四級英語長篇閱讀強化練習題

General 更新 2024年11月16日

  長篇閱讀作為英語四級閱讀理解的重要題型,所佔總分的比重高,需要獲得超高的正確率,才能不給閱讀理解乃至總分拖後腿,因此需要考生的重視。下面小編為大家帶來,歡迎各位同學練習。

  原文

  Here’s the Totally Amazing Wonder Material That Could Revolutionize Technology

  A.In the technology industry,every new product or service seems to come with the promise that it is an innovation with the potential to change the world.Graphene***石墨烯***,a form of carbon,might actually do just that.

  B.“Graphene is a wonderful material,”Jeanie Lau,a professor of physics at the University of California at Riverside,told Fortune.“It conducts heat 10 times better than copper and electricity 100 times better than silicon,is transparent like plastic,extremely lightweight,extremely strong,yet flexible and elastic.In the past decade,it has taken the scientific and technology communities by storm,and has become the most promising electronic material to supplement or replace silicon.”

  C.Graphene has already found its way into a number of compelling applications,Lau said.For instance,“since it is both transparent and electrically conductive—two attributes rarely found in the same material in nature—it has tremendous potential as the transparent electrode in monitors.displays;solar cells,and touch screens,”she explained.“Companies such as Samsung that invest heavily in this area have already secured patents,produced prototypes,and are expected to bring products to market in a few years.”Wearable electronic devices,aviation components,broadband photodetectors***光電檢測器***,radiation-resistant coatings,sensors,and energy storage are among numerous other areas of active research.Lau said.

  D.For many researchers and investors,the ultimate application is graphene-based transistors,the building blocks of modem electronics.But getting there may take some time.

  A child of graphite

  E.First produced in a lab back in 2004,graphene is essentially a single layer of pure carbon atoms bonded together in a honeycomb lattice so thin it’s actually considered two-dimensional.“We generally regard anything less than 10 layers of graphene as graphene;otherwise,it’s graphite,”said Aravind Vijayaraghavan,a lecturer in nanomaterials at the University of Manchester.

  F.Even“graphene”is a bit of an umbrella term.“To oversimplify,there are two major types of graphene,”Michael Patterson,CEO of Graphene Frontiers,said.The first:“Nanoplatelets,”which are powders or flakes made from graphite.These have been around for a while and are“not really super-sexy,”Patterson said.“You mix them into polymers***聚合物***or inks or rubbers to make them conductive.”In flake form,graphene is already on its way to becoming a commodity,Patterson added.The other type—in sheet or film form—is where graphene’s biggest promise lies.Graphene sheets have“incredible potential for electronics,”Patterson said.In the near term,that potential may manifest in situations where the quantity requirements are“not that great”and where quality or conductivity doesn’t have to be as high,such as in basic touch-screen applications,he said.Products that use graphene in this way could arrive to market in the next six to 1 2 months.

  G.Looking a little further out,graphene can be employed in membranes used for water desalination.Lockheed-Martin already has a patented product known as Perforene.“It’s real and it works,but it won’t be economically viable until the product reaches an industrial scale where the cost is measured in pennies per square inch”rather than dollars or tens of dollars per square inch,Patterson explained.

  “That’s where we’re working today.”

  ‘It’s expensive and low-capacity’

  H. But use of graphene in semiconductors—the technology’s Holy Grail—is likely a decade away.“Many of the challenges presented by graphene are common to most new materials,”Paul Smith,a patent associate with the Intellectual Property Law Group at Fenwick & West,told Fortune.“The trick is figuring out how to synthesize graphene in a way that first is manufacturable beyond lab scale;second,preserves the desirable properties of the material;and third,can be integrated into a product or technology.”

  I.Synthesizing graphene in sheet form is considerably more expensive and time-consuming than producing graphene flakes.Whereas the latter typically involves a“quick and dirty”process by which bulk graphite is disassembled into millions of tiny pieces,Lau explained,large sheets of graphene are carefully“grown”on substrates***基板***such as copper,germanium,or silicon carbide.

  J. Graphene sheets are also prone to defects and“very difficult to make in good quality,”Ron Mertens,owner and editor of Graphene-Info.tom,said.Production capacity is also very limited.“There are thousands of small companies that can make graphene,but it’s expensive and low-capacity,”Mertens said.alround wafer measuring one inch in diameter,for instance,costs about$1 00,he added.

  K.An even thornier obstacle on the way to graphene transistors is the fact that the material has no“band gap,”an essential property that allows transistors to be turned on and off without leaking electronic charge in the“off”state,said Elias Towe,a professor of electrical and computer engineering at Carnegie Mellon University.

  L.“Band-gap engineering has been and remains the biggest challenge in the development of graphene transistors and computer chips.”Lau said.It requires controlling the material almost down at the atomic level,and“that’s really pushing the edges of existing technology,”Patterson said.“In 10 years,we’11 start to see these problems solved.”

  ‘It is largely a matter of time’

  M.If graphene is to succeed as a replacement for silicon,every unit of cost and performance will make a difference,Towe said.

  N.“Silicon is hard to displace,with all the billions dollars of investments made in manufacturing infrastructure,”he said.“A replacement for silicon has to offer extraordinary performance at extremely rock-bottom cost to compel industry to change its way.”

  O.Though graphene is just 10 years old—in contrast,use of silicon in transistors dates to the early 1950s—considerable progress has already been made.For example,the largest graphene sheet was produced by hand in a laboratory eight years ago;its width was less than that of a human hair.“Nowadays,roll-to-roll printing of graphene sheets up to 1 00 meters long has been achieved,”Lau said.“With the increasing interest,investment,and research in graphene-based technology,I think it is largely a matter of time before the economy of scale kicks in and truly low-cost,large-scale production ofhigh-quality graphene is accomplished,”she added.

  選項

  46.Nanoplatelet is the powder-or flake-type of graphene that has been used for some time to make conductors and that is being launched on the market.

  47.To encourage industry to replace silicon with graphene,it is necessary for graphene to provide high property at an extremely low expense.

  48.While graphene flakes are roughly processed with bulk graphite,graphene sheets are carefully made on substrates like copper,germanium,or silicon carbide.

  49.In the past ten years.graphene has become a hot topic among the scientific and technology groups.

  50.Perforene won’t come into the market before it can be manufactured at a very low cost.

  51.Despite of a much younger age than silicon,great progress has been made in graphene;and with ever increasing interest,investment and research in graphene technology,it’s probable to manufacture cost- effective graphene of high quality.

  52.Graphene has been attempted to be used for plenty of noticeable applications.

  53.Yet it still needs to take ten years for graphene to be used in semiconductors,which lies at the heart of the technology.

  54.With today’s technology,it is still impossible to control material down at the atomic level.

  55.Elias Towe pointed out that having no“band gap”,the dispensable feature of transistors,makes it more difficult to produce graphene transistors.

  答案

  46.Nanoplatelet is the powder-or flake-type of graphene that has been used for some time to make conductors and that is being launched on the market.奈米片是粉末狀或者薄片狀的石墨烯,被用於製作導體已經有一段時間了,而且開始被推向市場。

  47.To encourage industry to replace silicon with graphene.it is necessary for graphene to provide high property at an extremely low expense.為了讓業界用石墨烯代替矽,就必須讓石墨烯在造價極低的同時保持高效能。

  48.While graphene flakes are roughly processed with bulk graphite,graphene sheets are carefully made on substrates like copper,germanium,or silicon carbide.石墨烯薄片是由塊狀石墨粗略加工而成的,而石墨烯薄膜則是在銅,鍺或者碳化矽等基板上仔細加工而成的。

  49.In the past ten years,graphene has become a hot topic among the scientific and technology groups.在過去的十年間,石墨烯已經成了科學技術界的熱點話題。

  50.Perforene won’t come into the market before it Can be manufactured at a very low cost.Perforene在能夠以低成本大量生產之前是不會上市的。

  51.Despite of a much younger age than silicon,great progress has been made in graphene;and with ever increasing interest,investment and research in graphene technology,it’s probable to manufacture cost-effective graphene ofhigh quA.ity.雖然出現得比矽要晚很多年,石墨烯仍取得了很大進展;而且隨著石墨烯技術利益,投資及研究的日益增加,很有可能以低成本生產大量高質量的石墨烯。

  52.Graphene has been attempted to be used for plenty of noticeable applications.石墨烯已經被嘗試著用於許多引人注意的應用程式。

  53.Yet it still needs to take ten years for graphene to be used in semiconductors,which lies at the heart of the technology.但是,將石墨烯用於半導體制造***技術的核心***仍需要十年的時間。

  54.With today’s technology,it is still impossible to control material down at the atomic level.以今天的技術還無法將材料控制在原子層面。

  55.Elias Towe pointed out that having no“band gap”,the dispensable feature of transistors,makes it more difficult to produce graphene transistors.艾利亞斯•陶威指出,由於缺少電晶體必備的“帶隙”,使得製造石墨烯電晶體更加困難。

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