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<▼1><P>An ultra-high ion-selective SPAEK/ZrNT composite membrane is developed and exhibits an improved VRB self-discharge time compared with SPAEK and Nafion-212 membranes.</P></▼1><▼2><P>An ultra-high ion-sel...
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RISS 인기검색어
Ultra-high proton/vanadium selectivity of a modified sulfonated poly(arylene ether ketone) composite membrane for all vanadium redox flow batteries
한글로보기https://www.riss.kr/link?id=A107438793
- 저자
- 발행기관
- 학술지명
- 권호사항
-
발행연도
2017
-
작성언어
-
-
등재정보
SCOPUS,SCIE
-
자료형태
학술저널
-
수록면
16663-16671(9쪽)
- 제공처
- 소장기관
-
0
상세조회 -
0
다운로드
부가정보
다국어 초록 (Multilingual Abstract)
<▼1><P>An ultra-high ion-selective SPAEK/ZrNT composite membrane is developed and exhibits an improved VRB self-discharge time compared with SPAEK and Nafion-212 membranes.</P></▼1><▼2><P>An ultra-high ion-selective membrane composed of an aromatic block copolymer sulfonated poly(arylene ether ketone) (SPAEK) and ZrO2 nanotubes (ZrNTs) is designed and fabricated <I>via</I> a solution-casting method. The composite membrane showed high proton conductivity and a reduced VO<SUP>2+</SUP> crossover rate compared with a pristine SPAEK membrane. The SPAEK/ZrNT composite membrane exhibits a high proton conductivity and superior ion selectivity by reducing the crossover of vanadium ions during the long-term operation of an all vanadium redox flow battery (VRB). The VO<SUP>2+</SUP> permeability rate of SPAEK/ZrNT is 0.09 × 10<SUP>−7</SUP> cm<SUP>2</SUP> min<SUP>−1</SUP>, which is 11- and 37-fold lower compared to that of the pristine SPAEK (1.0 × 10<SUP>−7</SUP> cm<SUP>2</SUP> min<SUP>−1</SUP>) and Nafion-212 (3.3 × 10<SUP>−7</SUP> cm<SUP>2</SUP> min<SUP>−1</SUP>) membranes, respectively. The VRB assembled with a SPAEK/ZrNT composite membrane showed a significantly lower self-discharge rate, retaining an open circuit voltage of 1.3 V for 500 h, compared to the pristine SPAEK (126 h) and Nafion-212 (29 h) membranes, indicating the superior ion selectivity of the composite membrane (6.6 × 10<SUP>6</SUP> S min cm<SUP>−3</SUP>), which is an 11- and 41-fold higher ion selectivity compared to that of the pristine SPAEK and Nafion-212 membranes, respectively. The SPAEK/ZrNT composite membrane exhibits a higher coulombic efficiency (CE, 99.86%) and energy efficiency (EE, 83.82%) at 40 mA cm<SUP>−2</SUP>, as compared to the pristine SPAEK (CE, 97.76% and EE, 81.56%) and Nafion-212 (CE, 89.65% and EE, 75.53%) membranes. The capacity retention of the SPAEK/ZrNT composite membrane is 93%, which is much higher than that of the SPAEK (72%) and Nafion-212 (38%) membranes after 100 VRB cycles. Moreover, the VRB with the SPAEK/ZrNT composite membrane maintains a stable cycling performance at different current densities, indicating the great potential of this separator as a substitute for the commercial Nafion membrane widely used in VRBs.</P></▼2>
<▼1><P>An ultra-high ion-selective SPAEK/ZrNT composite membrane is developed and exhibits an improved VRB self-discharge time compared with SPAEK and Nafion-212 membranes.</P></▼1><▼2><P>An ultra-high ion-selective membrane composed of an aromatic block copolymer sulfonated poly(arylene ether ketone) (SPAEK) and ZrO2 nanotubes (ZrNTs) is designed and fabricated <I>via</I> a solution-casting method. The composite membrane showed high proton conductivity and a reduced VO<SUP>2+</SUP> crossover rate compared with a pristine SPAEK membrane. The SPAEK/ZrNT composite membrane exhibits a high proton conductivity and superior ion selectivity by reducing the crossover of vanadium ions during the long-term operation of an all vanadium redox flow battery (VRB). The VO<SUP>2+</SUP> permeability rate of SPAEK/ZrNT is 0.09 × 10<SUP>−7</SUP> cm<SUP>2</SUP> min<SUP>−1</SUP>, which is 11- and 37-fold lower compared to that of the pristine SPAEK (1.0 × 10<SUP>−7</SUP> cm<SUP>2</SUP> min<SUP>−1</SUP>) and Nafion-212 (3.3 × 10<SUP>−7</SUP> cm<SUP>2</SUP> min<SUP>−1</SUP>) membranes, respectively. The VRB assembled with a SPAEK/ZrNT composite membrane showed a significantly lower self-discharge rate, retaining an open circuit voltage of 1.3 V for 500 h, compared to the pristine SPAEK (126 h) and Nafion-212 (29 h) membranes, indicating the superior ion selectivity of the composite membrane (6.6 × 10<SUP>6</SUP> S min cm<SUP>−3</SUP>), which is an 11- and 41-fold higher ion selectivity compared to that of the pristine SPAEK and Nafion-212 membranes, respectively. The SPAEK/ZrNT composite membrane exhibits a higher coulombic efficiency (CE, 99.86%) and energy efficiency (EE, 83.82%) at 40 mA cm<SUP>−2</SUP>, as compared to the pristine SPAEK (CE, 97.76% and EE, 81.56%) and Nafion-212 (CE, 89.65% and EE, 75.53%) membranes. The capacity retention of the SPAEK/ZrNT composite membrane is 93%, which is much higher than that of the SPAEK (72%) and Nafion-212 (38%) membranes after 100 VRB cycles. Moreover, the VRB with the SPAEK/ZrNT composite membrane maintains a stable cycling performance at different current densities, indicating the great potential of this separator as a substitute for the commercial Nafion membrane widely used in VRBs.</P></▼2>
동일학술지(권/호) 다른 논문
-
- Royal Society of Chemistry
- Park, Jun-Mo
- 2017
- SCOPUS,SCIE
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