这里会显示出您选择的修订版和当前版本之间的差别。
两侧同时换到之前的修订记录 前一修订版 后一修订版 | 前一修订版 后一修订版 两侧同时换到之后的修订记录 | ||
wiki:pub:publications_en [2017/05/13 09:08] 张伟明 |
wiki:pub:publications_en [2020/05/12 16:31] 张伟明 [表] |
||
---|---|---|---|
行 1: | 行 1: | ||
====== Publications ====== | ====== Publications ====== | ||
- | ^ Year ^ Source ^ Title ^ | + | ^ Year ^ Source ^ Title ^ |
- | | 2017 | //J. Membr. Sci.// **2017**, 537, Pages 111–118 (1 September 2017) | | + | | 2020 | //Green Chem.// **2020**, 22:2213-2224 (Back cover article) | [[https://doi.org/10.1039/C9GC02460C|Enabling an atom-economic production of chiral amino alcohols by electrodialysis with bipolar membranes]] | |
- | [[wiki:pub:j.memsci.2017.05.009|Selective removal of halides from spent zinc sulfate electrolyte by diffusion dialysis]] | | + | | ::: | //Sep. Purif. Technol.// **2020**, 230:115871 (2 January 2020) | [[https://doi.org/10.1016/j.seppur.2019.115871|Selective removal of chloride from the adipate formation bath in foil industry by diffusion dialysis]] | |
- | | 2016 | //J. Membr. Sci.// **2017**, 525, Pages 229--239 (1 March 2017) | [[wiki:pub:j.memsci.2016.10.050|Preparation of covalently cross-linked sulfonated polybenzimidazole membranes for vanadium redox flow battery applications]] (Co-authored with Prof. Fang@SJTU) | | + | | 2018 | //J. Membr. Sci.// **2018**, 563:142--148 (1 October 2018) | [[wiki:pub:j.memsci.2018.05.053|Significantly enhanced dehalogenation selectivity in near-neutral zinc sulfate electrolytes by diffusion dialysis]] | |
- | | ::: | //Materials & Design// **2017**, 113, pp 149–156 (5 January 2017) | [[wiki:pub:j.matdes.2016.10.019|Graphene enhances the proton selectivity of porous membrane in vanadium flow batteries]] | | + | | 2017 | //J. Membr. Sci.// **2017**, 537:111--118 (1 September 2017) | [[wiki:pub:j.memsci.2017.05.009|Selective removal of halides from spent zinc sulfate electrolyte by diffusion dialysis]] | |
- | | 2015 | //J. Membr. Sci.// **2015**, 493, pp 28--36 (29 June, 2015) | [[wiki:pub:j.memsci.2015.06.027|Acid blue 9 desalting using electrodialysis]] | | + | | ::: | //J. Membr. Sci.// **2017**, 525:229--239 (1 March 2017) | [[wiki:pub:j.memsci.2016.10.050|Preparation of covalently cross-linked sulfonated polybenzimidazole membranes for vanadium redox flow battery applications]] (Co-authored with Prof. Fang@SJTU) | |
- | | ::: | //ACS Appl. Mater. Interfaces// **2015**, 7 (19), pp 10534--10540 (May 4, 2015) | [[wiki:pub:acsami.5b02087|Gold Embedded Maghemite Hybrid Nanowires and Their Gas Sensing Properties]] | | + | | ::: | //Materials & Design// **2017**, 113:149–156 (5 January 2017) | [[wiki:pub:j.matdes.2016.10.019|Graphene enhances the proton selectivity of porous membrane in vanadium flow batteries]] | |
- | | ::: | //Desalination// **2015**, 359, pp 52--58 (2 March, 2015) | [[wiki:pub:j.desal.2014.12.010|Energy self-sufficient desalination stack as a potential fresh water supply on small islands]] | | + | | 2015 | //J. Membr. Sci.// **2015**, 493:28--36 (29 June, 2015) | [[wiki:pub:j.memsci.2015.06.027|Acid blue 9 desalting using electrodialysis]] | |
- | | 2014 | //Ind. Eng. Chem. Res.// **2014**, 53(34), pp 13467--13474 (18 August, 2014) | [[wiki:pub:ie5023546|Green Production of Ultrahigh-Basicity Polyaluminum Salts with Maximum Atomic Economy by Ultrafiltration and Electrodialysis with Bipolar Membranes]] | | + | | ::: | //ACS Appl. Mater. Interfaces// **2015**, 7(19):10534--10540 (May 4, 2015) | [[wiki:pub:acsami.5b02087|Gold Embedded Maghemite Hybrid Nanowires and Their Gas Sensing Properties]] | |
- | | ::: | //水处理技术// **2014**, 40(3), pp 44-48 (Mar. 2014) | [[wiki:pub:sclj201403013_cn|基于膜分离的电极箔行业减排降耗过程研究]] | | + | | ::: | //Desalination// **2015**, 359:52--58 (2 March, 2015) | [[wiki:pub:j.desal.2014.12.010|Energy self-sufficient desalination stack as a potential fresh water supply on small islands]] | |
- | | 2013 | //J. Membr. Sci.// **2013**, 432, pp 90--96 (1 April, 2013) | [[wiki:pub:j.memsci.2013.01.016|Zero discharge process for foil industry waste acid reclamation: Coupling of diffusion dialysis and electrodialysis with bipolar membranes]] | | + | | 2014 | //Ind. Eng. Chem. Res.// **2014**, 53(34):13467--13474 (18 August, 2014) | [[wiki:pub:ie5023546|Green Production of Ultrahigh-Basicity Polyaluminum Salts with Maximum Atomic Economy by Ultrafiltration and Electrodialysis with Bipolar Membranes]] | |
- | | 2012 | //Ind. Eng. Chem. Res.// **2012**, 51 (34), pp 11201--11206 (17 August, 2012) | [[wiki:pub:ie301048k|Cost-Effective Production of Pure Al13 from AlCl3 by Electrolysis]] | | + | | ::: | //水处理技术// **2014**, 40(3):44--48 (Mar. 2014) | [[wiki:pub:sclj201403013_cn|基于膜分离的电极箔行业减排降耗过程研究]] | |
+ | | 2013 | //J. Membr. Sci.// **2013**, 432:90--96 (1 April, 2013) | [[wiki:pub:j.memsci.2013.01.016|Zero discharge process for foil industry waste acid reclamation: Coupling of diffusion dialysis and electrodialysis with bipolar membranes]] | | ||
+ | | 2012 | //Ind. Eng. Chem. Res.// **2012**, 51(34):11201--11206 (17 August, 2012) | [[wiki:pub:ie301048k|Cost-Effective Production of Pure Al13 from AlCl3 by Electrolysis]] | | ||
- | {{page>wiki:pub:j.memsci.2017.05.009}} | ||
- | {{page>wiki:pub:j.memsci.2016.10.050}} | ||
- | {{page>wiki:pub:j.matdes.2016.10.019}} | ||
- | {{page>wiki:pub:j.memsci.2015.06.027}} | ||
- | {{page>wiki:pub:acsami.5b02087}} | ||
- | {{page>wiki:pub:j.desal.2014.12.010}} | ||
- | {{page>wiki:pub:ie5023546}} | ||
- | {{page>wiki:pub:sclj201403013_cn}} | ||
- | {{page>wiki:pub:j.memsci.2013.01.016}} | ||
- | {{page>wiki:pub:ie301048k}} | ||