Polymer semiconductors composed of a carbon-based π conjugated backbone have been
studied for several decades as active layers of multifarious organic electronic devices. They …

This review paper gives an overview of recent developments in nanoparticle research and
semiconductor industry applications. Nanoparticles have become useful building blocks for …

Electronic doping in organic materials has remained an elusive concept for several
decades. It drew considerable attention in the early days in the quest for organic materials …

Chemical doping is a key process for investigating charge transport in organic
semiconductors and improving certain (opto) electronic devices,,,,,,,–. N (electron)-doping is …

The high trap density (generally 1016 to 1018 cm− 3) in thin films of organic semiconductors
is the primary reason for the inferior charge‐carrier mobility and large nonradiative …

Electrical doping (that is, intentional engineering of carrier density) underlies most energy-
related and optoelectronic semiconductor technologies. However, for the intensely studied …

Chemical doping of organic semiconductors (OSCs) enables feasible tuning of carrier
concentration, charge mobility, and energy levels, which is critical for the applications of …

The weak intermolecular interactions inherent in organic semiconductors make them
susceptible to defect formation, resulting in localized states in the band-gap that can trap …

The urgent need for ecofriendly, stable, long‐lifetime power sources is driving the booming
market for miniaturized and integrated electronics, including wearable and medical …

Organic light-emitting diodes (OLEDs) have rapidly grown as one of the leading
technologies for full-color display panels and eco-friendly lighting sources due to their …