SBIR-STTR Award

This Small Business Technology Transfer (STTR) Phase I project is aimed at commercializing a technology which addresses the problem of Transparent Conductive Oxide (TCO) film performance and cost. This is an important issue for the manufacturers of optoelectronic devices that utilize TCO films, like LEDs, OLEDs, thin-film photovoltaics, and smart windows, and is an issue which has received a significant amount of academic and industrial attention. This project aims to address the issue by exploring a solution process for depositing Zinc Oxide (ZnO) based TCO films with potential to provide lower materials, energy, and capital equipment costs than current deposition methods and TCO materials. In particular, this project will explore increasing the speed of this solution deposition process and incorporating performance enhancing antireflection properties. This technology is based on NSF funded basic research and the fundamentals of its potential have been demonstrated in several peer reviewed publications. The broader impact/commercial potential of this project is significant. If successfully developed, solution deposited multifunctional antireflective and transparent conductive ZnO films would present a significant market opportunity. The greater TCO deposition market is at least several billion dollars per year, with those applications that can most easily be addressed by solution deposited ZnO based TCOs representing several hundred million to over half a billion dollars per year. In the majority of applications, there could be device performance and/or economic benefit from the ability to incorporate tunable antireflection properties without significantly diminishing other important TCO film characteristics. By providing technology that will help lower costs and improve the performance of energy conserving LEDs, OLEDs, and smart windows, as well as renewable energy generating photovoltaic solar cells, this project has the long term potential to increase adoption of these technologies, which in turn creates a more sustainable energy future for the U.S. and the world. In terms of enhancing scientific understanding, the knowledge gained from this project has potential to spur others to examine green chemistry methods, such as microwave assisted deposition, for synthesizing and depositing advanced inorganic materials.

The broader impact/commercial potential of this Small Business Innovation Research (SBIR) Phase II project could be very significant for the field of light emitting diodes (LEDs) and other optoelectronics. This project is aimed at developing a solution based technology for depositing transparent conductive zinc oxide (ZnO) layers for use in LEDs and other optoelectronic devices. This ZnO deposition technology has potential to provide a lower cost and higher performance alternative to the physical vapor deposited indium tin oxide (PVD-ITO) layers that are currently used. The technology could be commercialized for LED manufacturing in only a few years. Lighting is one of the modern world's primary usages of energy and the adoption of high efficiency LED lighting has potential to significantly reduce lighting energy demand. By lowering manufacturing cost and improving performance, the technology developed in this project can help increase LED adoption and energy savings. In the longer term, this technology may also be used to lower manufacturing cost and improve performance of solar cells, impacting clean energy supply as well as demand.This Small Business Innovation Research Phase II project is aimed at commercializing a technology which addresses the problem of Transparent Conductive Oxide (TCO) film performance and cost, in particular for light emitting diodes (LEDs) and other Gallium Nitride based optoelectronics. This proposal aims to bring a solution based method for depositing Zinc Oxide (ZnO) based TCO films to the point of commercial competiveness, with the longer term goal of providing significantly lower materials, energy, and capital equipment costs than current deposition methods and TCO materials. The approach being taken in the proposal relies on well understood characterization techniques as methods of determining successfulness as well as direct feedback from device manufacturers. The small business has the support and validation of strategic partnerships with device manufacturers eager to support this development of this technology.