02.01.23
C3Nano, Inc. announced the development of SuperGrid™, a novel ink which combines remarkable conductivity and flexibility with room temperature processing – an extension of C3Nano’s ActiveGrid LT (low temperature) ink series, which was announced in 2022.
C3Nano’s SuperGrid has electrical properties on par with traditional conductive electrodes like thin film copper and silver pastes, but is more flexible. Additionally, it can be deposited directly from solution and can be cured very quickly (in ambient temperature ~ 25 °C within seconds). As a result, SuperGrid can be deposited on a much broader range of substrates and through a variety of methods which are features a wide range of industries have been searching for to bring new innovative products to market.
Customers can utilize SuperGrid for bezels, microLED interconnects, grounding, traces around sharp/3D surfaces and EMI and RF shielding applications. Additionally, the low-temperature process gives users more design flexibility, higher throughput, and lower production costs. Compared to other low temperature processed inks, SuperGrid is stable at room temperature and only forms the conductive film or circuit after deposition.
“We believe SuperGrid is a game changer,” said Dr. Xiqiang Yang, VP of RD at C3Nano. “For years customers have been requesting silver nanowire based conductive inks that can achieve very low resistivities while still maintaining excellent mechanical properties. With SuperGrid, we are introducing a product that is not only less expensive but also more versatile through our low temperature curing process. Its enhanced flexibility will create unprecedented new product and market opportunities for our electronic device, biomedical, automotive, and display customers.”
C3Nano’s SuperGrid has electrical properties on par with traditional conductive electrodes like thin film copper and silver pastes, but is more flexible. Additionally, it can be deposited directly from solution and can be cured very quickly (in ambient temperature ~ 25 °C within seconds). As a result, SuperGrid can be deposited on a much broader range of substrates and through a variety of methods which are features a wide range of industries have been searching for to bring new innovative products to market.
Customers can utilize SuperGrid for bezels, microLED interconnects, grounding, traces around sharp/3D surfaces and EMI and RF shielding applications. Additionally, the low-temperature process gives users more design flexibility, higher throughput, and lower production costs. Compared to other low temperature processed inks, SuperGrid is stable at room temperature and only forms the conductive film or circuit after deposition.
“We believe SuperGrid is a game changer,” said Dr. Xiqiang Yang, VP of RD at C3Nano. “For years customers have been requesting silver nanowire based conductive inks that can achieve very low resistivities while still maintaining excellent mechanical properties. With SuperGrid, we are introducing a product that is not only less expensive but also more versatile through our low temperature curing process. Its enhanced flexibility will create unprecedented new product and market opportunities for our electronic device, biomedical, automotive, and display customers.”