Slug Flow Coprecipitation Synthesis of Uniformly-Sized Oxalate Precursor Microparticles for Improved Reproducibility and Tap Density of Li(Ni(0.8)Co(0.1)Mn(0.1))O(2) Cathode Materials

[Image: see text] The microparticle quality and reproducibility of Li(Ni(0.8)Co(0.1)Mn(0.1))O(2) (NCM811) cathode materials are important for Li-ion battery performance but can be challenging to control directly from synthesis. Here, a scalable reproducible synthesis process is designed based on slu...

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Autores principales: Mou, Mingyao, Patel, Arjun, Mallick, Sourav, Jayanthi, K., Sun, Xiao-Guang, Paranthaman, Mariappan Parans, Kothe, Sophie, Baral, Ena, Saleh, Selma, Mugumya, Jethrine H., Rasche, Michael L., Gupta, Ram B., Lopez, Herman, Jiang, Mo
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2023
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10064804/
https://www.ncbi.nlm.nih.gov/pubmed/37013178
http://dx.doi.org/10.1021/acsaem.2c03563
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author Mou, Mingyao
Patel, Arjun
Mallick, Sourav
Jayanthi, K.
Sun, Xiao-Guang
Paranthaman, Mariappan Parans
Kothe, Sophie
Baral, Ena
Saleh, Selma
Mugumya, Jethrine H.
Rasche, Michael L.
Gupta, Ram B.
Lopez, Herman
Jiang, Mo
author_facet Mou, Mingyao
Patel, Arjun
Mallick, Sourav
Jayanthi, K.
Sun, Xiao-Guang
Paranthaman, Mariappan Parans
Kothe, Sophie
Baral, Ena
Saleh, Selma
Mugumya, Jethrine H.
Rasche, Michael L.
Gupta, Ram B.
Lopez, Herman
Jiang, Mo
author_sort Mou, Mingyao
collection PubMed
description [Image: see text] The microparticle quality and reproducibility of Li(Ni(0.8)Co(0.1)Mn(0.1))O(2) (NCM811) cathode materials are important for Li-ion battery performance but can be challenging to control directly from synthesis. Here, a scalable reproducible synthesis process is designed based on slug flow to rapidly generate uniform micron-size spherical-shape NCM oxalate precursor microparticles at 25–34 °C. The whole process takes only 10 min, from solution mixing to precursor microparticle generation, without needing aging that typically takes hours. These oxalate precursors are convertible to spherical-shape NCM811 oxide microparticles, through a preliminary design of low heating rates (e.g., 0.1 and 0.8 °C/min) for calcination and lithiation. The outcome oxide cathode particles also demonstrate improved tap density (e.g., 2.4 g mL(–1) for NCM811) and good specific capacity (202 mAh g(–1) at 0.1 C) in coin cells and reasonably good cycling performance with LiF coating.
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spelling pubmed-100648042023-04-01 Slug Flow Coprecipitation Synthesis of Uniformly-Sized Oxalate Precursor Microparticles for Improved Reproducibility and Tap Density of Li(Ni(0.8)Co(0.1)Mn(0.1))O(2) Cathode Materials Mou, Mingyao Patel, Arjun Mallick, Sourav Jayanthi, K. Sun, Xiao-Guang Paranthaman, Mariappan Parans Kothe, Sophie Baral, Ena Saleh, Selma Mugumya, Jethrine H. Rasche, Michael L. Gupta, Ram B. Lopez, Herman Jiang, Mo ACS Appl Energy Mater [Image: see text] The microparticle quality and reproducibility of Li(Ni(0.8)Co(0.1)Mn(0.1))O(2) (NCM811) cathode materials are important for Li-ion battery performance but can be challenging to control directly from synthesis. Here, a scalable reproducible synthesis process is designed based on slug flow to rapidly generate uniform micron-size spherical-shape NCM oxalate precursor microparticles at 25–34 °C. The whole process takes only 10 min, from solution mixing to precursor microparticle generation, without needing aging that typically takes hours. These oxalate precursors are convertible to spherical-shape NCM811 oxide microparticles, through a preliminary design of low heating rates (e.g., 0.1 and 0.8 °C/min) for calcination and lithiation. The outcome oxide cathode particles also demonstrate improved tap density (e.g., 2.4 g mL(–1) for NCM811) and good specific capacity (202 mAh g(–1) at 0.1 C) in coin cells and reasonably good cycling performance with LiF coating. American Chemical Society 2023-03-06 /pmc/articles/PMC10064804/ /pubmed/37013178 http://dx.doi.org/10.1021/acsaem.2c03563 Text en © 2023 The Authors. Published by American Chemical Society https://creativecommons.org/licenses/by/4.0/Permits the broadest form of re-use including for commercial purposes, provided that author attribution and integrity are maintained (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Mou, Mingyao
Patel, Arjun
Mallick, Sourav
Jayanthi, K.
Sun, Xiao-Guang
Paranthaman, Mariappan Parans
Kothe, Sophie
Baral, Ena
Saleh, Selma
Mugumya, Jethrine H.
Rasche, Michael L.
Gupta, Ram B.
Lopez, Herman
Jiang, Mo
Slug Flow Coprecipitation Synthesis of Uniformly-Sized Oxalate Precursor Microparticles for Improved Reproducibility and Tap Density of Li(Ni(0.8)Co(0.1)Mn(0.1))O(2) Cathode Materials
title Slug Flow Coprecipitation Synthesis of Uniformly-Sized Oxalate Precursor Microparticles for Improved Reproducibility and Tap Density of Li(Ni(0.8)Co(0.1)Mn(0.1))O(2) Cathode Materials
title_full Slug Flow Coprecipitation Synthesis of Uniformly-Sized Oxalate Precursor Microparticles for Improved Reproducibility and Tap Density of Li(Ni(0.8)Co(0.1)Mn(0.1))O(2) Cathode Materials
title_fullStr Slug Flow Coprecipitation Synthesis of Uniformly-Sized Oxalate Precursor Microparticles for Improved Reproducibility and Tap Density of Li(Ni(0.8)Co(0.1)Mn(0.1))O(2) Cathode Materials
title_full_unstemmed Slug Flow Coprecipitation Synthesis of Uniformly-Sized Oxalate Precursor Microparticles for Improved Reproducibility and Tap Density of Li(Ni(0.8)Co(0.1)Mn(0.1))O(2) Cathode Materials
title_short Slug Flow Coprecipitation Synthesis of Uniformly-Sized Oxalate Precursor Microparticles for Improved Reproducibility and Tap Density of Li(Ni(0.8)Co(0.1)Mn(0.1))O(2) Cathode Materials
title_sort slug flow coprecipitation synthesis of uniformly-sized oxalate precursor microparticles for improved reproducibility and tap density of li(ni(0.8)co(0.1)mn(0.1))o(2) cathode materials
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10064804/
https://www.ncbi.nlm.nih.gov/pubmed/37013178
http://dx.doi.org/10.1021/acsaem.2c03563
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