테일러 반응기를 이용한 최적의 리튬이차전지용 양극활물질 전구체 합성 조건 선정을 위한 연구
Li(Ni 1-x-y Co x Mn y )O 2 (NCM) materials, which are the cathode active material for lithium ion batteries, have been developed and widely used as an alternative to lithium cobalt oxide, because of the high cost of cobalt. To synthesize high quality NCM materials, it is important to control the pro...
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| Published in | 대한금속·재료학회지, 57(6) Vol. 57; no. 6; pp. 360 - 365 |
|---|---|
| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | Korean |
| Published |
대한금속재료학회
05.06.2019
대한금속·재료학회 |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1738-8228 2288-8241 |
| DOI | 10.3365/KJMM.2019.57.6.360 |
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| Abstract | Li(Ni 1-x-y Co x Mn y )O 2 (NCM) materials, which are the cathode active material for lithium ion batteries, have been developed and widely used as an alternative to lithium cobalt oxide, because of the high cost of cobalt. To synthesize high quality NCM materials, it is important to control the process manufacturing of the NCM precursor. We synthesized a precursor for LiNi 0.6 Co 0.2 Mn 0.2 O 2 with high capacity through the co-precipitation method using the Taylor reactor. First, it was confirmed that the optimum concentration of ammonia water, which is complexing agent, was 2 M, for uniform particle contribution. The average particle size distributions of the synthesized NCM precursors, and the analysis of the crystal phase and the composition of the NCM precursor, were investigated using a Taylor reactor which is capable of a continuous production process. A reference sample fabricated at a stirring rate of 1,000 rpm showed a composition similar to the target NCM material. When the reaction time was more than 24 hours, the concentration in the Taylor reactor reached a constant steady state, and it was confirmed that continuous production is possible after a reaction time of 24 hours. The use of Taylor reactors can be an effective process because the NCM precursor can be continuously produced, and it is possible to reduce agitation time.
(Received February 18, 2019; Accepted April 24, 2019) |
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| AbstractList | Li(Ni 1-x-y Co x Mn y )O 2 (NCM) materials, which are the cathode active material for lithium ion batteries, have been developed and widely used as an alternative to lithium cobalt oxide, because of the high cost of cobalt. To synthesize high quality NCM materials, it is important to control the process manufacturing of the NCM precursor. We synthesized a precursor for LiNi 0.6 Co 0.2 Mn 0.2 O 2 with high capacity through the co-precipitation method using the Taylor reactor. First, it was confirmed that the optimum concentration of ammonia water, which is complexing agent, was 2 M, for uniform particle contribution. The average particle size distributions of the synthesized NCM precursors, and the analysis of the crystal phase and the composition of the NCM precursor, were investigated using a Taylor reactor which is capable of a continuous production process. A reference sample fabricated at a stirring rate of 1,000 rpm showed a composition similar to the target NCM material. When the reaction time was more than 24 hours, the concentration in the Taylor reactor reached a constant steady state, and it was confirmed that continuous production is possible after a reaction time of 24 hours. The use of Taylor reactors can be an effective process because the NCM precursor can be continuously produced, and it is possible to reduce agitation time.
(Received February 18, 2019; Accepted April 24, 2019) Li(Ni1-x-yCoxMny)O2 (NCM) materials, which are the cathode active material for lithium ion batteries, have been developed and widely used as an alternative to lithium cobalt oxide, because of the high cost of cobalt. To synthesize high quality NCM materials, it is important to control the process manufacturing of the NCM precursor. We synthesized a precursor for LiNi0.6Co0.2Mn0.2O2 with high capacity through the co-precipitation method using the Taylor reactor. First, it was confirmed that the optimum concentration of ammonia water, which is complexing agent, was 2 M, for uniform particle contribution. The average particle size distributions of the synthesized NCM precursors, and the analysis of the crystal phase and the composition of the NCM precursor, were investigated using a Taylor reactor which is capable of a continuous production process. A reference sample fabricated at a stirring rate of 1,000 rpm showed a composition similar to the target NCM material. When the reaction time was more than 24 hours, the concentration in the Taylor reactor reached a constant steady state, and it was confirmed that continuous production is possible after a reaction time of 24 hours. The use of Taylor reactors can be an effective process because the NCM precursor can be continuously produced, and it is possible to reduce agitation time. KCI Citation Count: 12 |
| Author | Hangchul Jung Deokhyun Han 김민준 정항철 Minjun Kim 박일정 김대원 Iljeong Park Daeweon Kim 한덕현 |
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| PublicationTitle | 대한금속·재료학회지, 57(6) |
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| Snippet | Li(Ni 1-x-y Co x Mn y )O 2 (NCM) materials, which are the cathode active material for lithium ion batteries, have been developed and widely used as an... Li(Ni1-x-yCoxMny)O2 (NCM) materials, which are the cathode active material for lithium ion batteries, have been developed and widely used as an alternative to... |
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| StartPage | 360 |
| SubjectTerms | cathode active material lithium ion battery NCM taylor reactor 재료공학 |
| Title | 테일러 반응기를 이용한 최적의 리튬이차전지용 양극활물질 전구체 합성 조건 선정을 위한 연구 |
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