化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2013年
11期
2783-2786
,共4页
夏静%张哲鸣%贺文智%李光明%李心砚%王琢璞%李舒
夏靜%張哲鳴%賀文智%李光明%李心硯%王琢璞%李舒
하정%장철명%하문지%리광명%리심연%왕탁박%리서
锂离子电池%负极活性材料%分析测试
鋰離子電池%負極活性材料%分析測試
리리자전지%부겁활성재료%분석측시
lithium-ion secondary batteries%negative electrode active materials%analytical test
目前关于废锂离子电池资源化的研究主要集中在正极贵金属和负极铜材料的分离回收和精制方面,但对负极活性材料的资源化研究很少。本文采用XRD、SEM、GC-MS、ICP-AES等检测手段对废锂离子电池负极活性材料中石墨的结构、有机物的种类以及Li、Gu等金属的含量进行测试分析。结果显示,其主要组分石墨的本体结构基本无变化,仍保持完整的层状结构,但是其中含有一定量的有机物质,如有机电解质及增塑剂等。经过提纯,可以将其作为石墨原料进行资源化再利用;此外,稀有金属Li含量较高,为31.03 mg/g,分离回收的价值较高。
目前關于廢鋰離子電池資源化的研究主要集中在正極貴金屬和負極銅材料的分離迴收和精製方麵,但對負極活性材料的資源化研究很少。本文採用XRD、SEM、GC-MS、ICP-AES等檢測手段對廢鋰離子電池負極活性材料中石墨的結構、有機物的種類以及Li、Gu等金屬的含量進行測試分析。結果顯示,其主要組分石墨的本體結構基本無變化,仍保持完整的層狀結構,但是其中含有一定量的有機物質,如有機電解質及增塑劑等。經過提純,可以將其作為石墨原料進行資源化再利用;此外,稀有金屬Li含量較高,為31.03 mg/g,分離迴收的價值較高。
목전관우폐리리자전지자원화적연구주요집중재정겁귀금속화부겁동재료적분리회수화정제방면,단대부겁활성재료적자원화연구흔소。본문채용XRD、SEM、GC-MS、ICP-AES등검측수단대폐리리자전지부겁활성재료중석묵적결구、유궤물적충류이급Li、Gu등금속적함량진행측시분석。결과현시,기주요조분석묵적본체결구기본무변화,잉보지완정적층상결구,단시기중함유일정량적유궤물질,여유궤전해질급증소제등。경과제순,가이장기작위석묵원료진행자원화재이용;차외,희유금속Li함량교고,위31.03 mg/g,분리회수적개치교고。
At present,the research on spent lithium-ion secondary batteries is mainly focused on the separation recovery and refinery of precious metals in positive materials and copper in negative materials. But the research on negative active materials is rare. In this paper,the negative electrode active materials in spent lithium-ion secondary batteries are tested by XRD、SEM、GC-MS、ICP-AES, including the structure of graphite,the kinds of organic matter,and metal contents. The results show that there is basically no change in the graphite material body structure,it still keeps the complete layer structure. However,it contains a certain amount of organic material,such as organic electrolyte and plasticizer,etc. It can be reused after purification. What is more,the concentration of Li is high,with the value of 31.03 mg/g. Regarding the recovery of negative electrode active materials,the separation recycling of Li also should be concerned.
