新型电解质及添加剂对镁空气电池界面调控研究进展
TM911.41; 镁空气电池因其高能量密度和环境友好性而备受关注,但镁阳极/电解质界面存在不可逆的电解-沉积、阳极自腐蚀和氢气析出等问题,严重影响电池的稳定性、安全性、寿命和功率密度.电解质调控是改善阳极/电解质界面的性质进而提高镁空气电池的综合性能的重要手段,综述了最近用于镁空气电池的电解质添加剂及新型电解质的研究和开发进展.电解质添加剂涉及无机、有机和复合型三大类,它们可以抑制阳极腐蚀、增强离子电导率、提高阳极效率等;新型电解质主要包括新型水系电解质和凝胶电解质,前者可以削弱析氢等有害副反应,后者可以规避漏液且具有高离子导电率和较低漏电流等优点.未来开发更多新型电解质添加剂及新型电解质是...
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| Published in | 功能材料 Vol. 55; no. 3; pp. 3064 - 3072 |
|---|---|
| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | Chinese |
| Published |
重庆科技大学 冶金与材料工程学院,重庆 401331
30.03.2024
纳微复合材料与器件重庆市重点实验室,重庆 401331 |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1001-9731 |
| DOI | 10.3969/j.issn.1001-9731.2024.03.008 |
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| Abstract | TM911.41; 镁空气电池因其高能量密度和环境友好性而备受关注,但镁阳极/电解质界面存在不可逆的电解-沉积、阳极自腐蚀和氢气析出等问题,严重影响电池的稳定性、安全性、寿命和功率密度.电解质调控是改善阳极/电解质界面的性质进而提高镁空气电池的综合性能的重要手段,综述了最近用于镁空气电池的电解质添加剂及新型电解质的研究和开发进展.电解质添加剂涉及无机、有机和复合型三大类,它们可以抑制阳极腐蚀、增强离子电导率、提高阳极效率等;新型电解质主要包括新型水系电解质和凝胶电解质,前者可以削弱析氢等有害副反应,后者可以规避漏液且具有高离子导电率和较低漏电流等优点.未来开发更多新型电解质添加剂及新型电解质是提升镁空气电池性能和稳定性的有效途径. |
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| AbstractList | TM911.41; 镁空气电池因其高能量密度和环境友好性而备受关注,但镁阳极/电解质界面存在不可逆的电解-沉积、阳极自腐蚀和氢气析出等问题,严重影响电池的稳定性、安全性、寿命和功率密度.电解质调控是改善阳极/电解质界面的性质进而提高镁空气电池的综合性能的重要手段,综述了最近用于镁空气电池的电解质添加剂及新型电解质的研究和开发进展.电解质添加剂涉及无机、有机和复合型三大类,它们可以抑制阳极腐蚀、增强离子电导率、提高阳极效率等;新型电解质主要包括新型水系电解质和凝胶电解质,前者可以削弱析氢等有害副反应,后者可以规避漏液且具有高离子导电率和较低漏电流等优点.未来开发更多新型电解质添加剂及新型电解质是提升镁空气电池性能和稳定性的有效途径. |
| Abstract_FL | The magnesium-air battery has garnered significant attention due to its high energy density and envi-ronmental friendliness.However,the magnesium anode/electrolyte interface suffers from irreversible electroly-sis-deposition,anode self-corrosion,and hydrogen evolution issues,which severely impact the battery's stabili-ty,safety,lifespan,and power density.Electrolyte modulation is a crucial approach to enhancing the properties of the anode/electrolyte interface and consequently improving the overall performance of magnesium-air batter-ies.This article provides an overview of recent research and developments in electrolyte additives and novel elec-trolytes for magnesium-air batteries.Electrolyte additives can be categorized into three major classes:inorganic,organic,and composite.They have the potential to suppress anode corrosion,enhance ionic conductivity,and improve anode efficiency.Novel electrolytes primarily encompass new aqueous electrolytes and gel-based elec-trolytes.The former can mitigate detrimental side reactions,such as hydrogen evolution,while the latter can prevent electrolyte leakage and offer high ionic conductivity with low leakage current.The development of more novel electrolyte additives and innovative electrolytes holds promise for enhancing the performance and stability of magnesium-air batteries in the future. |
| Author | 韦沿江 谭伯川 仇帅帅 余大亮 曹献龙 兰伟 李雨洹 邓洪达 万涛 田维玮 |
| AuthorAffiliation | 重庆科技大学 冶金与材料工程学院,重庆 401331;纳微复合材料与器件重庆市重点实验室,重庆 401331 |
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| Author_FL | QIU Shuaishuai WAN Tao LI Yuhuan TAN Bochuan WEI Yanjiang TIAN Weiwei YU Daliang LAN Wei CAO Xianlong DENG Hongda |
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| Keywords | 腐蚀 界面调控 corrosion 镁空气电池 电解质添加剂 新型电解质 magnesium-air batteries hy-drogen evolution interface regulation novel electrolytes electrolyte additives 析氢 |
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| Publisher | 重庆科技大学 冶金与材料工程学院,重庆 401331 纳微复合材料与器件重庆市重点实验室,重庆 401331 |
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| Snippet | TM911.41; 镁空气电池因其高能量密度和环境友好性而备受关注,但镁阳极/电解质界面存在不可逆的电解-沉积、阳极自腐蚀和氢气析出等问题,严重影响电池的稳定性、安全性、寿命和... |
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| Title | 新型电解质及添加剂对镁空气电池界面调控研究进展 |
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