燃料化学学报
燃料化學學報
연료화학학보
JOURNAL OF FUEL CHEMISTRY AND TECHNOLOGY
2014年
5期
539-544
,共6页
黄珊珊%赵小燕%谢凤梅%曹景沛%魏贤勇%宝田恭之
黃珊珊%趙小燕%謝鳳梅%曹景沛%魏賢勇%寶田恭之
황산산%조소연%사봉매%조경패%위현용%보전공지
无灰煤%双电层电容器%活性炭%比表面积%电容
無灰煤%雙電層電容器%活性炭%比錶麵積%電容
무회매%쌍전층전용기%활성탄%비표면적%전용
HyperCoal%EDLC%activated carbon%spce ific surface area%ac ap citan ce
以无灰煤( HyperCoal)为原料,KOH和CaCO3为活化剂制备了煤基活性炭,采用低温N2吸附法表征了活性炭的比表面积和孔结构,测定了活性炭用作双电层电容器( EDLC)电极材料的电化学性能。考察了炭化温度、活化温度、活化时间和活化剂对活性炭电容特性的影响。研究结果表明,比表面积和比电容随着炭化温度的升高而降低,活化温度过高或活化时间太长对比电容有不利影响。此外,CaCO3影响活化过程中孔的开发,显著降低所制备活性炭的比表面积和比电容。在炭化温度为500℃、活化温度为800℃、KOH 与焦的质量比为4∶1和活化时间2 h 下所得活性炭的比表面积和总孔容分别达到2540 m2/g和1.65 cm3/g,该活性炭电极在0.5 mol/L TEABF4/PC电解液中的比电容达到最大值46.0 F/g。
以無灰煤( HyperCoal)為原料,KOH和CaCO3為活化劑製備瞭煤基活性炭,採用低溫N2吸附法錶徵瞭活性炭的比錶麵積和孔結構,測定瞭活性炭用作雙電層電容器( EDLC)電極材料的電化學性能。攷察瞭炭化溫度、活化溫度、活化時間和活化劑對活性炭電容特性的影響。研究結果錶明,比錶麵積和比電容隨著炭化溫度的升高而降低,活化溫度過高或活化時間太長對比電容有不利影響。此外,CaCO3影響活化過程中孔的開髮,顯著降低所製備活性炭的比錶麵積和比電容。在炭化溫度為500℃、活化溫度為800℃、KOH 與焦的質量比為4∶1和活化時間2 h 下所得活性炭的比錶麵積和總孔容分彆達到2540 m2/g和1.65 cm3/g,該活性炭電極在0.5 mol/L TEABF4/PC電解液中的比電容達到最大值46.0 F/g。
이무회매( HyperCoal)위원료,KOH화CaCO3위활화제제비료매기활성탄,채용저온N2흡부법표정료활성탄적비표면적화공결구,측정료활성탄용작쌍전층전용기( EDLC)전겁재료적전화학성능。고찰료탄화온도、활화온도、활화시간화활화제대활성탄전용특성적영향。연구결과표명,비표면적화비전용수착탄화온도적승고이강저,활화온도과고혹활화시간태장대비전용유불리영향。차외,CaCO3영향활화과정중공적개발,현저강저소제비활성탄적비표면적화비전용。재탄화온도위500℃、활화온도위800℃、KOH 여초적질량비위4∶1화활화시간2 h 하소득활성탄적비표면적화총공용분별체도2540 m2/g화1.65 cm3/g,해활성탄전겁재0.5 mol/L TEABF4/PC전해액중적비전용체도최대치46.0 F/g。
Coal-based activated carbons ( ACs ) were prepared from HyperCoal using KOH and CaCO3 as activating agent, and were used as electrode materials for electric double layer capacitor ( EDLC ) using 0.5 mol/L TEABF4/PC as the electrolytic solution.The porosity of the ACs was characterized using N2 adsorption at 77 K.The effects of carbonization temperature, actvi ation temperature, actvia tion time na d activta ing agent on the ac pacitacn e characteristic of ACsw ere investigated.The results show thta the specific sru face area and the specific capacitance decreased with the increase of carbonizatino temperature.A high activation temperature and a long activation time is not beneficial for the specific capacitance of EDLC.CaCO3 sgi nificantly inhibited the porosity development during KOH activation and gave ACs with quite low specific surface area andsp ecific capacitance.The ACs prepared at carbonization temperature of 500 ℃, activation temperature of 800 ℃,K OH/char ratio of 4 and atc ivta ion time of 2 hr eached a specific surface area of 2 540 m2/g and a total pore volume of 1.65 cm3/g and achieved the mxa imum specificc apacitance of 46.0 F/g.
