功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2014年
16期
16039-16042
,共4页
吴玉虎%胡添添%谢慧%朱银海%李增鹏%刘恩辉
吳玉虎%鬍添添%謝慧%硃銀海%李增鵬%劉恩輝
오옥호%호첨첨%사혜%주은해%리증붕%류은휘
碳纳米管%氢醌%氧化还原电解质%超级电容器
碳納米管%氫醌%氧化還原電解質%超級電容器
탄납미관%경곤%양화환원전해질%초급전용기
carbon nanotubes%hydroquinone%redox electrolyte%supercapacitor
以自组装法合成的聚苯胺为前驱体,将其碳化活化后得到活性碳纳米管,分别研究了活性碳纳米管在 H2 SO4和氢醌(hydroquinone,HQ)/H2 SO4电解质溶液里的超级电容器性能。通过扫描电子显微镜(SEM)、透射电子显微镜(TEM)和比表面及孔径分析等方法对材料的形貌和孔径分布进行表征。采用循环伏安法、恒电流充放电和交流阻抗法分别研究了超级电容器在1 mol/L H2 SO4、0.4 mol/L HQ/H2 SO4电解质溶液中的电化学性能。在扫描速率为2 mV/s时,碳纳米管电极在 H2 SO4和 HQ/H2 SO4电解液中的比电容分别为188和380 F/g。研究表明,在 HQ/H2 SO4电解质溶液中可以为超级电容器提供氧化还原赝电容,其比电容量提高了192 F/g。
以自組裝法閤成的聚苯胺為前驅體,將其碳化活化後得到活性碳納米管,分彆研究瞭活性碳納米管在 H2 SO4和氫醌(hydroquinone,HQ)/H2 SO4電解質溶液裏的超級電容器性能。通過掃描電子顯微鏡(SEM)、透射電子顯微鏡(TEM)和比錶麵及孔徑分析等方法對材料的形貌和孔徑分佈進行錶徵。採用循環伏安法、恆電流充放電和交流阻抗法分彆研究瞭超級電容器在1 mol/L H2 SO4、0.4 mol/L HQ/H2 SO4電解質溶液中的電化學性能。在掃描速率為2 mV/s時,碳納米管電極在 H2 SO4和 HQ/H2 SO4電解液中的比電容分彆為188和380 F/g。研究錶明,在 HQ/H2 SO4電解質溶液中可以為超級電容器提供氧化還原贗電容,其比電容量提高瞭192 F/g。
이자조장법합성적취분알위전구체,장기탄화활화후득도활성탄납미관,분별연구료활성탄납미관재 H2 SO4화경곤(hydroquinone,HQ)/H2 SO4전해질용액리적초급전용기성능。통과소묘전자현미경(SEM)、투사전자현미경(TEM)화비표면급공경분석등방법대재료적형모화공경분포진행표정。채용순배복안법、항전류충방전화교류조항법분별연구료초급전용기재1 mol/L H2 SO4、0.4 mol/L HQ/H2 SO4전해질용액중적전화학성능。재소묘속솔위2 mV/s시,탄납미관전겁재 H2 SO4화 HQ/H2 SO4전해액중적비전용분별위188화380 F/g。연구표명,재 HQ/H2 SO4전해질용액중가이위초급전용기제공양화환원안전용,기비전용량제고료192 F/g。
Actived carbon nanotubes are prepared by carbonizing and activating polyaniline nanotubes,which are synthesized by polymerization of aniline with a template-free self-assembly method in aqueous media.The mor-phology and surface area of the activated carbon nanotubes were investigated by scanning electron microscopy, transmission electron microscopy and Brunauer-Emmett-Teller measurement (BET),respectively.The electro-chemical properties of the supercapacitor in H2 SO4 and hydroquinone/H2 SO4 electrolyte were evaluated by cy-clic voltammetry (CV),galvanostatic charge-discharge (GCD),and electrochemical impedance spectroscopy (EIS)techniques.It was found that the supercapacitor exhibited an outstanding specific capacitance value of 380 F/g in the HQ/H2 SO4 electrolyte at a sweep rate of 2 mV/s,which was significantly higher than that of the original supercapacitor (188 F/g)using 1 mol/L H2 SO4 as electrolyte.The result showed that the capaci-tance of the as-prepared materials was heightened by 192 F/g,reaching 380 F/g,which was due to the HQ/H2 SO4 electrolyte could provide pseudocapacitance.
