AsiaIPEX is a one-stop-shop for players in the IP industry, facilitating IP trade and connection to the IP world. Whether you are a patent owner interested in selling your IP, or a manufacturer looking to buy technologies to upgrade your operation, you will find the portal a useful resource.

Back to search results

Self-Assembled Nanoelectronic Devices for Solar Energy Applications

Detailed Technology Description: None

*Abstract

Challenge

Whilesolar radiation is an abundant energy source, current methods for its captureand use suffer from low efficiencies and high costs. For example, conventional photovoltaicdevices are limited to a theoretical maximum efficiency of 32%.

Rectennas have received recentattention as energy harvesting and conversion devices. These devices absorb incident radiation andconvert it to DC electric power through the use of a diode (rectifier). Although such devices have achieved over 90%conversion efficiency at microwave frequencies, the fabrication of rectennasthat operate in the optical frequency range is complicated by size limitationsand the low frequency response of the currently employed planar diodes.

As aresult, technologies for the development of optical rectennas are currentlydesired.

Solution

The present inventiondescribes the chemically-directed self-assembly of nanostructures ideal forpotential use in optical rectenna applications. The formation of these nanostructures relies on complementary DNAsequences for binding specific components of the assembly. For example, complementary DNA sequences canmediate the assembly of gold nanoparticles and single-walled carbon nanotubes(SWNTs) to form a duplex with a gold nanoparticle on opposite ends of aSWNT. Variation of the nucleic acidsequences allows for the creation of a large library of unique assemblycomponents.

This approach can be extendedto the attachment of unique functional tags on SWNTs of specific types andlengths. For optical rectennaapplications, these tags can be combinations of metallic nanoparticles andinsulating nanoparticles that result in efficient capture of visible andinfrared radiation and display higher frequency responses than currentdiodes.

Benefitsand features

Nanoscale rectenna platform
Potential for the creation of libraries of standard cells for photoreceptors, sensors, and integrated circuits
Visible light capture with high frequency responses and conversion efficiencies

MarketPotential / Applications

This technology platform haspotential application in solar energy conversion technologies. Potential for application also exists inRF-amplifiers, digital devices, and integrated circuits.

Development and LicensingStatus

This technology is availablefor licensing from Rice University.

RiceResearcher

HowardK. Schmidt is a Senior Research Fellow in the Department of Chemical andBiomolecular Engineering and former Executive Director of the CarbonNanotechnology Laboratory at Rice University.

TechnologyRelevant Papers and Web Links

A USpatent application has been allowed for this technology (Pub. No. US2010/0133513)

Case# 26036

KeyWords: rectennas,energy conversion, photovoltaics, self-assembly, solar energy, nanoparticles

Inquiriesto:

Luba Pacala, lpacala@rice.edu, (713) 348-5590

Chance Rainwater, crainwater@rice.edu, (713) 348-4106

Country/Region: USA

For more information, please click Here