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Organic ion‐gated transistors (OIGTs) demonstrate commendable performance for versatile neuromorphic systems. However, due to the fragility of organic materials to organic solvents, efficient and reliable all‐photolithography methods for scalable manufacturing of high‐density OIGT arrays with multimode neuromorphic functions are still missing, especially when all active layers are patterned in high‐density...
Organic optoelectronic synaptic devices that can reliably operate in high‐temperature environments (i.e., beyond 121°C) or remain stable after high‐temperature treatments have significant potential in biomedical electronics and bionic robotic engineering. However, it is challenging to acquire this type of organic devices considering the thermal instability of conventional organic materials and the...