Organic Nanostructures

Product Description
In this Enrico Fermi School, the first one dedicated to advanced organic materials, the main research results and open problems in science and technology of organic nanostructures have been discussed; in particular, growth techniques, electronic and optical properties, device applications. The necessary background material has been covered and interdisciplinary aspects have been emphasized with the aim of a unified approach to the basic physical phenomena bridging the gap between standard graduate courses and the state of the art in the field. The lecturers have provided authoritative and comprehensive tutorial reviews of the main issues involved in the science and technology of organic materials and their nanostructures. In particular, the following topics have been specifically addressed: charge carrier mobility and transport properties, electrical conductivity of conjugated polymers, charge transfer states in organics, photorefractivity in organics, energy transfer processes in organics, photophysics and fast spectroscopy, technology of polymer electronics and light emitting devices.

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OpticaOptical Properties And Spectroscopy Of Nanomaterials

Product Description
Optical properties are among the most fascinating and useful properties of nanomaterials and have been extensively studied using a variety of optical spectroscopic techniques. A basic understanding of the optical properties and related spectroscopic techniques is essential for anyone who is interested in learning about nanomaterials of semiconductors, insulators or metal. This is partly because optical properties are intimately related to other properties and functionalities (e.g. electronic, magnetic, and thermal) that are of fundamental importance to many technological applications, such as energy conversion, chemical analysis, biomedicine, optoelectronics, communication, and radiation detection. Intentionally designed for upper-level undergraduate students and beginning graduate students with some basic knowledge of quantum mechanics, this book provides the first systematic coverage of optical properties and spectroscopic techniques of nanomaterials.

• Spectroscopic Techniques for Studying Optical Properties of Nanomaterials
• Other Experimental Techniques: Electron Microscopy and X-Ray
• Synthesis and Fabrication of Nanomaterials
• Optical Properties of Semiconductor Nanomaterials
• Optical Properties of Metal Oxide Nanomaterials
• Optical Properties of Metal Nanomaterials
• Optical Properties of Composite Nanostructures
• Charge Carrier Dynamics in Nanomaterials
• Applications of Optical Properties of Nanomaterials

BUY FROM AMAZON–>> OpticaOptical Properties And Spectroscopy Of Nanomaterials