Developments in nonclassical crystallization
Crystallization via nonclassical pathways is important during the formation of minerals in nature and has become a popular method to synthesize advanced materials at both lab and industrial scales. Unlike classical crystal growth pathways via monomer-by-monomer addition, crystallization via nonclassical pathways, such as particle-by-particle attachment, can form bigger crystals, faster. Understanding nonclassical crystallization can aid the recognition of geochemical processes in nature and provide new insight into the design and synthesis of novel materials. This book examines topics such as nonclassical nucleation, cluster assembly, particle-based crystallization, crystal formation from amorphous intermedium phases, biomineralization via nonclassical pathways, theoretical developments to simulate nonclassical crystallization, and observation and application of nonclassical crystallization. Experienced researchers can learn more about the development of new techniques, and readers in fields such as energy, catalysis, biomedicine, optics, electrics, and magnetics will find this work useful.
