For a considerable time now, chemists have been driven to synthesize atomically accurate nanoclusters, not only to solve some basic problems that imprecise nanoparticles could not solve, but also to open up new possibilities for applications in biomedicine, optics, and catalysis. A group of eminent scientists has produced Atomically Precise Nanochemistry, a cutting-edge resource for academics and business professionals engaged in cluster science and nanoscience across disciplines including chemistry, physics, biology, materials science, and engineering.

Many types of nanoclusters are discussed: large-scale organometallic nano-architectures, carbon clusters, metal-oxide systems, semiconductor nanoclusters, metal-oxide systems, and supramolecular architectures. Along with theoretical insights into the atomic and electronic structures as well as the catalytic mechanisms, the book also includes experimental contributions. Each kind of nanocluster is examined by the writers in terms of synthesis, geometry, bonding, and applications.

Atomically Precise Nanochemistry is ideal for researchers in the fields of nanoscience, nanotechnology, and materials chemistry. It will also be helpful to professionals in these fields who are looking for a current and useful resource.