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连续共价有机框架筛分复合膜及全钒电池性能
引用本文:杜若晗,逄博,王宁,崔福军,郭明钢,贺高红,吴雪梅. 连续共价有机框架筛分复合膜及全钒电池性能[J]. 化工学报, 1951, 73(9): 4163-4172. DOI: 10.11949/0438-1157.20220552
作者姓名:杜若晗  逄博  王宁  崔福军  郭明钢  贺高红  吴雪梅
作者单位:1.大连理工大学化工学院,辽宁 大连 116024;2.大连理工大学盘锦产业技术研究院,辽宁 盘锦 124221
基金项目:国家自然科学基金创新研究群体项目(22021005);辽宁省化学助剂合成与分离省市共建重点实验室2020年开放课题(ZJKF2012);中央高校基本科研业务费项目(DUT21ZD406)
摘    要:设计了应用于全钒液流电池的尺寸筛分效应共价有机框架/聚醚砜(COF/PES)复合膜,利用纳米片的有序交错堆叠在聚醚砜支撑层上构建了具有均匀埃米级离子传输通道的连续COF分离层。连续COF层的规整刚性骨架赋予了膜极低的溶胀比,有序的埃米级孔道(有效孔径约为0.6 nm)对氢/钒离子具有精确的尺寸筛分作用。COF/PES筛分复合膜的钒渗透率仅有0.61×10-8 cm-2·s-1,质子/钒离子选择性为Nafion 212的4.0倍。电流密度为80 mA·cm-2下复合膜的能量效率达到82.9%,优于Nafion 212(81.2%)。100 mA·cm-2下的长循环测试中,复合膜电池容量保持率相比于Nafion 212电池提高了16.2%,表明连续COF/PES筛分复合膜在全钒液流电池中具有广阔的应用前景。

关 键 词:共价有机框架  尺寸筛分  全钒液流电池    离子交换  电化学  
收稿时间:2022-04-19

Continuous covalent organic framework composite membrane with size-sieving effect for vanadium flow battery
Ruohan DU,Bo PANG,Ning WANG,Fujun CUI,Minggang GUO,Gaohong HE,Xuemei WU. Continuous covalent organic framework composite membrane with size-sieving effect for vanadium flow battery[J]. Journal of Chemical Industry and Engineering(China), 1951, 73(9): 4163-4172. DOI: 10.11949/0438-1157.20220552
Authors:Ruohan DU  Bo PANG  Ning WANG  Fujun CUI  Minggang GUO  Gaohong HE  Xuemei WU
Affiliation:1.School of Chemical Engineering, Dalian University of Technology, Dalian 116024, Liaoning, China;2.Panjin Institute of Industrial Technology, Dalian University of Technology, Panjin 124221, Liaoning, China
Abstract:To solve the balance between proton conductivity and ion selectivity and the balance between power density and capacity decay in vanadium flow battery (VFB), a series of continuous covalent organic framework/ polyether sulfone (COF/PES) composite membrane with size-sieving effect were designed and prepared. The COF nanosheets synthesized by interfacial polymerization were fabricated into continuous proton/vanadium ion sieving COF layers on the PES support layer by vacuum assisted self-assembly. The regular rigid skeleton of COF layer endows the composite membrane with extremely low swelling ratio, and the uniform sub-nanoscale ion transport channel (pore size is about 0.6 nm) constructed by orderly staggered stacking of nanosheets has accurate size-sieving effect on H+/V n+ ions. The vanadium permeability of COF/PES composite membrane is only 0.61 × 10-8 cm-2·s-1, and the ion selectivity is 4.0 times that of Nafion 212. At 80 mA·cm-2, the energy efficiency of composite membrane reaches 82.9%, which is better than Nafion 212 (81.2%). In the long cycle test at 100 mA·cm-2, the capacity retention rate of the VFB equipped with composite membrane was 16.2% higher than that of the battery equipped with Nafion 212, indicating that the continuous COF/PES size-sieving composite membrane has broad application prospect in vanadium flow battery.
Keywords:covalent organic framework  size-sieving  vanadium flow battery  membrane  ion exchange  electrochemistry  
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