最后提出可充镁电池电解质的发展趋势。
Finally, the development trend of the electrolyte of rechargeable magnesium batteries is discussed.
本发明涉及一种镁电池(10),其包含负极(1)、正极(2)和电解质(3)。
A magnesium battery (10) comprises a negative electrode (1), a positive electrode (2), and an electrolyte (3).
但镁原子每次可以携带两个电子,这样的话在储存相同能量时可以使电池的大小和重量减半。
But a magnesium atom would carry two electrons, so a battery storing a given amount of energy could be nearly halved in size and weight.
当你充电电池,镁离子减少,锑离子被氧化,并返回到其初始状态。
When you charge the battery, magnesium ions are reduced and the antimony ions are oxidized, and return to their initial state.
该复合物研究结果为镁二次电池正极材料结构设计的开发提供了新的思路。
The results of this study provided a new thought for structure design and development of a potential cathode material for rechargeable magnesium batteries.
镁二次电池是一种有良好前景的化学电源。
Rechargeable magnesium battery is a promising electrochemical power source.
在电池内电解氯化镁,我们能在其中一个电极上得到镁。
Electrolysis of magnesium chloride in a cell where the one electrode we would make magnesium.
镁燃料电池具有高比能量、安全和成本低等特点,在军事和民用方面有良好的应用前景。
Magnesium fuel cell has a favorable application potential in military and civilian fields because of its high energy density, safety and low cost.
论述了纳米镁镍合金、碳纳米管和纳米铁钛合金在电池工业中的应用和开发。
Application and development of Mg 2ni nanoalloy, carbon nanotube and FeTi nanoalloy used in battery industry were outlined.
本文使用铝合金作阳极、空气电极作阴极、氯化钠溶液作电解液,组装了开放式结构铝空气电池,同时使用镁阳极组装了封闭式结构镁空气电池。
The aluminum-air battery with open configuration was successfully assembled using Al alloy as anode, air electrode as cathode and NaCl solution as electrolyte.
镁海水电池工作时只消耗镁合金阳极,镁合金阳极消耗完毕后还可以换一块新的仍继续放电;
The cell only consumes Mg alloy anode when working and changes a new one after the Mg alloy anode is finished.
镁海水电池工作时只消耗镁合金阳极,镁合金阳极消耗完毕后还可以换一块新的仍继续放电;
The cell only consumes Mg alloy anode when working and changes a new one after the Mg alloy anode is finished.
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