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Literature DB >> 29171938

Complementary Strategies Toward the Aqueous Processing of High-Voltage LiNi_0.5 Mn_1.5 O₄ Lithium-Ion Cathodes.

Matthias Kuenzel^1,2, Dominic Bresser^1,2, Thomas Diemant³, Diogo Vieira Carvalho^1,2, Guk-Tae Kim^1,2, R Jürgen Behm^2,3, Stefano Passerini^1,2.

Abstract

Increasing the environmental benignity of lithium-ion batteries is one of the greatest challenges for their large-scale deployment. Toward this end, we present herein a strategy to enable the aqueous processing of high-voltage LiNi0.5 Mn1.5 O4 (LNMO) cathodes, which are considered highly, if not the most, promising for the realization of cobalt-free next-generation lithium-ion cathodes. Combining the addition of phosphoric acid with the cross-linking of sodium carboxymethyl cellulose by means of citric acid, aqueously processed electrodes with excellent performance are produced. The combined approach offers synergistic benefits, resulting in stable cycling performance and excellent coulombic efficiency (98.96 %) in lithium-metal cells. Remarkably, this approach can be easily incorporated into standard electrode preparation processes with no additional processing step.

Entities: Chemical

Keywords: aqueous electrode processing; cross-linked binder; high-voltage cathode; li-ion batteries; phosphoric acid

Mesh：

Substances：

Year: 2018 PMID： 29171938 DOI： 10.1002/cssc.201702021

Source DB: PubMed Journal: ChemSusChem ISSN： 1864-5631 Impact factor: 8.928

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Cited

4 in total

1. Aqueous Manufacturing of Defect-Free Thick Multi-Layer NMC811 Electrodes.

Authors: Lukas Neidhart; Katja Fröhlich; Nicolas Eshraghi; Damian Cupid; Franz Winter; Marcus Jahn
Journal: Nanomaterials (Basel) Date: 2022-01-19 Impact factor: 5.076

2. Surface double coating of a LiNi _a Co _b Al_1-a-b O₂ (a > 0.85) cathode with TiO _x and Li₂CO₃ to apply a water-based hybrid polymer binder to Li-ion batteries.

Authors: Tatsuya Watanabe; Kouji Hirai; Fuma Ando; Shoudai Kurosumi; Shinsaku Ugawa; Hojin Lee; Yuta Irii; Fumihiko Maki; Takao Gunji; Jianfei Wu; Takao Ohsaka; Futoshi Matsumoto
Journal: RSC Adv Date: 2020-04-03 Impact factor: 3.361

3. Surface Modification of LiNi_0.8 Co_0.15 Al_0.05 O₂ Particles via Li₃ PO₄ Coating to Enable Aqueous Electrode Processing.

Authors: Michael Hofmann; Felix Nagler; Martina Kapuschinski; Uwe Guntow; Guinevere A Giffin
Journal: ChemSusChem Date: 2020-10-07 Impact factor: 8.928

Review 4. Application of Guar Gum and its Derivatives as Green Binder/Separator for Advanced Lithium-Ion Batteries.

Authors: Simran Kaur; Soumava Santra
Journal: ChemistryOpen Date: 2022-02 Impact factor: 2.630

4 in total

Complementary Strategies Toward the Aqueous Processing of High-Voltage LiNi0.5 Mn1.5 O4 Lithium-Ion Cathodes.

1. Aqueous Manufacturing of Defect-Free Thick Multi-Layer NMC811 Electrodes.

2. Surface double coating of a LiNi a Co b Al1-a-b O2 (a > 0.85) cathode with TiO x and Li2CO3 to apply a water-based hybrid polymer binder to Li-ion batteries.

3. Surface Modification of LiNi0.8 Co0.15 Al0.05 O2 Particles via Li3 PO4 Coating to Enable Aqueous Electrode Processing.

Review 4. Application of Guar Gum and its Derivatives as Green Binder/Separator for Advanced Lithium-Ion Batteries.

Complementary Strategies Toward the Aqueous Processing of High-Voltage LiNi_0.5 Mn_1.5 O₄ Lithium-Ion Cathodes.

2. Surface double coating of a LiNi _a Co _b Al_1-a-b O₂ (a > 0.85) cathode with TiO _x and Li₂CO₃ to apply a water-based hybrid polymer binder to Li-ion batteries.

3. Surface Modification of LiNi_0.8 Co_0.15 Al_0.05 O₂ Particles via Li₃ PO₄ Coating to Enable Aqueous Electrode Processing.