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Recently, scientists at the University of Michigan inspired by the Japanese art of paper-cutting and paper art expert Matthew Shlian jointly developed "paper-cutting" solar panels, which can produce 36% more electricity
than traditional solar panels.
The challenge with traditional solar panels is that the sun does not stay in one place all the time, which means that energy can only be harvested as much as possible by constantly adjusting the angle with the sun
.
Scientists have cut traditional solar panels to a certain proportion, which is a regular horizontal plane by default, but can show different arcs after being pulled up at both ends, thus following the footsteps
of the sun.
The project, led by PhD student Aaron Lamoureux and associate professor Max Shtein, tested the papercut panel in Arizona by accurately measuring the ability to adjust the lift according to the daily time of day and the angle of the sun, and found that the paper cut panel can produce 36% more electricity
than traditional solar panels.
Shtein said: "We think there is a lot of potential for this, and we are about to roll it out to real-world applications
.
This will undoubtedly reduce the cost of solar energy
.
”
Recently, scientists at the University of Michigan inspired by the Japanese art of paper-cutting and paper art expert Matthew Shlian jointly developed "paper-cutting" solar panels, which can produce 36% more electricity
than traditional solar panels.
The challenge with traditional solar panels is that the sun does not stay in one place all the time, which means that energy can only be harvested as much as possible by constantly adjusting the angle with the sun
.
Scientists have cut traditional solar panels to a certain proportion, which is a regular horizontal plane by default, but can show different arcs after being pulled up at both ends, thus following the footsteps
of the sun.
The project, led by PhD student Aaron Lamoureux and associate professor Max Shtein, tested the papercut panel in Arizona by accurately measuring the ability to adjust the lift according to the daily time of day and the angle of the sun, and found that the paper cut panel can produce 36% more electricity
than traditional solar panels.
Shtein said: "We think there is a lot of potential for this, and we are about to roll it out to real-world applications
.
This will undoubtedly reduce the cost of solar energy
.
”
