砖块变电池
Bricks can be used as energy storage units
刘立军 供稿
TRANSCRIPT
This is Scientific American's 60-second Science, I'm Shahla Farzan.
Bricks are one of the oldest known building materials, dating back thousands of years.
But researchers at Washington University in St. Louis have found a new use for bricks: as energy storage units. A team of engineers and chemists have found a way to transform an ordinary house brick into a pseudo-battery - allowing it to conduct and store electricity.
The bricks are powerful enough to illuminate an LED light bulb and cost only about $3 to make. "I love the idea of adding value to things that are inexpensive, things that are affordable, things that we kind of take for granted." Julio D'Arcy is an assistant professor of chemistry at Washington University and one of the researchers on this project.
The brick battery relies on the reddish pigment known as iron oxide, or rust, that gives red bricks their color. The scientists pumped the bricks with several gases that react with iron oxide to produce a network of plastic fibers. These microscopic fibers coat the empty spaces inside the bricks - and conduct electricity.
"What we're trying to do is: we're trying to make specialized plastics that are only used on the nanoscale - where we use very little of the plastic, and we can actually embed that plastic inside construction materials that can store energy."
The study is in the journal Nature Communications.
In the future, D'Arcy says, a brick wall could potentially serve a dual purpose: providing structural support and storing electricity generated from renewable energy sources, like solar panels.
The technology is still at least a few years away from being ready for the commercial market. Right now the energy storage capacity of the bricks is still pretty low - about 1 percent of a lithium ion battery (锂电池). But the team is now testing ways to improve brick performance - because it looks like you can teach an old brick new tricks.
For Scientific American's 60-second Science. I'm Shahla Farzan.
VOCABULARY
1. conduct v. to allow heat or electricity to pass along or through it 传导(热或电等能量)。例如:Copper conducts electricity well. 铜的导电性能好。
2. illuminate v. to shine light on sth. 照明;照亮;照射。例如:Floodlights illuminated the stadium. 泛光灯照亮了体育场。
3. microscopic adj. extremely small and difficult or impossible to see without a microscope 极小的;微小的;需用显微镜观察的。例如:a microscopic creature / particle 微生物;微粒
4. nanoscale n. 纳米级
QUESTIONS
Read the passage. Then listen to the news and fill in the blanks with the information (words, phrases or sentences) you hear.
This is Scientific American's 60-second Science, I'm Shahla Farzan.
Bricks are one of the oldest known building materials, dating back thousands of years.
But researchers at Washington University in St. Louis have found a new use for bricks: as (Q1) _____________________. A team of engineers and chemists have found a way to transform an ordinary house brick into a pseudo-battery - allowing it to (Q2) _________________________.
The bricks are powerful enough to illuminate an LED light bulb and cost only about $3 to make. "I love the idea of adding value to things that are (Q3) __________________, things that are affordable, things that we kind of take for granted." Julio D'Arcy is an (Q4) _____________________ of chemistry at Washington University and one of the researchers on this project.
The brick battery relies on the reddish pigment known as iron oxide, or (Q5) ____________, that gives red bricks their color. The scientists pumped the bricks with several gases that react with iron oxide to produce a network of (Q6) _______________________. These microscopic fibers coat the empty spaces inside the bricks - and conduct electricity.
"What we're trying to do is: we're trying to make specialized plastics that are only used on the nanoscale - where we use very little of the plastic, and we can actually embed that plastic inside (Q7) ____________________________ that can store energy."
The study is in the journal Nature Communications.
In the future, D'Arcy says, a brick wall could potentially serve a dual purpose: providing structural support and (Q8) ________________ generated from renewable energy sources, like solar panels.
The technology is still at least a few years away from being ready for the (Q9) __________________. Right now the energy storage capacity of the bricks is still pretty low - about 1 percent of a lithium ion battery. But the team is now testing ways to improve brick performance - because it looks like you can (Q10) _____________________________.
For Scientific American's 60-second Science. I'm Shahla Farzan.
KEY
Read the passage. Then listen to the news and fill in the blanks with the information (words, phrases or sentences) you hear.
This is Scientific American's 60-second Science, I'm Shahla Farzan.
Bricks are one of the oldest known building materials, dating back thousands of years.
But researchers at Washington University in St. Louis have found a new use for bricks: as (Q1) energy storage units. A team of engineers and chemists have found a way to transform an ordinary house brick into a pseudo-battery - allowing it to (Q2) conduct and store electricity.
The bricks are powerful enough to illuminate an LED light bulb and cost only about $3 to make. "I love the idea of adding value to things that are (Q3) inexpensive, things that are affordable, things that we kind of take for granted." Julio D'Arcy is an (Q4) assistant professor of chemistry at Washington University and one of the researchers on this project.
The brick battery relies on the reddish pigment known as iron oxide, or (Q5) rust, that gives red bricks their color. The scientists pumped the bricks with several gases that react with iron oxide to produce a network of (Q6) plastic fibers. These microscopic fibers coat the empty spaces inside the bricks - and conduct electricity.
"What we're trying to do is: we're trying to make specialized plastics that are only used on the nanoscale - where we use very little of the plastic, and we can actually embed that plastic inside (Q7) construction materials that can store energy."
The study is in the journal Nature Communications.
In the future, D'Arcy says, a brick wall could potentially serve a dual purpose: providing structural support and (Q8) storing electricity generated from renewable energy sources, like solar panels.
The technology is still at least a few years away from being ready for the (Q9) commercial market. Right now the energy storage capacity of the bricks is still pretty low - about 1 percent of a lithium ion battery. But the team is now testing ways to improve brick performance - because it looks like you can (Q10) teach an old brick new tricks.
For Scientific American's 60-second Science. I'm Shahla Farzan.
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