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

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

机译：用于可充电Mg离子电池的超大立方Mg-MN尖晶石材料的快速室温合成

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Reducing the particle size of cathode materials is effective to improve the rate capability of Mg-ion batteries. In this study, ultrasmall cubic Mg-Mn spinel oxide nanoparticles approximately 5 nm in size were successfully synthesized via an alcohol reduction process within 30 min at room temperature. Though the particles aggregated to form large secondary particles, the aggregation could be suppressed by covering the particles with graphene. The composite exhibited a specific capacity of 230 mA h g(-1), and could be cycled more than 100 times without any large capacity loss even at a moderate current density with the Mg(ClO4)(2)/CH3CN electrolyte.

机译：降低阴极材料的粒径是有效改善Mg离子电池的速率能力。在该研究中，通过在室温下在30分钟内通过醇还原过程成功地合成大约5nm的超大规模立方Mg-Mn尖晶石氧化物纳米颗粒。虽然聚集颗粒以形成大的次级颗粒，但是通过用石墨烯覆盖颗粒，可以抑制聚集。复合材料表现出230mA H G（-1）的特定容量，并且即使在具有Mg（CLO4）（2）/ CH 3CN电解质的中等电流密度，也可以循环大于100倍而没有任何大容量损失。

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《RSC Advances 》 |2019年第62期| 共6页
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1. Rapid room-temperature synthesis of ultrasmall cubic Mg-Mn spinel cathode materials for rechargeable Mg-ion batteries [J] . RSC Advances . 2019 ,第62期

机译：用于可充电Mg离子电池的超大立方Mg-MN尖晶石材料的快速室温合成
2. Cerotic acid assisted sol-gel synthesis and electrochemical performance of double doped spinels (LiCrxMgyMn2-x-yO4) as cathode materials for lithium rechargeable batteries [J] . Thirunakaran R., Lew Gil Hwan, Yoon Won-Sub Powder Technology: An International Journal on the Science and Technology of Wet and Dry Particulate Systems . 2016 ,第Null期

机译：铈酸辅助溶胶-凝胶法合成双掺杂尖晶石（LiCrxMgyMn2-x-yO4）作为锂二次电池的正极材料
3. Effects of multi-dopants (Zn and Ho) in stabilizing spinel structure for cathode materials in lithium rechargeable batteries-Novel chelated sol-gel synthesis [J] . R.Thirunakaran, Taewhan Kim, Won-Sub Yoon 颗粒学报（英文版） . 2016 ,第001期

机译：多掺杂剂（Zn和Ho）在稳定锂二次电池正极材料尖晶石结构中的作用-新颖螯合溶胶-凝胶合成
4. Investigation of Solid Solution Ratio and Study for Crystal and Electronic Structure and Battery Properties of Spinel-Type αMgCo_(1.5)Mn_(0.5)O_4-(1-α)Mg(Mg_(0.33)V_(1.57)Ni_(0.1))O_4 for Mg Rechargeable Battery Cathode Materials [C] . Ren Okada, Naoya Ishida, Naoto Kitamura, Pacific Rim Meeting on Electrochemical and Solid-State Science . 2020

机译：晶体型αmgco_（1.5）Mn_（0.5）μ_（1-α）mg（Mg_（0.33）v_（1.57）ni_（0.1）ni_（0.1））O_4的晶型αmgco_（1.5）Mn_（0.5）o_（0.5）的电池性能及电池性能研究及研究。对于MG可充电电池阴极材料
5. Synthesis and characterization of cathode materials for high energy density and high rate capability lithium-ion rechargeable batteries . [D] . Katiyar, Rajesh K. 2010

机译：高能量密度高倍率锂离子充电电池正极材料的合成与表征。
6. Copper sulfide nanoparticles as high-performance cathode materials for Mg-ion batteries [O] . Kostiantyn V. Kravchyk, Roland Widmer, Rolf Erni, -1

机译：硫化铜纳米颗粒作为Mg离子电池的高性能正极材料
7. Rapid room-temperature synthesis of ultrasmall cubic Mg–Mn spinel cathode materials for rechargeable Mg-ion batteries [O] . Hiroaki Kobayashi, Kazuya Yamaguchi, Itaru Honma 2019

机译：用于可充电Mg离子电池的超大立方Mg-MN尖晶石材料的快速室温合成

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

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