Printed Carbon Nanotube Electronics and Sensor Systems
Kevin ChenWei GaoSam EmaminejadDaisuke KiriyaHiroki OtaHnin Yin Yin NyeinKuniharu TakeiAli Javey
Abstract
Printing technologies offer large‐area, high‐throughput production capabilities for electronics and sensors on mechanically flexible substrates that can conformally cover different surfaces. These capabilities enable a wide range of new applications such as low‐cost disposable electronics for health monitoring and wearables, extremely large format electronic displays, interactive wallpapers, and sensing arrays. Solution‐processed carbon nanotubes have been shown to be a promising candidate for such printing processes, offering stable devices with high performance. Here, recent progress made in printed carbon nanotube electronics is discussed in terms of materials, processing, devices, and applications. Research challenges and opportunities moving forward from processing and system‐level integration points of view are also discussed for enabling practical applications.
Metrics
Citation History
Topics
Related Documents
Carbon Nanotubes: Printed Carbon Nanotube Electronics and Sensor Systems (Adv. Mater. 22/2016)
Kevin ChenWei GaoSam EmaminejadDaisuke KiriyaHiroki OtaHnin Yin Yin NyeinKuniharu TakeiAli Javey
Aerosol printed carbon nanotube strain sensor
Printed Carbon Nanotube Gas Sensor Arrays
David E. SchwartzClinton SmithYong ZhangGabriel IftimeGregory L. WhitingIon MateiM. MeyyappanBeomseok Kim
Polyfluorinated Electrolyte for Fully Printed Carbon Nanotube Electronics
Huaping LiYifan TangWenmin GuoHongyu LiuLili ZhouNina Smolinski
Printed Electronics: Polyfluorinated Electrolyte for Fully Printed Carbon Nanotube Electronics (Adv. Funct. Mater. 38/2016)
Huaping LiYifan TangWenmin GuoHongyu LiuLili ZhouNina Smolinski