‘Nanocoax’ Solves Solar Cell Dilemma
CHESTNUT HILL, Mass., June 8, 2010 — Boston College researchers have developed a nanoscale solar cell inspired by the coaxial cable that offers greater efficiency than any previously designed nanotech thin film. The ‘nanocoax’ resolves the ‘thick and thin’ challenge that is inherent to capturing light and extracting current for solar power.
The quest for high power conversion efficiency in most thin film solar cells has been hampered by competing optical and electronic constraints. A cell must be thick enough to collect a sufficient amount of light, yet it needs to be thin enough to extract current.
Boston College researchers report developing a "nanocoax" technology that can support a highly efficient thin film solar cell. This image shows a cross section of an array of nanocoax structures, which prove to be thick enough to absorb a sufficient amount of light, yet thin enough to extract current with increased efficiency. The research was reported in the journal Physica Status Solidi. (Image: Boston College)
Physicists at Boston College found a way to resolve the ‘thick and thin’ challenge through a nanoscale solar architecture based on the coaxial cable, a radio technology concept that dates back to the first trans-Atlantic communications lines laid in the mid 1800s.
"Many groups around the world are working on nanowire-type solar cells, most using crystalline semiconductors," said Michael Naughton, co-author of the study and professor of physics at Boston College. "This nanocoax cell architecture, on the other hand, does not require crystalline materials, and therefore offers promise for lower-cost solar power with ultrathin absorbers. With continued optimization, efficiencies beyond anything achieved in conventional planar architectures may be possible, while using smaller quantities of less costly material."
Optically, the so-called nanocoax stands thick enough to capture light, yet its architecture makes it thin enough to allow a more efficient extraction of current. This makes the nanocoax, invented at Boston College in 2005 and patented last year, a new platform for low cost, high efficiency solar power.
Constructed with amorphous silicon, the nanocoax cells yielded power conversion efficiency in excess of 8 percent, which is higher than any nanostructured thin film solar cell to date, the team reported.
The ultra-thin nature of the cells reduces the Staebler-Wronski light-induced degradation effect, a major problem with conventional solar cells of this type, according to the team.
For more information, visit: www.bc.edu
- coaxial cable
- A type of cable made up of two conductors; one conductor is inside of and concentric with the other.
- thin film
- A thin layer of a substance deposited on an insulating base in a vacuum by a microelectronic process. Thin films are most commonly used for antireflection, achromatic beamsplitters, color filters, narrow passband filters, semitransparent mirrors, heat control filters, high reflectivity mirrors, polarizers and reflection filters.
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