We present an extensive array of materials to cater to the needs of OFET & OPV applications, encompassing carbon nanomaterials, conductive polymers, p-type and n-type semiconductor polymers, inks tailored for printed electronics, readily applicable conductive substrates, self-assembly materials, and small organic molecules.

FOR ORGANIC FIELD EFFECT TRANSISTORS (OFETs):

Our offering spans a diverse collection of meticulously refined, high-performance p-type and n-type organic semiconductor materials, along with inks incorporating small molecules and polymers. Furthermore, we provide organic conductors and dielectric materials, as well as foundational components for creating novel active materials essential in OFETs. Simplifying the prototyping process, we present a series of pre-fabricated electrodes designed for rapid OFET development. A singular step is all it takes to apply your semiconducting materials, thanks to features including:

– Backgated configuration

– High channel width to length (W/L) ratio

– Single die comprising multiple devices with varying W/L ratios

– Exceptional reliability and reproducibility

– Consistently reliable ohmic source/drain contacts

– Choice of dielectric thickness and device arrangement

– Matching testing equipment equipped with dependable pad contact, eliminating the need for a probe station

FOR ORGANIC PHOTOVOLTAICS (OPVs):

The domain of organic photovoltaic (OPV) technology is experiencing rapid growth, attributed to recent breakthroughs in innovative materials and refined design strategies. Emerging production methods now utilize high-throughput, large-volume printing on lightweight and flexible plastic substrates, resulting in cost-effective solar energy devices. The enhanced performance of OPVs is often attributed to the utilization of donor-acceptor (DA) polymers.