skip to content
Thin-film organic photonics : molecular layer deposition and applications
ClosePreview this item

Thin-film organic photonics : molecular layer deposition and applications

Author: Tetsuzo Yoshimura
Publisher: Boca Raton, FL : CRC Press, ©2011.
Series: Optics and photonics, 4.
Edition/Format:  Book : EnglishView all editions and formats
Summary:
"This book describes how photonic/electronic properties of thin films can be improved by precise control of atomic and molecular arrangements, and demonstrates the prospect of the artificial materials with atomic/molecular-level tailored structures, especially featuring MLD and conjugated polymers with multiple quantum dots (MQDs) called as polymer MQDs. It also describes other related topics including organic  Read more...
You are not connected to the UC Davis Libraries network. Access to online content and services may require you to authenticate with your library. Off-Campus Access

Find a copy in the library

WorldCat

Find it in libraries globally
Worldwide libraries own this item

Details

Document Type: Book
All Authors / Contributors: Tetsuzo Yoshimura
ISBN: 9781439819739 1439819734
OCLC Number: 651914986
Notes: "A CRC title."
Description: xv, 354 p. : ill. ; 24 cm.
Contents: Introduction Atomic/Molecular Assembling Technologies Similarity of Electronic Waves to Light Waves Scanning Tunneling Microscopy (STM) Molecular Beam Epitaxy (MBE) Atomic Layer Deposition (ALD) Plasma Chemical Vapor Deposition (Plasma CVD) Sputtering Vacuum Deposition Polymerization Fundamentals of Molecular Layer Deposition (MLD) Concept of MLD MLD Equipment Proof of Concept of MLD MLD with Controlled Growth Orientations and Locations High-Rate MLD Selective Wire Growth Mass Production Process for Nano-Scale Devices Fabricated by MLD Examples of Goals Achieved by MLD Fabrication of Multiple-Quantum Dots (MQDs) by MLD Fundamentals of Quantum Dots Quantum Dot Construction in Conjugated Polymers by MLD Theoretical Predictions of Electro-Optic (EO) Effects in Polymer Wires Molecular Orbital Method Nonlinear Optical Effects Procedure for Evaluation of the EO Effects by the Molecular Orbital Method Qualitative Guidelines for Improving Optical Nonlinearities Enhancement of Second-Order Optical Nonlinearity of by Controlling Wavefunctions Enhancement of Third-Order Optical Nonlinearity by Controlling Wavefunctions Multiple Quantum Dots (MQDs) in Conjugated Polymer Wires Design of Integrated Optical Switches Variable Well Optical ICs (VWOICs) and Waveguide Prism Deflectors (WPDs) Nano-Scale Optical Switches Organic Photonic Materials, Devices, and Integration Processes Electro-Optic EO Materials Optical Waveguides Fabricated by Selective Wire Growth Nano-Scale Waveguides of Photo-Induced Refractive Index Increase Sol-Gel Materials Self-Organized Lightwave Network (SOLNET) for Self-Aligned Optical Couplings and Vertical Waveguides Resource-Saving Heterogeneous Integration Optical Waveguide Films with Vertical Mirrors and 3-D Optical Circuits Applications to Optical Interconnects and Optical Switching Systems 3-D Optoelectronic (OE) Platform Based on Scalable Film Optical Link Module (S-FOLM) Optical Interconnects within Boxes 3-D Micro Optical Switching System (3D-MOSS) Applications to Solar Energy Conversion Systems Sensitized Photovoltaic Devices Integrated Solar Energy Conversion Systems Novel Structures of Photovoltaic and Photosynthesis Devices Waveguide-Type Photovoltaic Devices with a Charge Storage/Photosynthesis Function Proposed Applications to Biomedical Photonics Therapy for Cancer Utilizing Liquid-Phase MLD Indicator for Reflective or Emissive Targets Utilizing R-SOLNET Integrated Photoluminescence Analysis Chips Molecular Recognition Chip
Series Title: Optics and photonics, 4.
Responsibility: Tetsuzo Yoshimura.

Abstract:

"This book describes how photonic/electronic properties of thin films can be improved by precise control of atomic and molecular arrangements, and demonstrates the prospect of the artificial materials with atomic/molecular-level tailored structures, especially featuring MLD and conjugated polymers with multiple quantum dots (MQDs) called as polymer MQDs. It also describes other related topics including organic electro-optic materials, optical switches, optical circuits, the selforganized lightwave network (SOLNET), a resource-saving heterogeneous integration process, etc. Some applications of the artificial organic thin films to photonics/ electronics are proposed in the fields of optical interconnects within boxes of computers, optical switching systems, solar energy conversion systems, and bio/medicalphotonics like the photodynamic therapy. I would like to thank Prof. K. Asama of Tokyo University of Technology for his helpful advice and encouragement, Drs. K. Kiyota, A. Matsuura, T. Hayano, W. Sotoyama, and S. Tatsuura of Fujitsu Laboratories, Ltd., and students who joined Yoshimura Laboratory in Tokyo University of Technology for their collaboration in the research work that contributes to the writing of this book. I would also like to thank colleagues in Fujitsu Computer Packaging Technologies (FCPT), Inc., San Jose, California. Finally, I would like to express my sincere gratitude to Ms. Ashley Gasque and Ms. Catherine Giacari of CRC Press/Taylor & Francis for giving me the great opportunity to write this book, and Ms. Amy Blalock, Mr. John Edwards, and Mr. Michael Davidson for their help in completing this book"--Provided by publisher.

Reviews

Editorial reviews

Publisher Synopsis

... deals with interesting topics about a new technique for highly-ordered structures and high-performance optoelectronic properties of organic molecules... . -- Atsushi Kubono, Shizuoka University

 
User-contributed reviews

Tags

Be the first.
Confirm this request

You may have already requested this item. Please select Ok if you would like to proceed with this request anyway.

Close Window

Please sign in to WorldCat 

Don't have an account? You can easily create a free account.

Cancel Forgot your password?