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Infochemistry: Information Processing at the Nanoscale , defines a new field of science, and describes the processes, systems and devices at the interface between chemistry and information sciences. The book is devoted to the application of molecular species and nanostructures to advanced information processing. It includes the design and synthesis of suitable materials and nanostructures, their characterization, and finally applications of molecular species and nanostructures for information storage and processing purposes. Divided into twelve chapters; the first three chapters serve as an…mehr

Produktbeschreibung
Infochemistry: Information Processing at the Nanoscale , defines a new field of science, and describes the processes, systems and devices at the interface between chemistry and information sciences. The book is devoted to the application of molecular species and nanostructures to advanced information processing. It includes the design and synthesis of suitable materials and nanostructures, their characterization, and finally applications of molecular species and nanostructures for information storage and processing purposes.
Divided into twelve chapters; the first three chapters serve as an introduction to the basic concepts of digital information processing, its development, limitations and finally introduces some alternative concepts for prospective technologies. Chapters four and five discuss traditional low-dimensional metals and semiconductors and carbon nanostructures respectively, while further chapters discuss Photoelectrochemical photocurrent switching and related phenomena and self-organization and self-assembly. Chapters eight, nine and ten discuss information processing at the molecular level, and eleven describes information processing in natural systems. The book concludes with a discussion of the future prospects for the field.

Further topics:

Traditional electronic device development is rapidly approaching a limit, so molecular scale information processing is critical in order to meet increasing demand for high computational power
Characterizes chemical systems not according to their chemical nature, but according to their role as prospective information technology elements
Covers the application of molecular species and nanostructures as molecular scale logic gates, switches, memories, and complex computing devices
This book will be of particular interest to researchers in nanoelectronics, organic electronics, optoelectronics, chemistry and materials science.

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Autorenporträt
Konrad Szacilowski is Professor of Inorganic Chemistry at AGH University of Science and Technology, and Associate Professor in Chemistry at Jagiellonian University, Poland. His research interests are focused mainly on information processing at the molecular level, surface engineering of nanocrystalline materials, photoelectrochemistry of wide band gap semiconductors, and molecular nanoelectronics.