Dr. Kate Duncan of US Army, CERDEC

This talk will present the current and future of carbon based materials, especially focusing on the direct write technologies of nanomaterials for the next generation of antennas. Synthesis methods of graphene shall be highlighted, with a detailed discussion of chemical methods to produce graphitic oxide for printing of RF structure will be covered. Direct write technologies shall be discussed graphene and other transparent conductors for flexible electrodes and radiating structures will be addressed. Printable and flexible electronics of nano materials will be covered in detail.

Biography: Kate Duncan obtained her PhD in Applied Physics from New Jersey Institute of Technology. For her dissertation work she developed and demonstrated affordable manufacturing techniques for integrating electrically conductive polymer based shock, vibration and infrared sensors into composite aviation structural components. Kate is currently an electrical engineer with the Army in the Antennas Technology & Analysis Branch of CERDEC. Since joining CERDEC she has been engaged in the development of novel nanomaterials for the next generation antennas systems. Synthesis, deposition, material and electrical characterization have been her focus. This has resulted in her group being among the first to successfully deposit chemically reduced graphene by ink-jet printing on transparent substrate for RF applications. She has developed a direct write laboratory enhancing the Army's in-house prototyping capabilities.

Email:

Address:Deer Creek Loop, , Aberdeen Proving Ground, Maryland, United States, 21005

Dr. Kate Duncan of US Army, CERDEC

Biography:

Email:

Address:Aberdeen Proving Ground, Maryland, United States