Metal phthalocyanines (MPcs) are versatile conjugated macrocycles that have attracted a
great deal of interest as active components in modern organic electronic devices. In …

Organic field‐effect transistors (OFETs) show great application potential in organic electronic
and optoelectronic fields due to their excellent mechanical flexibility, low cost, and solution …

The variety of charge transport theories for organic semiconductors (OSCs) raises the
question of which models should be selected for each case, and there is a lack of …

Silicon phthalocyanines (R2–SiPcs) are an emerging class of high-performance n-type
semiconductors used in organic electronics, which historically have suffered from …

Biodegradability, low-voltage operation, and flexibility are important trends for the future
organic electronics. High-capacitance dielectrics are essential for low-voltage organic field …

Understanding the effect of surface chemistry on the dielectric–semiconductor interface, thin-
film morphology, and molecular alignment enables the optimization of organic thin-film …

Organic thin-film transistors (OTFTs) offer a promising solution for facile, low-cost, and large-
area fabrication of electronic circuitry. In the development of OTFTs, interface engineering …

Modulation of charge transport in an organic heterojunction sensor is a promising strategy to
enhance its gas sensing properties. Herein, a heterostructure consisting of a bilayer …

Wearable, disposable, implantable and lightweight electronic devices all require low power
consumption, typically less than 3 V. Polymerized ionic liquids represent an emerging class …

Enhancing charge injection from electrodes to the conducting channel and reducing the
contact resistance (Rc) are valid strategies not only to improve the performance of organic …