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PatentsContact ResistanceThe Contact Resistance patent family is covering how to improve a separator plate arrangement for an electrochemical cell by comprising a nanostructure which offers lowered contact resistance between the separator element and the diffusion layer.Read moreContact Resistance
ResearchFlip chip interconnects based on carbon nanofibers-solder compositesResearch paper published in the proceedings of 2021 IEEE 71st Electronic Components and Technology Conference (ECTC), 2021, pp. 2229-2234.Read moreFlip chip interconnects based on carbon nanofibers-solder composites
ResearchReliability, solderability and electrical performance of high density ultra thin capacitors based on carbon nanofibersResearch paper published in the proceedings of 2021 IEEE 71st Electronic Components and Technology Conference (ECTC), 2021, pp. 1627-1632.Read moreReliability, solderability and electrical performance of high density ultra thin capacitors based on carbon nanofibers
ResearchHigh-frequency electrical circuit model for integrated capacitors utilizing lossy nanostructuresResearch paper published in the proceedings of 2021 IEEE 71st Electronic Components and Technology Conference (ECTC), 2021, pp. 1205-1210.Read moreHigh-frequency electrical circuit model for integrated capacitors utilizing lossy nanostructures
ResearchUltrathin High-Density Capacitors based on Carbon Nanofibers Fabricated on Silicon, Alumina and Glass Interposer MaterialsResearch paper published in the proceedings of 2020 IEEE 20th International Conference on Nanotechnology (IEEE-NANO), 2020, pp. 213-216.Read moreUltrathin High-Density Capacitors based on Carbon Nanofibers Fabricated on Silicon, Alumina and Glass Interposer Materials
ResearchRobustness of carbon nanofiber-based MIM capacitors with ultra-high capacitance density to electrical and thermal stressResearch paper published in the proceedings of 2020 IEEE 70th Electronic Components and Technology Conference (ECTC), 2020, pp. 2139-2144.Read moreRobustness of carbon nanofiber-based MIM capacitors with ultra-high capacitance density to electrical and thermal stress
ResearchIntegrated and Discrete Ultra-Thin Capacitors Based on Carbon Nanofibers with High Capacitance DensityResearch paper published in the proceedings of 2020 IEEE 70th Electronic Components and Technology Conference (ECTC), 2020, pp. 1614-1619.Read moreIntegrated and Discrete Ultra-Thin Capacitors Based on Carbon Nanofibers with High Capacitance Density