物理化学学报
物理化學學報
물이화학학보
ACTA PHYSICO-CHIMICA SINICA
2012年
6期
1387-1392
,共6页
苏安群%汪南方%刘素琴%吴涛%彭穗
囌安群%汪南方%劉素琴%吳濤%彭穗
소안군%왕남방%류소금%오도%팽수
钒电池%碳纸%水热酸氧化%接触角%含氧基团%亲水性
釩電池%碳紙%水熱痠氧化%接觸角%含氧基糰%親水性
범전지%탄지%수열산양화%접촉각%함양기단%친수성
Vanadium redox battery%Carbon paper%Hydrothermal acid oxidation%Contact angle%Oxygen-containing group%Wetting property
为了提高钒氧化还原电池电极的活性,在180℃下将碳纸电极与过氧化氢的硫酸溶液置于有聚四氟乙烯内衬的不锈钢反应釜中进行不同时间的水热酸氧化处理.水的接触角测试表明,随着处理时间从6h调整至18h,处理前后碳纸电极的接触角也从120.0°降低至100.8°,尤其是经过12h处理的样品的接触角最小,这说明在此条件下处理过的碳纸的亲水性得到了提高.而傅里叶变换红外测试表明,羰基和羧基等含氧基团被成功地引入到了碳纸电极中.使用扫描电镜,循环伏安,电化学阻抗以及充放电技术分别检测了处理前后样品的表面形貌及电化学性能.V(Ⅳ)(/V)(Ⅴ)氧化还原电对在这些处理过的样品上表现出较大的活性.用处理12h的碳纸电极组装的单电池性能优异,在30 mA· cm-2的电流密度下能量效率达到了80%,相应的电流效率和电压效率分别为96%和84%.
為瞭提高釩氧化還原電池電極的活性,在180℃下將碳紙電極與過氧化氫的硫痠溶液置于有聚四氟乙烯內襯的不鏽鋼反應釜中進行不同時間的水熱痠氧化處理.水的接觸角測試錶明,隨著處理時間從6h調整至18h,處理前後碳紙電極的接觸角也從120.0°降低至100.8°,尤其是經過12h處理的樣品的接觸角最小,這說明在此條件下處理過的碳紙的親水性得到瞭提高.而傅裏葉變換紅外測試錶明,羰基和羧基等含氧基糰被成功地引入到瞭碳紙電極中.使用掃描電鏡,循環伏安,電化學阻抗以及充放電技術分彆檢測瞭處理前後樣品的錶麵形貌及電化學性能.V(Ⅳ)(/V)(Ⅴ)氧化還原電對在這些處理過的樣品上錶現齣較大的活性.用處理12h的碳紙電極組裝的單電池性能優異,在30 mA· cm-2的電流密度下能量效率達到瞭80%,相應的電流效率和電壓效率分彆為96%和84%.
위료제고범양화환원전지전겁적활성,재180℃하장탄지전겁여과양화경적류산용액치우유취사불을희내츤적불수강반응부중진행불동시간적수열산양화처리.수적접촉각측시표명,수착처리시간종6h조정지18h,처리전후탄지전겁적접촉각야종120.0°강저지100.8°,우기시경과12h처리적양품적접촉각최소,저설명재차조건하처리과적탄지적친수성득도료제고.이부리협변환홍외측시표명,탄기화최기등함양기단피성공지인입도료탄지전겁중.사용소묘전경,순배복안,전화학조항이급충방전기술분별검측료처리전후양품적표면형모급전화학성능.V(Ⅳ)(/V)(Ⅴ)양화환원전대재저사처리과적양품상표현출교대적활성.용처리12h적탄지전겁조장적단전지성능우이,재30 mA· cm-2적전류밀도하능량효솔체도료80%,상응적전류효솔화전압효솔분별위96%화84%.
To improve the electrochemical activity of electrodes in the vanadium redox battery,carbon paper electrode was treated with a hydrogen peroxide and sulfuric acid solution,according to the hydrothermal acid oxidation method,in a Teflon-lined stainless steel autoclave over different time periods at 180 ℃.The water contact angle test showed that the contact angle of treated carbon paper samples changed from 120.0° to 100.8° by adjusting the treatment time from 6 to 18 h.Furthermore,a treatment time of 12 h resulted in the lowest contact angle observed,indicating that the wetting property of the carbon paper had been enhanced under these treatment conditions.Fourier transformation infrared spectroscopy results showed that oxygen-containing groups,such as the carbonyl and carboxyl groups,had been successfully introduced to the carbon papers.Scanning electron microscopy,cyclic vollammetry,electrochemical impedance spectroscopy,and charge-discharge tests were camied to characterize the surface topography and electrochemical properties of the carbon papers.The treated samples showed high activity in the redox reactions of V(IV)(N)(V).A single-cell employing carbon paper was treated for 12 h as an electrode and exhibited an excellent performance.The energy efficiency reached 80% at a current density of 30 mA· cm-2.The corresponding coulombic and voltage efficiencies were 96% and 84%,respectively.
