Electricity from glass! What if your window glass
Electricity can be generated from Or glass like a mirror. If tall buildings with panels use that glass. They started generating their own electricity.
Not a dream but a thought that is about to come true.
A research team from Switzerland's loxarel Federal Institute of Technology EPFL and a group of scientists from Japan's Tokyo Institute of Technology have turned glass into a light power semiconductor using a Femtosecond laser. Simply put, they have made solar panels out of glass. This research, published in Physical Review Applied, opens up new possibilities for applications such as smart windows and sencor. How did such an invention happen? Ultra-fast pulses of high-energy laser light on tellurium-rich telluride glass make the glass atoms look like
Researchers were trying to find out by behavior. to do the work
When they went, they were surprised to see that the glass was 1053 nanometers
Small crystals of tellurium and tellurium oxide are formed when the wavelength of laser light falls on it. Both are semiconductors. Seeing this phenomenon, scientists have come to the conclusion that if sunlight falls on this glass, it can generate electricity. The researchers have exposed the telluride glass based on tellurium dioxide with Femtosecond laser. They found that an arbitrary photoconductive pattern made of tellurium nanocrystals was created. Tellurium-tellurium dioxide glass nanocomposite interphase with photoconductive properties during exposure forms the glass substrate. Scientists have observed that this laser retains pattern photoresponse when exposed to visible light ranging from 263 nanometer wavelengths. This is how glass is made
Effective photoconductors have emerged. By creating a sustainable innovation
Scientists are happy because no additional materials will be needed to produce electricity in this way.
Only telluride glass can produce a photoconductive material ie electricity with the help of 1053 nanometer wavelength laser or Femtosecond laser, said the director of Galatea Lab. Then when the light falls on it, electricity will be generated. Electricity from glass! What if your window glass
Electricity can be generated from Or glass like a mirror
If tall buildings with panels use that glass
They started generating their own electricity.
Not a dream but a thought that is about to come true. A research team from Switzerland's loxarel Federal Institute of Technology EPFL and a group of scientists from Japan's Tokyo Institute of Technology have turned glass into a light power semiconductor using a Femtosecond laser. Simply put, they have made solar panels out of glass. This research, published in Physical Review Applied, opens up new possibilities for applications such as smart windows and sencor. How did such an invention happen? Ultra-fast pulses of high-energy laser light on tellurium-rich telluride glass make the glass atoms look like
Researchers were trying to find out by behavior. to do the work
When they went, they were surprised to see that the glass was 1053 nanometers
Small crystals of tellurium and tellurium oxide are formed when the wavelength of laser light falls on it. Both are semiconductors. Seeing this phenomenon, scientists have come to the conclusion that if sunlight falls on this glass, it can generate electricity. The researchers have exposed the telluride glass based on tellurium dioxide with Femtosecond laser. They found that an arbitrary photoconductive pattern made of tellurium nanocrystals was created. Tellurium-tellurium dioxide glass nanocomposite interphase with photoconductive properties during exposure forms the glass substrate. Scientists have observed that this laser retains pattern photoresponse when exposed to visible light ranging from 263 nanometer wavelengths. This is how glass is made
Effective photoconductors have emerged. By creating a sustainable innovation
Scientists are happy because no additional materials will be needed to generate electricity in this way.
Director of Galatea Lab said that only telluride glass can produce a photoconductive material with the help of 1053 nanometer wavelength laser or Femtosecond laser. Then when light falls on it, electricity will be generated.