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Literature DB >> 28294244

Magnesium-ion battery-relevant electrochemistry of MgMn₂O₄: crystallite size effects and the notable role of electrolyte water content.

Jiefu Yin¹, Alexander B Brady¹, Esther S Takeuchi², Amy C Marschilok³, Kenneth J Takeuchi³.

Abstract

MgMn2O4 nanoparticles with crystallite sizes of 11 (MMO-1) and 31 nm (MMO-2) were synthesized and their magnesium-ion battery-relevant electrochemistry was investigated. MMO-1 delivered an initial capacity of 220 mA h g-1 (678 mW h g-1). Electrolyte water content had a profound effect on cycle retention.

Entities: Chemical

Year: 2017 PMID： 28294244 DOI： 10.1039/c7cc00265c

Source DB: PubMed Journal: Chem Commun (Camb) ISSN： 1359-7345 Impact factor: 6.222

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Cited

5 in total

1. Rapid room-temperature synthesis of ultrasmall cubic Mg-Mn spinel cathode materials for rechargeable Mg-ion batteries.

Authors: Hiroaki Kobayashi; Kazuya Yamaguchi; Itaru Honma
Journal: RSC Adv Date: 2019-11-08 Impact factor: 4.036

2. Phenylphosphonate surface functionalisation of MgMn₂O₄ with 3D open-channel nanostructures for composite slurry-coated cathodes of rechargeable magnesium batteries operated at room temperature.

Authors: Koichi Kajihara; Daisuke Takahashi; Hiroaki Kobayashi; Toshihiko Mandai; Hiroaki Imai; Kiyoshi Kanamura
Journal: RSC Adv Date: 2021-05-26 Impact factor: 4.036

Magnesium-ion battery-relevant electrochemistry of MgMn₂O₄: crystallite size effects and the notable role of electrolyte water content.

1. Rapid room-temperature synthesis of ultrasmall cubic Mg-Mn spinel cathode materials for rechargeable Mg-ion batteries.

2. Phenylphosphonate surface functionalisation of MgMn₂O₄ with 3D open-channel nanostructures for composite slurry-coated cathodes of rechargeable magnesium batteries operated at room temperature.

3. High magnesium mobility in ternary spinel chalcogenides.

4. Rapid synthesis of MgCo₂O₄ and Mg_2/3Ni_4/3O₂ nanocrystals in supercritical fluid for Mg-ion batteries.

5. Ultrathin δ-MnO₂ nanoflakes with Na⁺ intercalation as a high-capacity cathode for aqueous zinc-ion batteries.

Magnesium-ion battery-relevant electrochemistry of MgMn2O4: crystallite size effects and the notable role of electrolyte water content.

1. Rapid room-temperature synthesis of ultrasmall cubic Mg-Mn spinel cathode materials for rechargeable Mg-ion batteries.

2. Phenylphosphonate surface functionalisation of MgMn2O4 with 3D open-channel nanostructures for composite slurry-coated cathodes of rechargeable magnesium batteries operated at room temperature.

3. High magnesium mobility in ternary spinel chalcogenides.

4. Rapid synthesis of MgCo2O4 and Mg2/3Ni4/3O2 nanocrystals in supercritical fluid for Mg-ion batteries.

5. Ultrathin δ-MnO2 nanoflakes with Na+ intercalation as a high-capacity cathode for aqueous zinc-ion batteries.

Magnesium-ion battery-relevant electrochemistry of MgMn₂O₄: crystallite size effects and the notable role of electrolyte water content.

2. Phenylphosphonate surface functionalisation of MgMn₂O₄ with 3D open-channel nanostructures for composite slurry-coated cathodes of rechargeable magnesium batteries operated at room temperature.

4. Rapid synthesis of MgCo₂O₄ and Mg_2/3Ni_4/3O₂ nanocrystals in supercritical fluid for Mg-ion batteries.

5. Ultrathin δ-MnO₂ nanoflakes with Na⁺ intercalation as a high-capacity cathode for aqueous zinc-ion batteries.