Heterogeneous interfaces that are ubiquitous in optoelectronic devices play a key role in the
device performance and have led to the prosperity of today's microelectronics. Interface …

Interfacial engineering has long been a vital means of improving thin-film device
performance, especially for organic electronics, perovskites, and hybrid devices. It greatly …

Self-assembly is possibly the most effective and versatile strategy for surface
functionalization. Self-assembled monolayers (SAMs) can be formed on (semi-) conductor …

The remarkable merits of 2D materials with atomically thin structures and optoelectronic
attributes have inspired great interest in integrating 2D materials into electronics and …

We review charge transport across molecular monolayers, which is central to molecular
electronics (MolEl), using large-area junctions (NmJ). We strive to provide a wide conceptual …

Organic semiconductors offer the potential for large-area deposition on substrates of flexible
or unique form factors and can be deposited at ambient conditions at low cost. They can be …

In its most compelling forms, large area electronics addresses a range of applications
outside those where monocrystalline Si and III-V integration are used, or it approaches those …

Two-dimensional atomic crystals are extensively studied in recent years due to their exciting
physics and device applications. However, a molecular counterpart, with scalable …

The fields of paper microfluidics and printed electronics have developed independently, and
are incompatible in many of their aspects (eg printed electronic thin films are not designed to …

Organic thin‐film transistors (OTFTs) offer unprecedented opportunities for implementation
in a broad range of technological applications spanning from large‐volume microelectronics …