Study of improvement of power and stability of magnesium air battery - influence of cathode materials and structure on battery properties -

Keijirou ITAKURA; Takahiro TSUTSUI; Zhonghao HENG; Hirohisa HIRAKI; Shigeaki UCHIDA; Yasuo TAKAHASHI

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Study of improvement of power and stability of magnesium air battery - influence of cathode materials and structure on battery properties -

机译：镁空气电池动力和稳定性提高的研究-正极材料和结构对电池性能的影响-

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Power and energy dependences of magnesium air batteries on the materials and structures of carbon cathodes are investigated for the purpose of developing a high-power Mg-air battery. It is found that three-phase co-existing interface plays an important role to improve the power and energy properties. A new cathode structure having an enhanced cathode reaction was developed. The Mg-air battery with this new cathode generated 5 times more power and 2.5 times more energy, compared to that of conventional cathodes. Moreover, the cathode with a three-layered structure was fabricated for obtaining a better current density. The high-power battery cell showed 72W/kg of power density and 400Wh/kg of energy density, which revealed a potential ability for various application, such as mobile phone, electric vehicle, and high-power emergency power supply.

机译：为了开发大功率的镁空气电池，研究了镁空气电池对碳阴极材料和结构的功率和能量依赖性。发现三相共存接口在改善功率和能量特性方面起着重要作用。开发了具有增强的阴极反应的新的阴极结构。与传统的阴极相比，带有这种新阴极的Mg-air电池产生的功率大5倍，能量多2.5倍。此外，为了获得更好的电流密度，制造了具有三层结构的阴极。大功率电池单元的功率密度为72W / kg，能量密度为400Wh / kg，这揭示了其在手机，电动汽车和大功率应急电源等各种应用中的潜在能力。

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《Transactions of JWRI》 |2018年第2018期|19-19|共1页
作者
Keijirou ITAKURA; Takahiro TSUTSUI; Zhonghao HENG; Hirohisa HIRAKI; Shigeaki UCHIDA; Yasuo TAKAHASHI;
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Magnesium; Air battery; Carbon cathode; Oxygen reduction reaction; Fuel cell; Flooding; Interfacial chemical reaction;

机译：镁;空气电池;碳阴极;氧还原反应;燃料电池;洪水;界面化学反应;

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机译：镁电池的尖晶石型阴极材料的充电/放电过程中的合成，电化学性能和晶体和电子结构的变化，用于镁二次电池的镁二次电池（x = 0,0.3,0.6,1.0）
2. Dependence of property, cathode characteristics, thermodynamic stability, and average and local structures on heat-treatment condition for LiNi_(0.5)Mn_(0.5)O_2 as a cathode active material for Li-ion battery [J] . Naoto Kitamura, Takuya Hasegawa, Yoshiharu Uchimoto, Electrochimica Acta . 2011,第25期

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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
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6. Boosting Reversibility of Mn‐Based Tunnel‐Structured Cathode Materials for Sodium‐Ion Batteries by Magnesium Substitution [O] . Xun‐Lu Li, Jian Bao, Yi‐Fan Li, 2021

机译：通过镁代替促进Mn的隧道结构化阴极材料的可逆性
7. Study of Improvement of Power and Stability of Magnesium Air Battery - Influence of Cathode Materials and Structures on Battery Properties - [O] . Keijirou ITAKURA, Takahiro TSUTSUI, Zhonghao HENG, 2018

机译：镁空气电池电力和稳定性提高的研究 - 阴极材料和结构对电池性能的影响 -

Study of improvement of power and stability of magnesium air battery - influence of cathode materials and structure on battery properties -

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