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100   $a20010417d2001      uy             0
101 0 $aeng
135   $aurcn|||||||||
181   $ctxt
182   $cc
183   $acr
200 14$aThe physical properties of organic monolayers$b[electronic resource] /$fMitsumasa Iwamoto, Wu Chen-Xu
210   $aSingapore ;$a[River Edge], NJ $cWorld Scientific$dc2001
215   $a1 online resource (216 p.)
300   $aDescription based upon print version of record.
311   $a981-02-4482-7 
320   $aIncludes bibliographical references and index.
327   $aPREFACE; CONTENTS; CHAPTER 1 INTRODUCTION; 1.1 Monolayer Structure and Monolayer Properties; 1.2 Surface Pressure/Area Isotherm; 1.3 Maxwell Displacement Current Measurement Technique; 1.4 Molecular Dynamics of Monolayer Films; References; CHAPTER 2 POLARIZATION AND DIELECTRIC CONSTANT FOR 2D MEDIA; 2.1 Polarization; 2.2 Spontaneous Polarization; 2.3 First Order Polarization and Dielectric Constant; 2.4 Nonlinear Polarization; 2.5 Summary; References; CHAPTER 3 MAXWELL DISPLACEMENT CURRENT METHOD; 3.1 Maxwell Displacement Current; 3.2 Maxwell Displacement Current by Monolayer Compression
327   $a3.3 MDC Generated across Organic Monolayers Consisting of Molecules with Dielectric Anisotropy 3.4 Phase Transition of Chiral Phospholipid Monolayers by Maxwell Displacement Current Measurement; 3.5 Maxwell Displacement Current by Photoirradiation; 3.6 Evaluation of Liquid Crystal Alignment Using MDC Technique; 3.7 Summary; References; CHAPTER 4 MONOLAYERS VIEWED AS POLAR LIQUID CRYSTALS; 4.1 Model and Internal Electric Fields; 4.2 Polar Orientational Phase Transition in Smectic Monolayers; 4.3 Change of Orientational Order Parameter at the Critical Point
327   $a4.4 Dielectric Properties Influenced by the Orientational Phase Transition 4.5 Summary; References; CHAPTER 5 DIELECTRIC RELAXATION PHENOMENA; 5.1 Rotational Debye Brownian Motion Model; 5.2 Relaxation Process at an Air-water Interface; 5.3 Determination of Dielectric Relaxation Time; 5.4 Summary; References; CHAPTER 6 CHIRAL PHASE SEPARATION; 6.1 Elastic Energy and Bragg-Williams Mixing Energy; 6.2 Chiral Phase Separation; 6.3 Discrete One-dimensional CPS Solution; 6.4 Summary; 6.5 Appendix; References; CHAPTER 7 NONLINEAR EFFECTS; 7.1 SOS in Orientational Order Parameters for Coo Monolayers
327   $a7.2 Chirality Representation 7.3 SHG-CD Effect; 7.4 SHG-MDC Measuring System; 7.5 Quantum Mechanical Analysis of Photoisomerization; 7.6 Summary; References; CHAPTER 8 THERMALLY-STIMULATED CURRENT; 8.1 Thermally-stimulated Current; 8.2 Depolarization due to Thermal Stimulation; 8.3 TSC Experiment; 8.4 Phase Transition; 8.5 Thermodynamics Approach to Monolayers; 8.6 Summary; References; CHAPTER 9 ELECTRONIC PROPERTIES AT MIM INTERFACES; 9.1 Tunneling Current and Electronic Device Applications; 9.2 Nanometric Interfacial Electrostatic Phenomena in Ultrathin Films; 9.3 I-V Characteristic
327   $a9.4 Summary References
330   $aThis book provides a fundamental physical picture of various phenomena occurring in organic monolayers, dealing with dielectric, elastic, and electronic properties. The dielectric properties are discussed in terms of orientational order parameters, which are used to interpret the dielectric spectrum observed through Maxwell displacement current measurement and optical second harmonic generation measurement. The elastic theory of organic monolayers is based on that of liquid crystals and emphasis is placed on the interfacial effect when discussing the electronic properties of organic monolayers
606   $aMonomolecular films
606   $aOrganic compounds
606   $aThin films
606   $aSurface chemistry
615  0$aMonomolecular films.
615  0$aOrganic compounds.
615  0$aThin films.
615  0$aSurface chemistry.
676   $a530.4/275
676   $a530.4275
676   $a541.33
700   $aIwamoto$b Mitsumasa$0622920
701   $aWu$b Chen-Xu$0738078
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910825444003321
996   $aPhysical properties of organic monolayers$91461725
997   $aUNINA