A central vision in molecular electronics is the creation of devices with functional molecular
components that may provide unique properties. Proteins are attractive candidates for this …

Abstract Quoting the International Technology Roadmap for Semiconductors (ITRS) 2009
Emerging Research Devices section,'Nanomagnetic logic (NML) has potential advantages …

Molecular electronics is commonly conceived as reproducing diode or transistor action at
the molecular level. The quantum-dot cellular automata (QCA) approach offers an attractive …

Quantum-dot cellular automata (QCA) is an emerging nanotechnology, with the potential for
faster speed, smaller size, and lower power consumption than transistor-based technology …

Quantum-dot cellular automata (QCA) is an emerging nanotechnology for electronic circuits.
Its advantages such as faster speed, smaller size, and lower power consumption are very …

Understanding the nature of charge transfer mechanisms in 3-dimensional metal–organic
frameworks (MOFs) is an important goal owing to the possibility of harnessing this …

This review provides a comprehensive survey of the derivatization of hydrogen-terminated,
oxide-free silicon surfaces with electroactive assemblies (from molecules to polymers) …

In this Perspective, we highlight the non-innocent behaviour of the bridging ligand in
organometallic polynuclear metallic complexes displaying metal-carbon σ bonds between …

Field-coupled Nanocomputing (FCN) defines a class of post-CMOS nanotechnologies that
promises compact layouts, low power operation, and high clock rates. Recent breakthroughs …

This article reviews recent progress in the design and theoretical investigation of molecular
implementations of quantum-dot cellular automata (QCA) for field-coupled nanocomputing …