What’s Important For Solar Cell Efficiency

Solar panel technology has witnessed as quantum jump, but the technology has an imperfection that restricts the competence of the system. The panels must face the sun to function, but the heat from this exposure reduces their capability to convert light into energy. The warmer they get, the less effectual they turn out to be. This problem has puzzled the industry for years, but the Stanford team may have discovered a material that can help disperse this extra heat without disturbing the process of the solar arrangement.
Well, the breakthrough innovation comes from a team of engineers from Stanford University, who have invested a futuristic way to advance the performance of solar panel arrays. According to the team, this new material will lower the temperature of solar cells even though they are functioning in full-strength daylight. As the solar cells cool down, their productivity will increase, leading to noteworthy increment in the amount of energy reaped from the sun.
The two bright minds behind the innovative idea Stanford electrical engineering Professor Shanhui Fan, research associate Aaswath P. Raman and doctoral candidate Linxiao Zhu, make use of a material that is able to capture and discharge thermal heat (heat) away from the solar call. While deterring heat accumulation, the thin, marbled silica material does not stop the sunshine, letting the photons pass through the solar panel where they are transformed into energy. It’s a win-win state, letting the permitted flow of sunlight and the elimination of additional heat from the system.
This pioneering idea was developed by the team formerly as a way to direct radiated infrared heat back to space minus warming the atmosphere in 2014. The scientists then used the advance material and applied it to solar cell technology, which was in terrible need of a radioactive chilling way out such as this.
The team has only confirmed a small amount of the material in their panel tests, but the scientists are assured the technology can scale to profitable and manufacturing levels using current Nano print lithography skills.

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