Excitonic And Vibrational Dynamics In Nanotechnology: Quantum Dots Vs. Nanotubes

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E-Book Overview

Rapid advances in chemical synthesis and fabrication techniques have led to novel nano-sized materials that exhibit original and often unforeseen properties. One of the greatest advantages of these nano-systems is that their electronic and optical properties can be controlled, not only by the material's inherent features, but also by the sample's size, shape, and topology. This flexibility makes them ideal for applications in several fields, ranging from electronics and optoelectronics to biology and medicine. However, in order to design nanoelectronic devices, a clear understanding of their fundamental properties is needed. Semiconductor quantum dots (QDs) and single-walled carbon nanotubes (SWCNTs) are two of the most promising examples of low-dimensional nanomaterials. These two types of nano-systems have been chosen for the extensive studies presented in this book. The book investigates QDs and SWCNTs using quantum-chemical calculations that describe intricate details of excited state phenomena, and provides information about the mechanisms that occur on the atomic level and that are extremely difficult if not impossible to probe experimentally. It delivers, consistently and coherently, a novel approach to the nanomaterials which is promising for today's technologies as well as their future. This approach elegantly overcomes computational difficulties known in the field, and shares ways to reach top performance in description of combined quantum effects of molecular vibrations and exciton formation on the realistic size numerical models. The reader will acquire the pioneering methodology supported by most recent original results, prospectively applicable to the design of new nano-devices.

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E-Book Information

• Year: 2,009

• Pages: 202

• Pages In File: 202

• Language: English

• Topic: 224

• Identifier: 981424130X,9789814241304

• Ddc: 620/.5

• Lcc: T174.7 .K55 2009

• Paginated: 1

• Org File Size: 49,732,637

• Extension: pdf

• Tags: Специальные дисциплины Наноматериалы и нанотехнологии

• Toc: Contents......Page 10Preface......Page 81. Introduction......Page 141.1 Common Features of Low-Dimensional Nanomaterials......Page 151.2 Intriguing Phenomena in Quantum Dots and Potential Applications......Page 171.3 Advantages and Challenges of Technological Applications of Carbon Nanotubes......Page 211.4 Excitonic Character and Numerical Approaches to QDs and SWCNTs......Page 242. Electronic Structure and Phonon-Induced Carrier Relaxation in CdSe and PbSe Quantum Dots......Page 302.1.1 Theoretical Considerations of Electronic and Optical Properties of Quantum Dots......Page 312.1.2 Dependence of Electronic Structure on a Host Material: CdSe and PbSe Quantum Dots......Page 362.1.3 Experimental Rates of Carrier Relaxation in Quantum Dots: Phonon Bottleneck Problem......Page 402.2 Simulations of Nonadiabatic Dynamics: Trajectory Surface Hopping (TSH) in Density Functional Theory (DFT)......Page 4