Chemistry, Properties, and Patterning of Transparent and Conductive Materials

Abstract

Transparent and conductive (T/C) wires and patterns are essential components in modern optoelectronic devices, including touchscreens, solar panels, smart windows, and wearable sensors. These technologies rely on materials that simultaneously transmit visible light, conduct electricity, and can be patterned, requirements that pose substantial chemical, material, and processing challenges. Indium tin oxide, the longstanding industry standard for T/C applications, offers high transparency and low sheet resistance, but suffers from brittleness and restricted stretchability. These limitations have spurred intense research into alternative T/C materials, including metallic nanowires, carbon-based conductors, and conductive polymers, each offering unique advantages related to conductivity, flexibility, environmental stability, and fabrication compatibility. This perspective provides an overview of the properties demanded of T/C materials and recent advances in new T/C chemistry and fabrication techniques used to create T/C patterns.