021-12-10, 中國, ZL202010963650.1
[4] 李方;季慕堯;田晴;劉艷彪;夏琴;陳洪騰;潘玉婷;芮豪傑;王倩;彭翔;楊波;馬春燕; 一種高氮印花廢水處理回用系統及其使用方法, 2021.4.2, 中國, ZL201711340738.2
[5] 李方;沈忱思;陳洪騰;劉艷彪;季慕堯;夏琴;潘玉婷;王倩;彭翔;苪豪傑;程謙勛; 一種利用含聚乙烯醇退漿廢水資源化製備抑塵劑的方法, 2020.5.29, 中國, ZL201711340740.X
[6] 李方;李佳峰;趙永軍;孟蝶;黃嘉慧;王隨峰;張冉冉;鄭凱;王康偉; 一種氨基改性氧化石墨烯接枝改性超濾微濾膜的製備方法,2016.8.17, 中國, ZL201410267511.X
[7] 李方;趙永軍;李佳峰;孟蝶;汪帥;李勇;潘婷;楊波;田晴; 一種氨基改性氧化石墨烯復合正滲透膜的製備方法, 2015.12.2,中國,ZL201410124106.2
[8] 李方;楊林明;黃禮超;朱雲鋒;潘婷;李勇;汪帥; 一種利用生物製劑進行PVA接枝的膜表面親水改性方法, 2014-8.13,中國,ZL201210435124.3
[9] 李方; 一種分流式雙系統汙泥減量膜生物反應器及其使用方法, 2011-5-17,中國,ZL201110126880.3
[10] 李方;婁雲鵬;楊波;田晴;李俊生;陶菲菲;李盼;吳亮;王歌;付樂樂; 一種潛水攪拌式水解酸化膜生物反應器, 2012.3.21, 中國, ZL201010544739.0

標準製定

[1] 《排汙許可證申請與核發規範 紡織印染工業》👨‍🚒，HJ 861—2017
[2] 《紡織工業企業環境保護設計規範》，GB 50425-2019
[3] 《紡織工業汙染防治可行技術指南》🙌🏼，HJ 1177—2021

榮譽及獲獎

[1] 2022，一種高氮印花廢水處理回用系統及其使用方法，中國紡織工業聯合會優秀專利獎，優秀獎，1/12
[2] 2020👳🏿‍♀️🗜，排汙許可證申請與核發技術規範 紡織印染工業，中國紡織工業聯合會科技成果獎，優秀獎
[3] 2019，印染廢水低成本處理和高效再生利用關鍵技術與產業化😜，中國紡織工業聯合會科技進步獎🫶🏿，一等獎，2/15
[4] 2010📣，紡織工業節能減排與清潔生產審核，中國紡織工業聯合會科技進步獎💯，二等獎，8/12
[5] 2008🧑‍🦯🐳，印染廢水大通量膜處理及回用技術與產業化，國家科技進步獎二等獎，4/15
[6] 2007，棉印染廢水回用工程技術的研究👑，中國紡織工業協會科技進步獎二等獎🍹，6/10
[7] 2007，新型大孔纖維膜在廢水處理及回用中的研究應用，上海市科學技術獎二等獎