它是个裸电子，是钠正离子。

It is a naked electron and is a sodium positive ion.

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当你给电池充电时，电池里的液体会发生离子运动。

When you charge the battery, ions will flow through the liquid.

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结果是我们得到了很大的离子阵列。

And that result is we get large arrays of ions.

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这些离子通过电场，将产生推力。

The ions that pass through the field generate thrust.

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这种结构便于锂离子自由活动。

This is to allow the lithium ions free passage.

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这里有两个版本的离子百分数。

And there are two different scales of ionic character.

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但并非所有的锂离子电池都是相同的。

But not all lithium-ion batteries are alike.

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这两种离子在电路中向相反方向流动。

These flow in opposite directions around the circuit.

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首先，他必须离子化更多的CO2。

First, he has to ionise more CO 2.

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它们熔化去形成离子液体。

They melt to form ionic liquids.

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这是氯离子，把它放这儿。

So, this is the chloride ion. It's over here.

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离子之间相隔40微米，漂浮在势阱表面。

The ions, 40 micrometers apart, float above the surface of the trap.

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这是离子化的严格定义。

That is the strict definition of ionization.

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因此，这是一个处理离子问题时的小技巧。

So, it's a little bit of a trick when you're dealing with ions.

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他想到一个办法，来计算每个离子化成分。

And, he came up with a relationship to calculate the percent ionic character.

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这就是单离子键的能量。

So this is the energy of a single ionic bond.

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一种情况是正负离子平衡问题，或比率问题。

One thing is the balance or ratio between positive and negative ions.

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记住，离子有些不同。

Remember, ions are a little bit different.

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目前，很难说哪一种锂离子技术变种会胜出。

At this point, it is hard to say which lithium-ion variation will prevail.

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低温等离子体可以通过高电压获得。

But cold plasmas can be made using high electrical voltages.

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现在，锂离子电池面临着最大挑战。

Now they face their biggest challenge.

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我们可以用氩离子。

We could use argon ion.

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这是一种离子气体。

Here is an ion gas.

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他说：“锂离子电池技术目前还有很大的潜力。”

"There is a lot of headroom in lithium ion battery technology," he said.

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这里的离子指的是钾离子。

In this case, the ion is potassium.

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他的主要工具是一种叫做二次离子质谱仪的装置。

His main tool is a device called a secondary-ion mass spectrometer.

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不过，离子键在水中可溶。

Again, the bonds soluble in water.

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水将被抽到地面，然后从中释放氢离子。

Water could be pumped to the surface and then released into them.

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这能否取代等离子电源呢？

How's that for an alternative take on plasma power?

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铅离子要比质子大得多，因此也携带着更多的能量。

Lead ions are significantly bigger than protons, so they carry more energy.

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