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模拟测试卷5-2019-8月新卷听力

模拟测试卷5-2019-8月新卷 According to the professor, what problems must researchers solve before graphene can be used commercially? Click on 2 answers.

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[00:00.00]Narrator:Listen to part of a lecture in a materials science class.[00:06.20]Professor:So basically, a nanomaterial is an extraordinary thin sheet of material, often a film or an engineered surface sometimes that’s less than five atoms thick.[00:21.30] There is a number of different nanomaterials out there right now but the one I’d like to focus on today is graphene.[00:28.70] Now, I like graphene because there’s a number of exciting applications where it may prove very useful.[00:36.20] As the name suggests, graphene is derived from graphite, the stuff in the quart of pencils.[00:43.40] Graphite is made of layers of carbon atoms and if you strip off the thinnest possible layer of graphite, a layer of just one atom thick, you’ve got graphene.[00:54.90] Graphene is the strongest material ever made. Its strength is due to its perfect crystalline atomic structure, which looks like chicken wire under a microscope, actually.[01:07.40] You could compare graphene to diamond because they’re both made of carbon atoms that are arranged in a simple and regular pattern.[01:15.90] But unlike diamonds, graphene is incredibly flexible, akin to plastic wrap.[01:22.80] And because of its atomic structure, graphene is also an outstanding heat conductor.[01:29.00] Electrons speed through this material much faster than they can through other materials.[01:35.00]It’s been a few decades since graphene was first identified as a potential nanomaterial in 1947, to be precise.[01:44.00] Some scientists came up with the idea that a material like this can be used in a variety of ways but others are skeptical because really, how do you make a sheet of material that’s just one atom thick?[01:58.50] In the 1980s and 90s, many researchers tried to produce graphene with little success.[02:05.70] But finally, in 2004, a group in Manchester, England created the first graphene sample by simple mechanical exfoliation.[02:15.90] Basically, they placed a small piece of graphite between two pieces of adhesive tape, pulled the tapes apart and repeated this process over and over until they had extracted a layer that was just once atom thick.[02:31.50] And this news excited the scientific community because now it meant the graphene could be investigated not only theoretically, but also experimentally.[02:42.70] When experiments revealed the high mobility of electrons through graphene, this material became particularly promising in the field of electronics.[02:53.70] It might be used to make transistors and computer microchips.[02:58.40] As you know, the development of microchips and transistors has been based on silicon for more than forty years.[03:06.70] Silicon was the material that allowed us to create ever faster and smaller microchips which transformed computers from huge machines to small portable devices.[03:19.50] But, as mobile phones, music players, and other devices keep getting smaller and faster, we’re now pushing the capacity of silicon so we hope that graphene can eventually replace silicon as a semi-conductor. [03:34.60]But there’s another challenge: the industrial of graphene sheets.[03:39.60] The adhesive tape method is good for producing small samples for research purposes.[03:45.60] But we need a reliable way to mass produce graphene in large sheets so they can be sold to companies that manufacture transistors, for example.[03:56.70] And several groups are investigating ways to do this, to make large quantities of graphene cost effectively.[04:04.40] As you know, a semi-conductor is a material that delivers electrical charges between electrons.[04:11.50] Recall that the basic units of digital information are ones and zeros.[04:16.70] One moves means that there is a signal and there is no signal. And this is the way you code and transmit data digitally.[04:26.80] So, the basic rule for a semi-conductor is that it can convey a signal, but this signal can also be stopped.[04:34.40] And here is one problem with graphene. It’s too good a conductor.[04:38.90] Its conductivity is so good that the signal cannot be turned off.[04:44.00] So, we’re investigating ways to control graphene’s conductivity to halt the throe of electron through this material.

5.According to the professor, what problems must researchers solve before graphene can be used commercially?
Click on 2 answers.

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