我们又一起,
站到了新一年的起点处,
向前看,
山海辽阔,
一往无前。
时间是会有沉淀,
淡然与智慧会随着时光而生长。
一切来路,都有其意义,未来坦途,从当下开启。
新的一年,祝愿大家天高海阔,旷野无边,自在肆意,一路好运!
2023年师生获得荣誉
[1] 荣获2023年“第十五届中国商业联合会服务业科技创新奖”一等奖(沈江南,徐燕青,廖俊斌,阮慧敏)
[2] 荣获2023年“智汇天齐-共创锂想”第二届天齐锂业创新创业决赛铜奖(沈江南、徐格婷,蒋雅贞)。
[3] 荣获2023年化学工程学院2022年度述职报告会暨第一届青年英才奖一等奖(廖俊斌);
[4] 荣获2023年化工学院—机械学院“新安杯”科研创新奖评选暨青年学者学术沙龙二等奖(廖俊斌);
[5] 荣获2023年化学工程学院第四届青年教师教学大比武优秀奖(廖俊斌);
[6] 荣获2023年第34届校运会女子100米栏第五名,女子4×100米第八名,女子16×60米第六名,女子3V3篮球大院赛第六名(魏海丽);
[7] 荣获2023年国家奖学金(徐格婷);
[8] 荣获2023年一等学业奖学金(魏海丽,蒋雅贞,徐艺帆,江圣光,李双杨,韩旭冉,唐媛媛);
[9] 荣获2023年专项奖学金-学术创新奖(姚宇洋);
[10] 荣获2023年专项奖学金-社会工作奖(徐格婷,魏海丽);
[11] 荣获2023年校级优秀研究生干部(姚宇洋,魏海丽,徐格婷);
[12] 荣获2023年化学工程学院年级之星(姚宇洋);
[13] 荣获2023年化学工程学院十佳歌手(刘鸿宇)。
2023年新增发表论文
[1] Dong, YD., Wei, HL., Cui, HL., Lu, H., Liao, JB., Qiu, YB., Shen, JN., Techno-Economic Analysis of Bipolar Membranes Electrodialysis for the Hexacyanocobalic Acid Green Conversion, Industrial & Engineering Chemistry Research, 2023, 62(49): 20996-21006.
[2] Xu, ZP., Wang, QP., Guo, L., Li, YY., Wang, JY., Yu, SJ., Liao, JB., Xu, YQ., Shen, JN., Porphyrin Helical Nanochannel-Assembled Polybenzimidazole Membranes Doped with Phosphoric Acid for Fuel Cells Operating in a Temperature Range of 25–200 °C, Advanced Functional Materials, 2023, 2310762
[3] Xu, JW., Mu, JJ., Yao, YY., Xu, YQ., Liao, JB., Ruan, HM., Shen, JN., Ion Resource Recovery via Electrodialysis Fabricated with Poly(Arylene Ether Sulfone)-Based Anion Exchange Membrane in Organic Solvent System, Small, 2023, 2306313.
[4] Li, JH., Chen, XH., Liao, JB., Li, YY., Mu, JJ., Xu, YQ., Du, YL., Ruan, HM., Xu, XL., Shen, JN., The Endowment of Monovalent Anion Selectivity and Antifouling Property to Cross-linked Ion-exchange Membranes by Constructing Amphoteric Structure, Separation and Purification Technology, 2023, 328, 125104.
[5] Yao, YY., Mu, JJ., Li, Y., Ma, YJ., Xu, JW., Shi, YN., Liao, JB., Shen, ZL., Shen, JN., Rechargeable Multifunctional Anti-Bacterial AEMs for Electrodialysis: Improving Anti-Biological Performance via Synergistic Antibacterial Mechanism, Advanced Science, 2023, 2303588.
[6] Wang, C., Ma, ZB., Qiu, YB., Wang, CY., Ren, LF., Shen, JN., Shao, JH., Patterned Dense Janus Membranes with Simultaneously Robust Fouling, Wetting and Scaling Resistance for Membrane Distillation, Water Research, 2023, 242, 120308.
[7] Qiu, YB., Wu, SF., Xia, L., Ren, LF., Shao, JH., Shen, JN., Yang, Z., Tang, CY., Wu, C., Van der Bruggen, B., Zhao, Y, Ionic Resource Recovery for Carbon Neutral Papermaking Wastewater Reclamation by A Chemical Self-sufficiency Zero Liquid Discharge System, Water Research, 2023, 229, 119451.
[8] Yao, YY., Zhang, Y., Dong, YD., Ruan, KQ., Shao, YF., Xu, GT., Liao, JB., Shen, ZL., Shen, JN., Synergistically Enhancing the Antibacterial and Antibiofilm Activities of Anion Exchange Membrane by Chemically Assembling Gentamicin and N-chloramine Layers, Journal of Membrane Science, 2023, 675, 121530.
[9] Li, J., Li, L., Li, X., Dong, LL., Wang, ZY., Shen, JN., Van der Bruggen, B., Membranes with ZIF-8 Regulated MXene Nanosheet Stacks for Efficient Molecular Sieving, Desalination, 2023, 546, 116184.
[10] Shi W., Jiang Q., Han X., Dai R., Jiang S., Li J., Shen J., Cao X., Integrating battery and capacitive materials for efficient sodium and chloride capture, Journal of Solid State Electrochemistry, 27, 1423–1431.
[11] Wang B., Xu Y., Liao J., Yu L. Xu Y., Du Y., Ruan H., Shen J., Bifunctional Crosslinker Enables Antifouling PVA-Based Anion Exchange Membranes with Enhanced Dimensional Stability for Electrodialysis Applications, Ind. Eng. Chem. Res., 2023, 62, 49, 21347–21356
[12] Li J., Li L., Li X., Dong L., Wang Z., Shen J., Bruggen B. V., Membranes with ZIF-8 regulated MXene nanosheet stacks for efficient molecular sieving, Desalination, 546, 116184,
[13] Wang C., Ma Z., Qiu Y., Wang C., Ren L., Shen J., Shao J., Patterned dense Janus membranes with simultaneously robust fouling, wetting and scaling resistance for membrane distillation, Water Research, 242, 120308,
[14] Ma Q., Mu J., Lv X., Meng J., Cui H., Qiu Y., Ruan H., Shen J., Sustainable Recovery of Ionic Resources from Resin Regeneration Wastewater: Long-Term Evaluation, Membrane Fouling Analysis, and Cleaning, ACS ES&T WATER, 1855–1864,
[15] Xu Y., Zhu Y., Qiu Q., Qi Z., Liu S., Weng J., Shen J., Development of Mixed-Dimensional Membranes Comprising Halloysite Nanotubes and Kevlar Aramid Nanofiber for Enhanced Small-Molecule Dye/Salt Separation, Industrial & Engineering Chemistry Research, 62, 1558–1570,
[16] Liao J., Xu J., Ruan H., Mu J., Jie X., Li W., Xu Y., Shen J., Exploring the organic solvent resistance of anion exchange membranes based on poly(2,6-dimethyl-1,4-phenyl oxide) for electrodialysis desalination, Desalination, 546, 116202
[17] 薛上峰;徐格婷;祁志福;董隽;刘春红;高强生;沈江南,基于PVDF-co-HFP制备具有阻酸性能的交联型阴离子交换膜的研究,膜科学与技术,43,68–69
[18] 董隽;刘春红;薛上峰;祁志福;高强生;董云迪;沈江南,双极膜电渗析应用于高盐废水再生酸碱的影响因素,膜科学与技术,43,116–126
[19] 董隽;刘春红;薛上峰;祁志福;高强生;董云迪;沈江南,复循环双极膜电渗析处理煤化工含盐废水制备酸碱的研究,膜科学与技术,43,112–122
2023年新增投稿论文
[1] 董云迪;魏海丽;杨玉田;刘鸿宇,卢昊;阮慧敏;廖俊斌;沈江南,碳酸氢铵和氯化钠置换电渗析法制取碳酸氢钠的工艺研究,当代化工研究,审稿
[2] Li, Y., Ma, YJ., Dai, JX., Shen, JN., Yao, YY., Yu, DY., Wu LJ., The Mitigation Potential of Synergistic Quorum Quenching and Antibacterial Properties for Biofilm Proliferation and Membrane Biofouling, Water Research. (With editor)
[3] Li, JH., Xu, ZP., Liao, JB., Edison, HA., Chen, XH., Mu, JJ., Shen, JN., Revolutionary MOF-enhanced Anion Exchange Membrane For Precise Monovalent Anion Separation Through Structural Optimization and Doping, Desalination. (Under revision)
[4] Yu, SJ., Jiang, YZ., Xu, GT., Edison, HA., Xu, ZP., Liao, JB., Shen, JN., Innovative Low-energy Enrichment of Sulfuric Acid Using PVDF-HFP Anion Exchange Membranes with Acid-blocking Properties, Desalination. (Under Review)
[5] Xu, GT., Wang, BH., Xu, JW., Edison, HA., Liao, JB., Shen, JN., Bifunctional Double-cross-linked Anion Exchange Membranes in Dynamic PVDF Networks for Improved Electrodialysis Desalination, Desalination. (Under Review)
[6] Jiang, YZ., Wang, BH., Liu, HY., Liao, JB., Yu, SJ., Edison, HA., Shen, JN., Advancing Electrodialysis with Dually Cross-linked PVDF-Based Anion Exchange Membranes Having Semi-interpenetrating Networks, Journal of Membrane Science. (Revise)
[7] Yao, YY., Lu, YY., Li, Y., Ma, YJ., Edison, HA., Xu, JW., Ding, HD., Shi, YN., Chen, YT., Liao, JB., Shen, ZL., Shen, JN., Eco-infused Interfacial Enhancement of the Anti-biofouling Activity in Anion Exchange Membranes for Electrodialysis Desalination, Chemical Engineering Journal. (Under revision)
[8] Qian H., Xu G., Yang S., Edison H., Chen Q., Lin C., Liao J., Shen J., Advancing Lithium-Magnesium Separation: Pioneering Swelling-Embedded Cation Exchange Membranes, Nano Letters (Under Review)
[9] Yu S., Xu G., Liu Hongyu, Edison H., Liao J., Shen J., Acid-blocking anion exchange membranes with low water mobility were prepared based on PVDF-HFP for sulfuric acid enrichment, polymer (Under Review)
[10] Liao J., Tang Y., Wang T., Xu J., Zhang Q., Ruan H., Shen J., Engineering “Fishnet-like” Structure to Boost the Monovalent Anion Selectivity of Anion Exchange Membranes in Electrodialysis Applied in Organic Solvent Systems, Chemical Engineering Journal. (With editor)
[11] Ruan H., Gao S., Liao J., Edison H. Ang, Xu Y., Shen J., Optimization of the mass ratio of siloxane crosslinkers for poly(2,6-dimethyl-1,4-phenylene oxide) anion exchange membranes to improve acid enrichment by electrodialysis. (Under Review)
[12] Cui H., Ruan H., Wei H., Huixiang Ang E., Dong Y., Lu H., Liu H., Liao J., Xu Y., Shen J., Innovative sodium acrylate wastewater resource recovery through electrodialysis with integrated bipolar membranes, Journal of Environmental Chemical Engineering. (Under Review)
2023年新增授权专利
[1] 沈江南;董云迪;崔海龙;母俊杰;阮慧敏,一种双极膜电渗析制备六氰钴酸的方法,ZL 202211056984.6,2023.11.17
[2] 沈江南;骆宾;阮慧敏,一种抗菌性单价选择性阴离子交换膜的制备方法,ZL 202011046800.9,2023.01.10
[3] 秦刚华;刘春红;祁志福;董隽;高强生;薛上峰;余帅军;沈江南,一种坚固且耐有机溶剂的阳离子交换膜的制备方法,ZL 20221 0532470.7,2023.05.16
[4] 沈江南;徐燕青,一种多效耦合制备氧化石墨烯/改性二氧化钛复合纳滤膜的方法及其在染料脱盐中的应用,ZL201910891260.5,2023.12.05
[5] 廖俊斌;俞欣妍;沈江南,一种均相两性离子交换膜的制备方法,ZL 202011270651.4,2023.04.07
[6] 廖俊斌;沈江南;朱城镇;施金敏,一种交联型咪唑功能化聚氯乙烯阴离子交换膜的制备和应用,ZL 202110960823.9,2023.03.31
[7] 廖俊斌;唐媛媛;王彤彤;沈江南,耐溶剂交联结构阴离子交换膜的制备方法,ZL 202211082653.X,2023.09.26
[8] 廖俊斌;许婧雯;阮慧敏;沈江南,一种耐溶剂交联结构阴离子交换膜的制备方法,ZL 202211044889.4,2023.05.02
[9] 阮慧敏;沈江南;吴思梵;陈宣桦;崔海龙;陈子俊;甘晓炜;陈文杰,一种双极膜电渗析耦合中空纤维膜处理浓海水产碱固碳的方法,ZL 202210326886.3,2023.07.25
2023年新增受理专利
[1] 沈江南;徐志鹏;李业洋;陈子俊;陈茜婷;余帅军,一种含无醚键聚苯并咪唑离聚物和基于高温质子交换膜的膜电极及其制备方法,CN 202310758151.2,2023.10.31
[2] 沈江南;姚宇洋;母俊杰;廖俊斌;陈奕韬,一种用Co NPs和氯胺改性提高AEMs抗生物污染性能的方法,CN 2023107618678,2023.10.13
[3] 沈江南;徐格婷;蒋雅贞;余帅军;王炳辉,一种具有阻酸性能的交联型阴离子交换膜的制备方法和应用,CN 2022116014899,2023.06.06
[4] 沈江南;阮慧敏;崔海龙;董云迪;卢昊;魏海丽,一种电渗析除硼的方法,CN 202211738372.5,2023.05.30
[5] 沈江南;徐志鹏;李业洋;廖俊斌;陈子俊;陈茜婷,一种含卟啉环支化聚苯并咪唑和含卟啉环支化聚苯并咪唑质子交换膜的制备方法,CN 202211741246.5,2023.04.18
[6] 沈江南;姚宇洋;陈奕韬;邵奕飞;卢昊,一种共混氢氧化铜制备抗菌性阴离子交换膜的方法,CN 2022110476343,2023.04.14
[7] 沈江南;董云迪;崔海龙;母俊杰;魏海丽;卢昊,一种双极膜电渗析耦合反渗透、纳滤、电渗析技术处理化工废水的方法,CN 2022117346603,2023.04.04
[8] 沈江南;徐格婷;蒋雅贞;余帅军;王炳辉,一种低含水率且具有阻酸功能的阴离子交换膜的制备方法和应用,CN202211601943.0,2023.04.04
[9] 沈江南;李俊华;陈宣桦;廖俊斌;许孝良,一种金属有机框架化学修饰交联型离子交换膜的制备方法, CN 202211312992.2,2023.02.03
[10] 沈江南;母俊杰,卷式电渗析净水器,CN 202322693932.6,2023.10.09
[11] 沈江南;徐志鹏;王秋萍;廖俊斌,一种质子交换膜其制备方法以及用于电解水制氢的膜电极,CN 2023112734683,2023.09.28
[12] 沈江南;林晨菲;钱豪;徐燕青;王猛,一种三苯胺基型共价有机框架复合膜及其制备方法和应用,CN 2023118328895,2023.12.28
[13] 沈江南;钱豪;王猛;王积宽;廖俊斌,一种表面具有两性离子功能层的阳离子交换膜及其制备方法,CN 2023118548819,2023.12.29
[14] 沈江南;姚宇洋;陆月月;廖俊斌;陈奕韬,一种用溶菌酶和THPS改性阴离子交换膜的方法,CN 2023118543853,2023.12.29
[15] 廖俊斌;张琦舜;阮文祥;杜宝山,一种高通量单价选择性双侧链型阴离子交换膜的制备方法,CN 202310449368.5
[16] 廖俊斌;徐艺帆;阮文祥;杜宝山;魏华,一种用于一/二价阳离子分离离子交换膜的制备方法,CN 202310430987X
[17] 廖俊斌;唐媛媛;王彤彤;沈江南,一种兼具一价阴离子选择性和耐溶剂性阴离子交换膜,CN 202310353719.2
[18] 廖俊斌;王彤彤;唐媛媛;沈江南,一种高渗透通量单价选择性阴离子交换膜的制备方法,CN 2023103476220
[19] 廖俊斌;唐媛媛;王彤彤;沈江南,一种单价阴离子选择性且耐溶剂离子交换膜的制备方法,CN 2023109394741
[20] 廖俊斌;徐艺帆;张琦舜;沈江南,一种阴/阳离子交换层主链相同的双极膜的制备方法,CN 2023109951675
[21] 阮慧敏;许婧雯;廖俊斌;沈江南,一种耐溶剂交联结构阴离子交换膜的制备方法,CN 2023103055664
[22] 阮慧敏;高尚上;王均瑶;廖俊斌;沈江南,一种聚亚芳基醚砜阴离子交换膜在电渗析浓缩酸中的应用,CN 2023114558421
[23] 施文慧;戴润禹;沈江南;曹澥宏,一种聚苯胺/普鲁士蓝/聚苯胺复合电极材料及其制备方法、应用,CN 2023115048074
[24] 施文慧;韩旭冉;沈江南;曹澥宏,一种碳纳米管/聚苯胺纳米复合材料及其制备方法、应用,CN 2023114868682
2023年参加学术会议
[1] 沈江南;廖俊斌;徐燕青等,第十一届全国膜与膜过程学术报告会(CCOM2022),2023.07.15-2023.07.18,四川成都
[2] 沈江南;廖俊斌等,第九届中国电驱动膜技术研讨会,2023.03.31-2023.04.02,安徽界首
[3] 沈江南;廖俊斌;徐格婷,第二届大湾区分离纯化技术论坛(GBA-SPT 2023)暨第二届大湾区膜与膜过程论坛(2nd GBA-MMP),2023.05.19-2023.05.22,线上
[4] 沈江南;廖俊斌;姚宇洋等,青岛国际水大会&水展,2023.07.11-2023.07.14,山东青岛
[5] 廖俊斌,第七届全国膜技术青年科学家峰会,2023.04.07-2023.04.09,天津
[6] 沈江南;徐燕青等,膜科学与技术在“双碳”战略中的应用研讨会,2023.05.13-2023.05.14,辽宁大连
[7] 沈江南,2023世界钾盐钾肥大会暨格尔木盐湖论坛——锂资源和锂电新能源论坛,2023.06.06,青海格尔木
[8] 沈江南;姚宇洋等,上海国际水展,2023.06.06,上海
[9] 沈江南;姚宇洋,全国萃取、结晶、冶金分离及水处理技术产学研合作高峰论坛,2023.06.16,湖南长沙
[10] 徐燕青,第13届国际膜与膜过程大会ICOM 2023,2023.07.09,日本千叶
[11] 沈江南,第24届“青洽会”——盐湖资源综合利用暨锂产业发展论坛,2023.07.21,青海西宁
[12] 廖俊斌,2023年水处理技术创新与前沿应用学术研讨会暨青年学者论坛,2023.07.23-2023.07.25,江苏苏州
[13] 施文慧,第三届电驱动膜分离技术在盐湖资源开发领域的应用研讨会,2023.08.14-2023.08.16,青海西宁
[14] 沈江南,2023年膜技术在无机盐工业中应用研讨会,2023.10.20-2023.10.22,天津
[15] 徐燕青,2023中国化工学会科技创新大会,2023.04.11-2023.04.12,浙江杭州
[16] 阮慧敏,第八届西湖水业大会,2023.05.19-2023.05.20,浙江杭州
[17] 廖俊斌,2023年度膜工业协会专题技术报告会,2023.11.23,天津