Teijin develops world's first silicon-on-plastic integration technology for solar cells and LCD TFT
27 Nov 2009
Tokyo-based synrgetic fibres maker Teijin Limited says that it has developed the world's first technology to integrate silicon onto general-purpose plastic substrates, working in cooperation with NanoGram Corporation (NanoGram), a world-leading company in the development of nano materials.
The technology has promising applications in next-generation energy and electronics, including solar cells and thin film transistors for liquid crystal displays (LCD TFT). It is expected to help reduce the weight of these products, as well as enhance their flexibility and environmental sustainability.
Conventional silicon devices generally are manufactured onto a glass or a silicon substrate, but many electronics manufacturers are seeking ways to replace such substrates with thinner, lighter and flexible plastic substrates. Due to their low heat stability, however, general-purpose plastic substrates cannot withstand the conventional silicon sintering process, which has a high temperature of 500-600ºC. The challenge has been to develop a low-temperature silicon sintering process of below 200ºC.
Teijin and NanoGram entered into phase 1 of a technology development agreement in February 2009 to develop silicon-on-plastic integration technology. Thereafter, the technology for the sintering of silicon nanoparticles onto polycarbonate substrate at low temperature was developed, and then a silicon-on-plastic prototype was exhibited. Teijin and NanoGram are the first to achieve these results.
Further improvements of the prototype are expected to contribute to low-weight solar cells and LCDs that are at least 50% lighter than current models. Such weight reductions also will help to lower CO2 emissions during the transportation of these products.
Teijin and NanoGram subsequently entered into phase 2 of their technology development agreement to establish silicon-on-plastic integration technology comparable to that of amorphous silicon or organic semiconductors. Efforts will focus on areas such as the development of solar cells and LCD TFT.