同所有的未来技术一样,3d打印石墨烯电池要想真正应用到汽车中还有很长的路要走——但同时我们也会饶有兴致的看看这项科技究竟会给人们带来多么奇妙的世界。
Likeall future technology, 3d-printed graphene battery packs are a long way from being used in our cars - but as always, we're keen to see just how deep this rabbit hole goes.
单层石墨烯透光,这个性质使其可以用来制作显示器,触摸屏和太阳能电池。
Single sheets of graphene are also transparent to light, a property that could be exploited to make displays, touch-sensitive screens and solar cells.
由于石墨烯的这些优势,研究人员希望其可以为电池,燃料电池和电容器等许多电化学系统带来复合电极的重大进展。
With these advantages, the researchers expect the df-G to bring significant advances of composite electrodes for a variety of electrochemical system, including batteries, fuel cells, and capacitors.
石墨烯锂离子电池的寿命还将是普通锂电池的两倍。
The lifespan of the graphene-assisted Li-ion batteries will also be twice as long as ordinary Li-ion batteries.
华为宣布了其在锂离子电池研究方面的一个重大突破——透露全球首个能够耐高温长寿命的石墨烯锂离子电池。
Huawei announced a major breakthrough in its research into Li-ion batteries, unveiling the world's first long-lifespan graphene-assisted Li-ion battery able to withstand high temperatures.
同时,概述了石墨烯基复合材料在锂离子电池、太阳能电池、催化等其他方面的应用。
Meanwhile, the applications of graphene-based composite materials in the fields of lithium ion battery, solar cell, catalysis were outlined.
本发明以大环化合物修饰的石墨烯作为催化剂,应用于电池的酸性、中性和碱性条件下氧还原的催化。
The grapheme modified by a macrocyclic compound is used as the catalyst and is used for catalyzing the oxygen reduction of batteries under acidic, neutral and alkaline conditions.
通过在带正电荷的Co3O 4周围包裹一大层带负电荷的石墨烯,可以为高性能锂离子电池制备出一个非常有效率的阳极。
Wrapping a large sheet of negatively charged df-G around a positively charged Co3O4creates a very promising anode for high-performance Li-ion batteries.
通过在带正电荷的Co3O 4周围包裹一大层带负电荷的石墨烯,可以为高性能锂离子电池制备出一个非常有效率的阳极。
Wrapping a large sheet of negatively charged df-G around a positively charged Co3O4creates a very promising anode for high-performance Li-ion batteries.
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