Layers of graphene make up the graphite found in pencil lead .
铅笔芯里的石墨就是由多层石墨烯组成的。
Their solution was to take advantage of graphene 's electrical conductivity , by running a current through the mixture .
他们的解决办法是充分利用碳单原子层的导电性,在材料中加上电流。
But a paper just published in the american chemical society 's journal , nano , by dr corral and her colleagues , suggests a sprinkling of graphene may deal with that .
但是美国化学学会期刊nano上面刊登的一份文章显示,少量的碳单原子层可以解决这个问题。
Graphene 's perfect structure gives rise to exotic quantum effects that are being studied by physicists .
石墨烯的完美结构同时还能引发一些物理学家们正在研究的奇异量子效应。
By itself graphene is worse than silicon at absorbing light .
如果仅使用单层石墨烯,它吸收光子的能力比硅还要差。
But things may be a lot simpler where graphene is concerned .
但若考虑到石墨烯,很多事情会变得简单许多。
From this information they calculated the improvement in stiffness the graphene gave to the polymer composite .
通过这些信息他们可以计算出加入石墨烯后高分子复合材料的刚度改进。
Short-term uses for graphene include using it to manufacture light , robust touch-screens and mobile phones .