化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2014年
11期
2991-2999
,共9页
张翔%王春雷%孔继周%周飞%唐州%李军秀
張翔%王春雷%孔繼週%週飛%唐州%李軍秀
장상%왕춘뢰%공계주%주비%당주%리군수
锂离子电池%Li-Ni-Co-Mn-O%共沉淀%颗粒过程%热力学%工艺参数
鋰離子電池%Li-Ni-Co-Mn-O%共沉澱%顆粒過程%熱力學%工藝參數
리리자전지%Li-Ni-Co-Mn-O%공침정%과립과정%열역학%공예삼수
lithium-ion battery%Li-Ni-Co-Mn-O%co-precipitation%particulate processes%thermodynamics%process parameters
锂电池层状 Li-Ni-Co-Mn-O 正极材料凭借其低成本、高容量的优势,已实现产业化并开始取代传统正极材料 LiCoO2。合成该材料的方法很多,共沉淀法因经济性与稳定性受到人们亲睐。本文定性地分析了共沉淀法合成 Li-Ni-Co-Mn-O 涉及的颗粒过程及热力学过程,详细探讨了共沉淀的工艺参数,如陈化时间、反应温度、pH值等对产物结构、性能的影响规律。根据分析与统计结果,明确了部分工艺参数的取值范围,提出了“有效加料速度”的概念,并引出完整描述加料过程所需要的全部变量,指出合成择优取向的一次颗粒、探索利于共沉淀的流体环境是下一步的研究方向。
鋰電池層狀 Li-Ni-Co-Mn-O 正極材料憑藉其低成本、高容量的優勢,已實現產業化併開始取代傳統正極材料 LiCoO2。閤成該材料的方法很多,共沉澱法因經濟性與穩定性受到人們親睞。本文定性地分析瞭共沉澱法閤成 Li-Ni-Co-Mn-O 涉及的顆粒過程及熱力學過程,詳細探討瞭共沉澱的工藝參數,如陳化時間、反應溫度、pH值等對產物結構、性能的影響規律。根據分析與統計結果,明確瞭部分工藝參數的取值範圍,提齣瞭“有效加料速度”的概唸,併引齣完整描述加料過程所需要的全部變量,指齣閤成擇優取嚮的一次顆粒、探索利于共沉澱的流體環境是下一步的研究方嚮。
리전지층상 Li-Ni-Co-Mn-O 정겁재료빙차기저성본、고용량적우세,이실현산업화병개시취대전통정겁재료 LiCoO2。합성해재료적방법흔다,공침정법인경제성여은정성수도인문친래。본문정성지분석료공침정법합성 Li-Ni-Co-Mn-O 섭급적과립과정급열역학과정,상세탐토료공침정적공예삼수,여진화시간、반응온도、pH치등대산물결구、성능적영향규률。근거분석여통계결과,명학료부분공예삼수적취치범위,제출료“유효가료속도”적개념,병인출완정묘술가료과정소수요적전부변량,지출합성택우취향적일차과립、탐색리우공침정적류체배경시하일보적연구방향。
Due to its low cost and high capacity , layered Li-Ni-Co-Mn-O has already been industrialized and partially replaced traditional LiCoO2 as cathode material for commercial lithium-ion battery. Among various synthetic methods for Li-Ni-Co-Mn-O,co-precipitation becomes an attractive choice because of its low cost and stability. In this paper,we qualitatively analyzed the particulate and thermodynamic processes of co-precipitation method. Then influences of process parameters (aging time,temperature,pH value,etc) on the structure and performance of product were discussed in detail. The ranges of certain process parameters were confirmed according to statistics and the analyses conducted before. The concept of effective feeding rate was put forward,with which a series of variables were derived for a complete description of feeding process. Further researches on the synthesis of primary particles with preferred orientation and the investigation of appropriate fluid environment for co-precipitation should be conducted in the future.