中国有色金属学报
中國有色金屬學報
중국유색금속학보
THE CHINESE JOURNAL OF NONFERROUS METALS
2014年
10期
2525-2529
,共5页
朱曙光%贺文智%李光明%黄菊文
硃曙光%賀文智%李光明%黃菊文
주서광%하문지%리광명%황국문
废锂离子电池%钴酸锂%超声辐射%再生
廢鋰離子電池%鈷痠鋰%超聲輻射%再生
폐리리자전지%고산리%초성복사%재생
spent lithium-ion battery%LiCoO2%ultrasonic irradiation%regeneration
为了恢复锂离子电池中正极钴酸锂材料的电化学活性,对置于LiOH溶液中的失效钴酸锂进行超声再生研究。采用 XRD 和 Raman 光谱分析钴酸锂晶体结构,采用 SEM 分析钴酸锂表面形貌和颗粒大小,采用 FT-IR光谱仪和 TGA 热分析仪分析钴酸锂表面粘附的有机物。结果表明:超声空化效应可以有效地去除钴酸锂表面的有机物,并有利于钴酸锂晶体在LiOH溶液中Co和Li阳离子的重排。室温条件下,失效的钴酸锂在2.0 mol/L LiOH溶液中经过12 h超声处理后,成功恢复了其电化学活性。锂离子电池的首次充电容量为132.2 mA?h/g,首次放电容量为131.9 mA?h/g,第50次循环时的电容保持率为97.2%。
為瞭恢複鋰離子電池中正極鈷痠鋰材料的電化學活性,對置于LiOH溶液中的失效鈷痠鋰進行超聲再生研究。採用 XRD 和 Raman 光譜分析鈷痠鋰晶體結構,採用 SEM 分析鈷痠鋰錶麵形貌和顆粒大小,採用 FT-IR光譜儀和 TGA 熱分析儀分析鈷痠鋰錶麵粘附的有機物。結果錶明:超聲空化效應可以有效地去除鈷痠鋰錶麵的有機物,併有利于鈷痠鋰晶體在LiOH溶液中Co和Li暘離子的重排。室溫條件下,失效的鈷痠鋰在2.0 mol/L LiOH溶液中經過12 h超聲處理後,成功恢複瞭其電化學活性。鋰離子電池的首次充電容量為132.2 mA?h/g,首次放電容量為131.9 mA?h/g,第50次循環時的電容保持率為97.2%。
위료회복리리자전지중정겁고산리재료적전화학활성,대치우LiOH용액중적실효고산리진행초성재생연구。채용 XRD 화 Raman 광보분석고산리정체결구,채용 SEM 분석고산리표면형모화과립대소,채용 FT-IR광보의화 TGA 열분석의분석고산리표면점부적유궤물。결과표명:초성공화효응가이유효지거제고산리표면적유궤물,병유리우고산리정체재LiOH용액중Co화Li양리자적중배。실온조건하,실효적고산리재2.0 mol/L LiOH용액중경과12 h초성처리후,성공회복료기전화학활성。리리자전지적수차충전용량위132.2 mA?h/g,수차방전용량위131.9 mA?h/g,제50차순배시적전용보지솔위97.2%。
The spent LiCoO 2 was treated in LiOH solution exerted by ultrasound with the aim to renovate its electrochemical characteristics. The crystal structures of LiCoO2 were characterized by XRD and Raman spectroscopy, respectively. The morphology and particle sizes of LiCoO2 were analyzed by SEM. The organic substance adhered to the used LiCoO2 particle surfaces was determined by using Fourier transform infrared spectrometer (FT-IR) and thermogravimetric analysis (TGA), respectively. The results show that ultrasonic cavitation can be effectively used to remove organic substance stuck on LiCoO2 surface and facilitate the cation rearrangement of Co+ and Li+ in LiOH. At room temperature, the spent LiCoO2 is successfully renovated in 2.0 mol/L LiOH solution treated by ultrasound for 12 h. The charge capacity in the first cycle is 132.2 mA?h/g, the discharge capacity is 131.9 mA?h/g, and 97.2% of the discharge capacity is retained after 50 cycles.
