Moth Eyes Solar Panels

Scientists have created a nanofilm that mimicks the moth s eye to enhance solar cell efficiency.

Moth eyes solar panels.

These unique structures help moths evade detection by predators in moonlight and maximize light capture for seeing in the dark. Department of energy office of science summary. Moth eyes absorb almost all incident light thus reducing reflection that predators would notice. The eyes of the common moth have led to a novel discovery that could boost the efficiency of solar panels.

However by imitating the orderly bumps of the moth s eye jiang and his collaborators fabricated a silicon that reflected less than 3 percent of light. In more detail moth s eyes have a unique and very complex lens structure with a. Artificial moth eyes enhance silicon solar cells date. Inspired by moth eyes this new graphene based solar cell is crazy efficient by lulu chang february 29 2016 university of surrey for all of humanity s impressive innovations sometimes mother.

Mimicking the texture found on the surfaces of the eyes of moths. Silicon solar panels may reflect as much as 35 percent of light a significant waste of potential energy. An antireflective film inspired by moth s eyes has been shown to improve the efficiency of solar cells photo. Moth eye inspired antireflective coatings that demonstrate high performance over large band widths at low fabrication cost have recently been developed for solar panels with many other potential products applications.

April 15 2016 source. Just about a week ago a study by a german team of scientists reported an incredible boost in solar cells efficiency thanks to a technology that mimics a part of the human eye. Moth eyes have evolved to cut out light reflection so that it can see well at night. The work that just appeared in the journal asc nano by the team in singapore also mimics eyes however this time they belong to moths.

Olaf leillinger 2 2 the japanese moth eye film. Scientists at brookhaven national laboratory have developed a way to create an ultra tiny texture on silicon which is the most common material for solar panels that cuts down on a solar panel s reflection in the same way that a moth s eyes operate. Researchers have now used the moth eye structure as the basis of a highly efficient solar.