바로가기 메뉴
컨텐츠 바로가기
주메뉴 바로가기
하단정보 바로가기

Communications

Develop core application technology to lead future industrial growth

Notice

게시판 상세보기
HyperSolar Announces Initial Breakthrough Design
Writer  :  관리자 Date  :  2010.11.23 Views  :  2,440

HyperSolar Announces Initial Breakthrough Design

                       

        With HyperSolar as the top layer,manufactures can use significantly fewer solar cells in the production of solar panels, thereby dramatically reducing the cost per watt of electricity. We believe this is a revolutionary way to make solar panels.

by Staff Writers

Santa Barbara CA (SPX) Nov 19, 2010

HyperSolar has announced that new design models show potential magnification of 300%. "We are very excited about this breakthrough by our development team," said HyperSolar’s CEO, Tim Young.

"Considerable work has been done in the solar industry to make solar cells more efficient. However, we believe that a critical advancement will be to actually control the delivery of sunlight onto solar cells. At HyperSolar, we are developing the world’s first thin and flat light magnification layer for direct application on top of standard solar cells to increase their power output."

Mr. Young continued, "We are encouraged by our recent results. Our plan is to move to the prototype stage early next year and then to a commercial  product."

 

HyperSolar’s innovative thin and flat light magnification layer employs thousands of very small light collectors on the surface that funnel light into a proprietary light routing network in the middle that carries light to a smaller output area on the bottom where a solar cell can be attached.

Instead of using 3 solar cells to cover an area on a solar panel, only 1 solar cell is needed underneath a 300% HyperSolar layer. This allows solar panel manufacturers to reduce the number of expensive solar cells in their panels, by 66%, and dramatically reduce the cost per watt of their solar panels.

Mr. Young added, "The higher the light magnification in the HyperSolar layer, the higher the power magnification of the attached solar cell. As part of our development plan, we are exploring various designs and microphotonic elements to increase the magnification by as much as 400% in the final product."

 

Prev GIST joints hands with 3 Universities for Solar Ce…
Next Tennessee's Largest Solar Array Under Construction…