Materials Design Strategies for Solvent-Resistant Organic Electronics

Abstract: Design of organic π-conjugated semiconducting materials is an exciting avenue of research that has already found promising applications in a wide variety of fields, ranging from stretchable electronics to bioimaging and theranostics. With favorable optoelectronic and thermomechanical properties, these materials and related devices can provide a complementary alternative to commercial silicon-based electronics. One of the most important features of organic semiconductors is their ability to be solution processe… Show more

“…When designing solvent-resistant films, it is common for a post-treatment stage to be used postdeposition to generate this resistance. 42 Such methods require either putting energy into the system using heat 43 or UV light 44 or by using chemical reagents. 45 However, here we present a way to make solvent resistant and uniform films without the need for such treatment.…”

All slot-die coated organic solar cells using an amine processed cathode interlayer based upon an amino acid functionalised perylene bisimide

“…When designing solvent-resistant films, it is common for a post-treatment stage to be used postdeposition to generate this resistance. 42 Such methods require either putting energy into the system using heat 43 or UV light 44 or by using chemical reagents. 45 However, here we present a way to make solvent resistant and uniform films without the need for such treatment.…”

All slot-die coated organic solar cells using an amine processed cathode interlayer based upon an amino acid functionalised perylene bisimide

“…The study of organic luminescent materials has evolved into an important topic owing to their potential applications in organic lasers, photoswitches and organic electronics. 1 Different strategies have been employed to tune the electronic and, photophysical properties, stability, and durability of such materials. 2 Attractive photophysical properties were achieved by incorporating main-group elements in the framework of organic molecules.…”

Synthesis, structural, and photophysical properties of pyrazolyl bis(pentafluorophenyl)boron complexes

Improving Charge Transport and Environmental Stability of Carbohydrate‐Bearing Semiconducting Polymers in Organic Field‐Effect Transistors