Description

Book Synopsis

The book covers a broad multidisciplinary arena including applications for energy conservation, materials performance enhancement, electronic circuitry, video displays, lighting, photovoltaics, quantum computing, memory, chemo- and biosensors, pharmaceuticals and medical diagnostics inter alia. It presents a comprehensive introductory overview of the photophysics, instrumentation and experimental methodology of nanomaterial luminescence. Invited experts highlight more specific advanced research areas that have either shown potential for, or have already realized, significant impact on the day-to-day aspects of modern life and the world economy.



Table of Contents

Preface
Important Spectral and Polarized Properties of Semiconducting SWNT Photoluminescence Shigeo Maruyama and Yuhei Miyauchi
Important Spectral Features
Phonon Sideband in Absorption
Various Sidebands in Emission
Cross-Polarized Absorption
Transverse Quasi-Dark Excitons
Advanced Aspects of Photoluminescence Instrumentation for Carbon Nanotubes Said Kazaoui, Y. Futami, Konstantin Iakoubovskii, and Nobutsugu Minami
Introduction
CNT Thin-Film Fabrication Methods
NIR-PL-Mapping Instruments
Outlook
Developments in Catalytic Methodology for (n,m) Selective Synthesis of SWNTs Yuan Chen, Bo Wang, Yanhui Yang, and Qiang Wang
Introduction
Effective Catalysts for (n,m) Selective Synthesis
Growth Parameters Influencing (n,m) Selectivity
Fundamental Understanding of (n,m) Selectivity
Characterization Methodology for (n,m) Abundance Evaluation
Conclusions and Outlook
Single-Walled Carbon Nanotube Thin-Film Electronics Husnu Emrah Unalan and Manish Chhowalla
Introduction
Purification and Dispersion of SWNTs
Thin-Film Deposition Processes
Optoelectronic Properties of SWNTs
SWNT Functionalization Treatments
Applications and Devices
Conclusions and Outlook
Single-Walled Carbon Nanotube-Based Solution-Processed Organic Optoelectronic Devices Ming Shao and Bin Hu
Introduction
Effects of SWCNTs on the Electroluminescent Performance of Organic Light-Emitting Diodes
CNT Effect on Photovoltaic Response in Conjugated Polymers
Exciton Energy Transfer in Carbon Nanotubes Probed by Photoluminescence Ping Heng Tan, Tawfique Hasan, Francesco Bonaccorso, and Andrea C. Ferrari
Introduction

The Photoluminescence Spectrum of Nanotube Bundles
Mechanism and Efficiency of EET in Nanotube Bundles
How to Distinguish EET-Induced Features from Other Sidebands in the PL Spectrum?
Relaxation Pathways of Excitons in Nanotube Bundles
How to Detect Bundles and Probe Their Concentration?
Exploiting EET for Photonic and Optoelectronic Applications
Conclusions
Advances in Dispersal Agents and Methodology for SWNT Analysis Tsuyohiko Fujigaya and Naotoshi Nakashima
Introduction
Characterization of Dispersion States
Solubilization by Dispersal Agents
Nanotube/Polymer Composites
Summary
Time Domain Luminescence Instrumentation Graham Hungerford, Kulwinder Sagoo, and David McLoskey
Introduction
Overview
Light Sources
Detectors
Data Acquisition Electronics
Time-Resolved Measurement System Considerations
Summary
Key Approaches to Linking Nanoparticle Metrology and Photoluminescence Yu Chen, Jan Karolin, and David J. S. Birch
Introduction
Fluorescence Anisotropy Theory
Experimental
Results and Discussions
Conclusions
Nanometer-Scale Measurements Using FRET and FLIM Microscopy Margarida Barroso, Yuansheng Sun, Horst Wallrabe, and Ammasi Periasamy
Introduction
FRET Microscopy
Choosing FRET Pairs
Organic Dye Donor–Acceptor FRET Pair: AF488–AF555
FP Donor–Acceptor FRET Pair: mTFP-mKO2
QD–Organic Dye FRET Pairs: QD566–AF568 and QD580–AF594
Conclusions and Outlook
Cancer Detection and Biosensing Applications with Quantum Dots Ken-Tye Yong
Introduction
Preparation of Quantum Dots with the Hot Colloidal Synthesis Method
Types of Quantum Dots Available for Biomedical and Cancer Applications
Preparation of Water-Dispersible Quantum Dots
Preparation of Bioconjugated Quantum Dots
Bioconjugated Quantum Dots and Quantum Rods for in vitro Cancer Imaging and Sensing
Multifunctional Quantum Dots and Quantum Rods for in vivo Cancer Targeting and Imaging

The Risk and Benefits of Using Functionalized Quantum Dots for Biomedical Health Care
Conclusions and Outlook
Zinc Oxide Nanoparticles in Biosensing Applications Linda Y. L. Wu
Introduction
Particle Size Control through Chemical Synthesis and Surface Modifications
Bandgap Modification for Visible Emission
Bioimaging Using ZnO Nanocrystals
Cytotoxicity Tests
Conclusions and Outlook
Use of QDOT Photoluminescence for Codification and Authentication Purposes Shoude Chang
Introduction
QDOTs Used as Information Carriers
Information Encoding
Information Retrieval
Applications
Conclusions and Outlook
Characterization Approaches for Blue and White Phosphorescent OLEDs Brian W. D’Andrade
Introduction
Blue Electrophosphorescence
White Organic Light-Emitting Device
Index

Luminescence: The Instrumental Key to the Future

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    A Hardback by Adam M. Gilmore

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      Publisher: Pan Stanford Publishing Pte Ltd
      Publication Date: 21/12/2013
      ISBN13: 9789814241953, 978-9814241953
      ISBN10: 9814241954
      Also in:
      Nanotechnology

      Description

      Book Synopsis

      The book covers a broad multidisciplinary arena including applications for energy conservation, materials performance enhancement, electronic circuitry, video displays, lighting, photovoltaics, quantum computing, memory, chemo- and biosensors, pharmaceuticals and medical diagnostics inter alia. It presents a comprehensive introductory overview of the photophysics, instrumentation and experimental methodology of nanomaterial luminescence. Invited experts highlight more specific advanced research areas that have either shown potential for, or have already realized, significant impact on the day-to-day aspects of modern life and the world economy.



      Table of Contents

      Preface
      Important Spectral and Polarized Properties of Semiconducting SWNT Photoluminescence Shigeo Maruyama and Yuhei Miyauchi
      Important Spectral Features
      Phonon Sideband in Absorption
      Various Sidebands in Emission
      Cross-Polarized Absorption
      Transverse Quasi-Dark Excitons
      Advanced Aspects of Photoluminescence Instrumentation for Carbon Nanotubes Said Kazaoui, Y. Futami, Konstantin Iakoubovskii, and Nobutsugu Minami
      Introduction
      CNT Thin-Film Fabrication Methods
      NIR-PL-Mapping Instruments
      Outlook
      Developments in Catalytic Methodology for (n,m) Selective Synthesis of SWNTs Yuan Chen, Bo Wang, Yanhui Yang, and Qiang Wang
      Introduction
      Effective Catalysts for (n,m) Selective Synthesis
      Growth Parameters Influencing (n,m) Selectivity
      Fundamental Understanding of (n,m) Selectivity
      Characterization Methodology for (n,m) Abundance Evaluation
      Conclusions and Outlook
      Single-Walled Carbon Nanotube Thin-Film Electronics Husnu Emrah Unalan and Manish Chhowalla
      Introduction
      Purification and Dispersion of SWNTs
      Thin-Film Deposition Processes
      Optoelectronic Properties of SWNTs
      SWNT Functionalization Treatments
      Applications and Devices
      Conclusions and Outlook
      Single-Walled Carbon Nanotube-Based Solution-Processed Organic Optoelectronic Devices Ming Shao and Bin Hu
      Introduction
      Effects of SWCNTs on the Electroluminescent Performance of Organic Light-Emitting Diodes
      CNT Effect on Photovoltaic Response in Conjugated Polymers
      Exciton Energy Transfer in Carbon Nanotubes Probed by Photoluminescence Ping Heng Tan, Tawfique Hasan, Francesco Bonaccorso, and Andrea C. Ferrari
      Introduction

      The Photoluminescence Spectrum of Nanotube Bundles
      Mechanism and Efficiency of EET in Nanotube Bundles
      How to Distinguish EET-Induced Features from Other Sidebands in the PL Spectrum?
      Relaxation Pathways of Excitons in Nanotube Bundles
      How to Detect Bundles and Probe Their Concentration?
      Exploiting EET for Photonic and Optoelectronic Applications
      Conclusions
      Advances in Dispersal Agents and Methodology for SWNT Analysis Tsuyohiko Fujigaya and Naotoshi Nakashima
      Introduction
      Characterization of Dispersion States
      Solubilization by Dispersal Agents
      Nanotube/Polymer Composites
      Summary
      Time Domain Luminescence Instrumentation Graham Hungerford, Kulwinder Sagoo, and David McLoskey
      Introduction
      Overview
      Light Sources
      Detectors
      Data Acquisition Electronics
      Time-Resolved Measurement System Considerations
      Summary
      Key Approaches to Linking Nanoparticle Metrology and Photoluminescence Yu Chen, Jan Karolin, and David J. S. Birch
      Introduction
      Fluorescence Anisotropy Theory
      Experimental
      Results and Discussions
      Conclusions
      Nanometer-Scale Measurements Using FRET and FLIM Microscopy Margarida Barroso, Yuansheng Sun, Horst Wallrabe, and Ammasi Periasamy
      Introduction
      FRET Microscopy
      Choosing FRET Pairs
      Organic Dye Donor–Acceptor FRET Pair: AF488–AF555
      FP Donor–Acceptor FRET Pair: mTFP-mKO2
      QD–Organic Dye FRET Pairs: QD566–AF568 and QD580–AF594
      Conclusions and Outlook
      Cancer Detection and Biosensing Applications with Quantum Dots Ken-Tye Yong
      Introduction
      Preparation of Quantum Dots with the Hot Colloidal Synthesis Method
      Types of Quantum Dots Available for Biomedical and Cancer Applications
      Preparation of Water-Dispersible Quantum Dots
      Preparation of Bioconjugated Quantum Dots
      Bioconjugated Quantum Dots and Quantum Rods for in vitro Cancer Imaging and Sensing
      Multifunctional Quantum Dots and Quantum Rods for in vivo Cancer Targeting and Imaging

      The Risk and Benefits of Using Functionalized Quantum Dots for Biomedical Health Care
      Conclusions and Outlook
      Zinc Oxide Nanoparticles in Biosensing Applications Linda Y. L. Wu
      Introduction
      Particle Size Control through Chemical Synthesis and Surface Modifications
      Bandgap Modification for Visible Emission
      Bioimaging Using ZnO Nanocrystals
      Cytotoxicity Tests
      Conclusions and Outlook
      Use of QDOT Photoluminescence for Codification and Authentication Purposes Shoude Chang
      Introduction
      QDOTs Used as Information Carriers
      Information Encoding
      Information Retrieval
      Applications
      Conclusions and Outlook
      Characterization Approaches for Blue and White Phosphorescent OLEDs Brian W. D’Andrade
      Introduction
      Blue Electrophosphorescence
      White Organic Light-Emitting Device
      Index

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