High-Performance n-Type Stretchable Semiconductor Blends for Organic Thin-Film Transistors and Artificial Synapses

Abstract: The design of high-performance stretchable n-type semiconductors is important in the construction of complementary circuits for flexible electronics. Herein, we propose a strategy by blending an electron transport-conjugated polymer poly(7,7′difluoro-N,N′-bis(6-(trioctylsilyl)hexyl)-isoindigo-alt-(E)-1,2-bis-(3,4-difluorothien-2-yl)ethene) (IID-SiC8) with a hole transport elastic block copolymer poly[2,5-bis(3-tetradecylthiophen-2-yl)thieno[3,2-b]thiophene]-block-hydrogenated hydroxyl-terminated polybutadiene … Show more

“…43,44 Polymer semiconductors are mainly π-conjugated polymers that achieve interchain charge transport through π–π stacking, and their charge transport properties are comparable to those of amorphous silicon. 45–47 Compared to inorganic materials, organic materials can tune the band gap of OSCs through appropriate molecular design to achieve tunable optoelectronic properties. In addition, organic materials have the advantages of low cost, solution processability, lightweight, and intrinsic flexibility, and are considered to be the most promising photosensitive materials with unique advantages in the field of developing flexible, wearable artificial visual devices.…”

Recent progress of organic photonic synaptic transistors for artificial visual systems: structure configuration and innovative applications

“…43,44 Polymer semiconductors are mainly π-conjugated polymers that achieve interchain charge transport through π–π stacking, and their charge transport properties are comparable to those of amorphous silicon. 45–47 Compared to inorganic materials, organic materials can tune the band gap of OSCs through appropriate molecular design to achieve tunable optoelectronic properties. In addition, organic materials have the advantages of low cost, solution processability, lightweight, and intrinsic flexibility, and are considered to be the most promising photosensitive materials with unique advantages in the field of developing flexible, wearable artificial visual devices.…”

Recent progress of organic photonic synaptic transistors for artificial visual systems: structure configuration and innovative applications

“…Research on n-type semiconductor-based three-terminal synaptic devices is being actively conducted using various semiconductor materials including oxide semiconductors, polymers, and silicon . In contrast, research on p-type semiconductor-based synaptic devices is mainly limited to organic-based semiconductors, which are unstable and cannot achieve high levels of integration.…”

Inorganic p-Type Tellurium-Based Synaptic Transistors: Complementary Synaptic Pairs with n-Type Devices for Energy-Efficient Operation