This Small Business Innovation Research (SBIR) Phase I project will develop scalable solution processed techniques to create unique fast switching electrochromic layers. The novel electrochromic layers will be initially examined for compatibility and performance then subsequently used to construct solid state fast switching windows. Systematic characterization of the solid state electrochromic device will establish which components in the system limit performance. Upon successful fabrication, the company expects to achieve enhanced light transmission modulation at fast switching speed s for automotive applications.

The broader impact/commercial potential of this project will be to address automotive applications in improve light/heat control into the automobile and enhance user comfort by replacing existing automotive glass with dynamic automotive glass. Economic and environmental benefits of using dynamic windows in automotives are clear: increasing miles per gallon by reducing air conditioning load with enhance light/heat management. Increasing fuel efficiency by 3 miles per gallon will decrease oil consumption by one million barrels of oil per day. It is estimated that replacing standard automotive sunroof glass with dynamic sunroof glass will increase fuel efficiency by 3 miles per gallon during summer time. If all the glass in an automobile are replaced with dynamic glass then the impact will be much larger resulting in decrease in oil consumption by several millions of barrels per day. Still, current dynamic window technologies have not reached their market potential due to their high cost. The electrochromic windows are based innovative materials and device designs that achieve fast switching and high contrast while reducing production costs compared to alternate dynamic window technologies available today. Wide scale adoption of this unique technology will not only enhance market penetration for dynamic windows but establish a new benchmark for performance and cost.

Project Report

This Small Business Innovation Research Phase I project developed "Fast Switching Electrochromic Window" sample for Automotive Applications. This smart window film dynamically optimizes light transmission and heat gain through automotive glazing to improve passenger comfort and also decrease fuel consumption. Intellectual Merit: Low cost scalable solution processing techniques were used to build unique fast switching electrochromic devices. These solid state smart window devices modulate visible light transmission. These devices switch fast in a few seconds making them suitable for automotive applications. Broader/Commercial Impact: Automotive applications represent a prime opportunity to improve light/heat control into the automobile and enhance user comfort by replacing automotive glass with dynamic glass. Economic and environmental benefits of using dynamic glazing in automobiles include fuel efficiency enhancement by reducing air conditioning load in summer time. If all the standard automotive glass is replaced by dynamic automotive glass it will reduce oil consumption in US by several millions barrels per day. Current dynamic window technologies have not reached commercial potential due to high cost of about $100/ft2. Low cost solution processed smart window technology developed during this SBIR Phase I project has the potential to result in wide scale adoption of smart windows in US and abroad.

Project Start
Project End
Budget Start
2014-01-01
Budget End
2014-12-31
Support Year
Fiscal Year
2013
Total Cost
$179,999
Indirect Cost
Name
Argil, Inc.
Department
Type
DUNS #
City
Los Gatos
State
CA
Country
United States
Zip Code
95032