Effects of Solution Properties on Iodine Monobromide Doping for Enhanced Bulk Carbon Nanotube Electrical Conductivity

Abstract: Purified commercially available carbon nanotube (CNT) sheet and yarn materials were chemically doped in solutions of IBr using varying solvents to enhance the CNT bulk electrical conductivity. Time-dependent optical absorption spectroscopy was employed to quantify IBr adsorption onto the CNT samples, and results correlate dopant adsorption with CNT conductivity enhancement. Two independent solvent systems were evaluated (hexanes and ethanol) leading to 40% greater conductivity for CNTs doped with IBr in hexane… Show more

“…The development of improved carbon-based electrical conductors for wires and cabling, , integrated circuits, , chemiresistive sensing, , and other applications is the focus of much recent research. Experimental research has demonstrated the potential of some carbon-based conductors to achieve mass specific conductivities which exceed that of copper .…”

Potassium-Doped Graphene Nanoribbons for High-Specific Conductivity Wiring

“…The development of improved carbon-based electrical conductors for wires and cabling, , integrated circuits, , chemiresistive sensing, , and other applications is the focus of much recent research. Experimental research has demonstrated the potential of some carbon-based conductors to achieve mass specific conductivities which exceed that of copper .…”

Potassium-Doped Graphene Nanoribbons for High-Specific Conductivity Wiring

Introduction to CubeSat power systems

Enhancement of electrical conductivity of carbon nanotube sheets through copper addition using reduction expansion synthesis