NANOSCALE
INTERFACE FOR ORGANIC ELECTRONICS
edited by Mitsumasa Iwamoto (Tokyo
Institute of Technology, Japan), Young-Soo
Kwon (Dong-A University,
Korea) & Takhee Lee (Gwangju
Institute of Science and Technology,
Korea)
388pp
978-981-4322-48-5: US$120 / £74
US$84 / £51.80
978-981-4322-49-2(ebook): US$156
US$109.20
Table
of Contents (52k)
Preface
(546k)
Chapter
1: Introduction to Nanoscale Interface
(145k)
The scope of this
book will be focused on the interface
issues and problems in organic materials
as electronic device applications. The
organic material electronics is a
rapidly progressing field for potential
applications in flexible field effect
transistors, plastic solar cells,
organic luminescent devices, etc.
However, the
performance of these organic devices is
still not sufficient. To enhance the
understanding and practical applications
of organic devices, we need to
understand the fundamental organic
device physics which is somewhat
different from the conventional
inorganic device physics. This book will
discuss the detailed progress in these
topics.
Contents:
- Nanoscale Interface:
- Introduction to Nanoscale
Interface (M Iwamoto et al.)
- Analysis of Contact Resistance
and Space-Charge Effects in
Organic Field-Effect Transistors (M
Weis et al.)
- Interface Control of
Vertical-Type Ortanic Transistors
(Y Watanabe & K Kudo)
- Electrochemical Properties of
Self-Assembled Viologen Derivative
and Its Application to Hydrogen
Peroxide Detecting Sensor (D-Y
Lee et al.)
- Zinc (II), Iridium (III) and Tin
(IV) Complexes for Nanoscale OLED
Devices (T D Hoanh & B-J
Lee)
- Structure Optimization for High
Efficiency White Organic
Light-Emitting Diodes (J H Seo
et al.)
- Molecular Electronics:
- Statistical Analysis of
Electronic Transport Properties of
Alkanethiol Molecular Junctions (T-W
Kim et al.)
- A Hysteric Current/Voltage
Response of Redox-Active Ruthenium
Complex Molecules in
Self-Assembled Monolayers (K
Seo et al.)
- Characteristics of Charge
Transport and Electric Conduction
in Viologen Self-Assembled
Monolayers (N-S Lee et al.)
- Time-Averaged Deuterium NMR
Studies of the Dynamic Properties
for a Low Molar Mass Nematic (A
Sugimura & G R Luckhust)
- Training and Fatigue of
Conducting Polymer Artificial
Muscles (K Kaneto)
- Polymer Electronics:
- Surface Plasmon Excitations and
Emission Lights in Nanostructured
Organic Films (K Kato)
- Morphology Control of
Nanostructured Conjugated Polymer
Films (M Onoda & K Tada)
- Way of Roll-to-Roll Printed
13.56 MHz Operated RFID Tags (M
Jung et al.)
- Physical Vapor Deposition of
Polymer Thin Films and Its
Application to Organic Devices (H
Usui)
- Nanoscale Bioelectronic Device
Consisting of Biomolecules (J-W
Choi et al.)
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