Single-molecule magnets (SMMs) have been proposed for applications in high-density
storage, quantum simulation, quantum computing and spintronics applications. Bulk …

A revolution in electronics is in view, with the contemporary evolution of the two novel
disciplines of spintronics and molecular electronics. A fundamental link between these two …

The ability to assemble weakly interacting subsystems is a prerequisite for implementing
quantum information processing and generating controlled entanglement. In recent years …

Molecular nanomagnets (MNMs), molecules containing interacting spins, have been a
playground for quantum mechanics. They are characterized by many accessible low-energy …

Magnetic clusters, ie, assemblies of a finite number (between two or three and several
hundred) of interacting spin centers which are magnetically decoupled from their …

An enormous family of heterometallic rings has been made. The first were Cr7M rings where
M= NiII, ZnII, MnII, and rings have been made with as many as fourteen metal centers in the …

Quantum information processing (QIP) could revolutionize how we simulate and understand
quantum systems. Any QIP scheme requires both individual units (qubits) that have long …

Recent advances on the organization and characterization of [Mn12] single molecule
magnets (SMMs) on a surface or in 3D are reviewed. By using nonconventional techniques …

Entanglement is a crucial resource for quantum information processing and its detection and
quantification is of paramount importance in many areas of current research. Weakly …

Molecular nanomagnets are attractive candidate qubits because of their wide inter-and intra-
molecular tunability. Uniform magnetic pulses could be exploited to implement one-and two …