媒体撹拌ミルを用いたチタン酸リチウム水和物の機械的液相合成

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Published in粉体工学会誌 Vol. 59; no. 7; pp. 324 - 330
Main Authors 加納, 純也, 近藤, 光, 内藤, 牧男, 石井, 利博, 小澤, 隆弘
Format Journal Article
LanguageJapanese
Published 一般社団法人 粉体工学会 10.07.2022
Subjects
Bead mill
Lithium titanate hydrate
Mechanical synthesis
Thin plate particle
Wet milling
Online AccessGet full text
ISSN0386-6157
1883-7239
DOI10.4164/sptj.59.324

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Author 石井, 利博
近藤, 光
加納, 純也
小澤, 隆弘
内藤, 牧男
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  organization: 大阪大学 接合科学研究所
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  fullname: 内藤, 牧男
  organization: 大阪大学 接合科学研究所
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  fullname: 石井, 利博
  organization: アシザワ・ファインテック株式会社
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  fullname: 小澤, 隆弘
  organization: 大阪大学 接合科学研究所
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References [8] T. Kozawa, C. Zhang, T. Uchikoshi, K. Fukuyama, A. Kondo, M. Naito, Solution-based approach for the continuous fabrication of thin lithium-ion battery electrodes by wet mechanochemical synthesis and electrophoretic deposition. Adv. Eng. Mater. (2021) 2100524.
[7] T. Kozawa, K. Fukuyama, K. Kushimoto, S. Ishihara, J. Kano, A. Kondo, M. Naito, Effect of ball collision direction on a wet mechanochemical reaction. Sci. Rep. 11 (2021) 210.
[1] Q. Zhang, F. Saito, Mechanochemical synthesis of LaMnO3 from La2O3 and Mn2O3 powders. J. Alloys Comp. 297 (2000) 99–103.
[13] T. Yokoyama, T. Kubota, G. Jimbo, The limit of grinding of alumina powder in water by a planetary ball mill, J. Soc. Powder Technol., Japan 29 (1992) 102–109.
[5] K. Kanai, Y. Fukui, T. Kozawa, A. Kondo, M. Naito, Effect of BaF2 powder addition on the synthesis of YAG phosphor by mechanical method. Adv. Powder Technol. 28 (2017) 50–54.
[2] K. Sato, J. Chaichanawong, H. Abe, M. Naito, Mechano­chemical synthesis of LaMnO3+δ fine powder assisted with water vapor. Mater. Lett. 60 (2006) 1399–1402.
[3] J. Yoshida, S. Nakanishi, H. Iba, A. Kondo, H. Abe, M. Naito, One-step mechanical synthesis of the nanocomposite granule of LiMnPO4 nanoparticles and carbon. Adv. Powder Technol. 24 (2013) 829–832.
[4] A. Kondo, E. Nakamura, T. Kozawa, H. Abe, M. Naito, J. Yoshida, S. Nakanishi, H. Iba. One-pot mechanical synthesis of the nanocomposite granule of LiCoO2 nanoparticles. Adv. Powder Technol. 25 (2014) 1280–1284.
[9] Y. Sha, B. Zhao, R. Ran, R. Cai, Z. Chao, Synthesis of well-crystallized Li4Ti5O12 nanoplates for lithium-ion batteries with outstanding rate capability and recycling stability. J. Mater. Chem. A 1 (2013) 13233–13243.
[11] T. Ishii, K. Hashimoto, The effect of grinding conditions on particle size of the ground particle obtained by using a beads mill, J. Jpn. Soc. Colour Mater. 84 (2011) 163–168.
[6] S. Suzuki, T. Kozawa, T. Murakami, M. Naito, Mechanochemical-hydrothermal synthesis of layered lithium titanate hydrate nanotubes at room temperature and their conversion to Li4Ti5O12. Mater. Res. Bull. 90 (2017) 218–223.
[10] L. Xiao, G. Chen, J. Sun, D. Chen, H. Xu, Y. Zheng, Facile synthesis of Li4Ti5O12 nanosheets stacked by ultrathin nanoflakes for high performance lithium ion batteries, J. Mater. Chem. A 1 (2013) 14618–14626.
[12] T. Ishii, K. Hashimoto, Evaluation of grinding characteristics of calcium carbonate by horizontal bead mill, J. Jpn. Soc. Colour Mater. 85 (2012) 53–58.
[15] K. Kushimoto, S. Ishihara, J. Kano, Analysis for behavior of particles to be ground between grinding balls in wet ball milling, J. Jpn. Soc. Powder Powder Metallurgy 65 (2018) 664–672.
[14] S. E. Ziemniak, M. E. Jones, K. E. S. Combs, Solubility behavior of titanium(IV) oxide in alkaline media at elevated temperatures, J. Solution Chem. 22 (1993) 601–622.
References_xml – reference: [10] L. Xiao, G. Chen, J. Sun, D. Chen, H. Xu, Y. Zheng, Facile synthesis of Li4Ti5O12 nanosheets stacked by ultrathin nanoflakes for high performance lithium ion batteries, J. Mater. Chem. A 1 (2013) 14618–14626.
– reference: [8] T. Kozawa, C. Zhang, T. Uchikoshi, K. Fukuyama, A. Kondo, M. Naito, Solution-based approach for the continuous fabrication of thin lithium-ion battery electrodes by wet mechanochemical synthesis and electrophoretic deposition. Adv. Eng. Mater. (2021) 2100524.
– reference: [3] J. Yoshida, S. Nakanishi, H. Iba, A. Kondo, H. Abe, M. Naito, One-step mechanical synthesis of the nanocomposite granule of LiMnPO4 nanoparticles and carbon. Adv. Powder Technol. 24 (2013) 829–832.
– reference: [6] S. Suzuki, T. Kozawa, T. Murakami, M. Naito, Mechanochemical-hydrothermal synthesis of layered lithium titanate hydrate nanotubes at room temperature and their conversion to Li4Ti5O12. Mater. Res. Bull. 90 (2017) 218–223.
– reference: [15] K. Kushimoto, S. Ishihara, J. Kano, Analysis for behavior of particles to be ground between grinding balls in wet ball milling, J. Jpn. Soc. Powder Powder Metallurgy 65 (2018) 664–672.
– reference: [12] T. Ishii, K. Hashimoto, Evaluation of grinding characteristics of calcium carbonate by horizontal bead mill, J. Jpn. Soc. Colour Mater. 85 (2012) 53–58.
– reference: [13] T. Yokoyama, T. Kubota, G. Jimbo, The limit of grinding of alumina powder in water by a planetary ball mill, J. Soc. Powder Technol., Japan 29 (1992) 102–109.
– reference: [9] Y. Sha, B. Zhao, R. Ran, R. Cai, Z. Chao, Synthesis of well-crystallized Li4Ti5O12 nanoplates for lithium-ion batteries with outstanding rate capability and recycling stability. J. Mater. Chem. A 1 (2013) 13233–13243.
– reference: [7] T. Kozawa, K. Fukuyama, K. Kushimoto, S. Ishihara, J. Kano, A. Kondo, M. Naito, Effect of ball collision direction on a wet mechanochemical reaction. Sci. Rep. 11 (2021) 210.
– reference: [1] Q. Zhang, F. Saito, Mechanochemical synthesis of LaMnO3 from La2O3 and Mn2O3 powders. J. Alloys Comp. 297 (2000) 99–103.
– reference: [5] K. Kanai, Y. Fukui, T. Kozawa, A. Kondo, M. Naito, Effect of BaF2 powder addition on the synthesis of YAG phosphor by mechanical method. Adv. Powder Technol. 28 (2017) 50–54.
– reference: [2] K. Sato, J. Chaichanawong, H. Abe, M. Naito, Mechano­chemical synthesis of LaMnO3+δ fine powder assisted with water vapor. Mater. Lett. 60 (2006) 1399–1402.
– reference: [4] A. Kondo, E. Nakamura, T. Kozawa, H. Abe, M. Naito, J. Yoshida, S. Nakanishi, H. Iba. One-pot mechanical synthesis of the nanocomposite granule of LiCoO2 nanoparticles. Adv. Powder Technol. 25 (2014) 1280–1284.
– reference: [14] S. E. Ziemniak, M. E. Jones, K. E. S. Combs, Solubility behavior of titanium(IV) oxide in alkaline media at elevated temperatures, J. Solution Chem. 22 (1993) 601–622.
– reference: [11] T. Ishii, K. Hashimoto, The effect of grinding conditions on particle size of the ground particle obtained by using a beads mill, J. Jpn. Soc. Colour Mater. 84 (2011) 163–168.
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SubjectTerms Bead mill
Lithium titanate hydrate
Mechanical synthesis
Thin plate particle
Wet milling
Title 媒体撹拌ミルを用いたチタン酸リチウム水和物の機械的液相合成
URI https://www.jstage.jst.go.jp/article/sptj/59/7/59_59.324/_article/-char/ja
Volume 59
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