Media.Player

Functionally graded graphene transient electronics

詳細技術說明

Project ID:  D2018-22 Background It is estimated that electronics account for 42 million tons of waste per year worldwide. As a result, electronic manufacturers have become interested in transient electronics. They contain environmentally benign components that can be degraded over time in a natural environment. Transient electronics can be used to better control life-cycle management and reduce the risk of electronic waste to the environment. They are defined by their ability to dissolve into non-toxic products and current methods use semi-conductor grade monocrystalline silicon and magnesium/magnesium oxide. However, production of these materials require multiple steps and expensive inputs.  Invention DescriptionResearchers at the University of Toledo have developed a single-step method to produce functionally graded graphene films which can be dissolved in water within 7 minutes. On a single film, one side is electrically conductive rGO and the opposite side is insulating GO. The hybrid material is formed in a single step and can easily incorporate an electrical circuit of any pattern. In addition to its environmentally friendly composition, scalable chemical synthesis, and ability to disperse in water, the low cost of graphite makes this film an ideal candidate for commercialization.  Applications•       Electronically functioning thin films and sensors•       Transient or compostable electronics o       Compostable consumer packagingo       Electronic packaging (RFID) o       Hardware security and military devices Advantages•       Mechanically robust films, freestanding•       Average sheet resistance is as low as 9.0 Ω/square.•       GO is hydrophilic, can hydrate and suspend in water•       Fast, one-step process•       All carbon-carbon neutral materials •       Environmentally friendly manufacturing and materials  IP Status:       Patent Pending

*Abstract

*Principal Investigation

Name: Syed Reza Rizvi, Assistant Professor

Department: MIME

Name: Rasel Sheikh, Post Doctoral Research Associate

Department: MIME

Name: Omkar Bhatkar, Graduate Research Assistant

Department: MIME

Name: David Young, Undergreaduate Student Assistant

Department: MIME

國家/地區

美國