Atomically Precise Nanochemistry
Explore recent progress and developments in atomically precise nanochemistry
Chemists have long been motivated to create atomically precise nanoclusters, not only for addressing some fundamental issues that were not possible to tackle with imprecise nanoparticles, but also to provide new opportunities for applications such as catalysis, optics, and biomedicine. In Atomically Precise Nanochemistry, a team of distinguished researchers delivers a state-of-the-art reference for researchers and industry professionals working in the fields of nanoscience and cluster science, in disciplines ranging from chemistry to physics, biology, materials science, and engineering.
A variety of different nanoclusters are covered, including metal nanoclusters, semiconductor nanoclusters, metal-oxo systems, large-sized organometallic nano-architectures, carbon clusters, and supramolecular architectures. The book contains not only experimental contributions, but also theoretical insights into the atomic and electronic structures, as well as the catalytic mechanisms. The authors explore synthesis, structure, geometry, bonding, and applications of each type of nanocluster.
Perfect for researchers working in nanoscience, nanotechnology, and materials chemistry, Atomically Precise Nanochemistry will also benefit industry professionals in these sectors seeking a practical and up-to-date resource.
İçerik tablosu
1 Introduction to Atomically Precise Nanochemistry
2 Total Synthesis of Thiolate-Protected Noble Metal Nanoclusters
3 Thiolated gold nanoclusters with well-defined compositions and structures
4 Structural Design of Thiolate-Protected Gold Nanoclusters
5 Electrocatalysis on Atomically Precise Metal Nanoclusters
6 Atomically Precise Metal Nanoclusters as Electrocatalysts: From Experiment to Computational Insights
7 Ag nanoclusters: synthesis, structure and properties
8 Atomically Precise Copper Nanoclusters: Syntheses, Structures, and Properties
9 Atomically Precise Nanoclusters of Iron, Cobalt, and Nickel: Why are They So Rare?
10 Atomically precise heterometallic rhodium nanoclusters stabilized by carbonyl ligands
11 Endohedral fullerenes: Atomically precise doping inside nano carbon cages
12 On-surface synthesis of polyacenes and narrow band-gap graphene nanoribbons
13 A Branch of Zintl Chemistry: Metal Clusters of Group 15 Elements
14 Exploration of Controllable Synthesis and Structural Diversity of Titanium-Oxo Clusters
15 Atom-Precise Cluster-Assembled Materials: Requirement and Progresses
16 Coinage Metal Cluster-Assembled Materials
Yazar hakkında
Rongchao Jin is a leading expert in experimental work on atomically precise nanochemistry working in the Department of Chemistry at Carnegie Mellon University in the United States.
De-en Jiang is a leading theorist on atomically precise nanochemistry working in the Chemical and Biomolecular Engineering Department at Vanderbilt University in the United States.