Interest in organic molecular solids extends to a range of fields including chemistry, physics, electrical engineering, and materials science. In chemistry, it applies to such topics as solid state reactivity, crystal engineering, theoretical approaches to crystal structure determination, and morphology control. In physics, electrical engineering, and materials science, the possibility of producing organic-based materials (such as crystals, polymers, thin films, or liquid crystals) with potential electronic, opto-electronic, and magnetic uses is a major area of current research interest...

Supramolecular chemistry deals with the design, synthesis, and study of molecular structures held together by non-covalent interactions. Structures of this type are ubiquitous in nature and are frequently used as blueprints for the design of synthetic equivalents. This reference demonstrates the seminal importance of supramolecular chemistry and self-organization in the design and synthesis of novel organic materials, inorganic materials, and biomaterials. With contributions from leading workers in the field, the book shows how the bottom-up approach of supramolecular chemistry can be used...