Part I
I. OPTICAL PROPERTIES OF ORGANIC MOLECULES AND CRYSTALS
A. Introduction
B. Molecular excited states
C. Spectral properties
D. Excited states of aggregates of molecules
E. Generation of excitons
F. Motion of excitons in molecular systems
G. Exciton processes
II. SINGLE POSITIVE OR NEGATIVE CARRIERS IN ORGANIC CRYSTALS
A. Introduction
B. Isolated molecules with excess charges
C. Crystals with excess positive or negative charges
D. Defects and trapped charge
E. Charge injection mechanisms at surfaces
F. Carrier transport
G. Steady current flow
H. Thermally stimulated current flow
I. Chemical effects accompanying the discharge of electrons and
holes at electrolytic surfaces
J. Photovoltaic effect
III. PRODUCTION OF CARRIER PAIRS IN THE BULK
A. Carrier generation mechanisms
B. Carrier recombination
IV. PHOTOEMISSION FROM ORGANIC MOLECULAR CRYSTALS
A. Introduction
B. Detection of photoemission
C. Theory of photoemission from solids
D. Photoemission from organic molecular crystals
E. Multiquantum processes as studied by photoemission
spectroscopy
F. Photophoretic spectroscopy
V. MATERIALS WITH HIGH DARK CONDUCTIVITY
A. Introduction
B. Radical-ion salt crystals
C. Charge transfer complexes
D. General properties of one-dimensional crystals
E. Polymeric sulfur nitride (SN)[x
F. Superconducting organic radical-ion salts
VI. MISCELLANEOUS SYSTEMS
A. Introduction
B. Dyes
C. Phthalocyanines
D. Polydiacetylenes
E. Polymers
F. Liquids
Part II
VII. ELECTRONIC PROCESSES IN POLYACETYLENE (PA)
A. Theory
B. Electronic structure
C. Confinement effects
D. Transport
E. Photoexcitation
F. Identity of the charge carriers
G. Summary
VIII. ELECTRONIC PROCESSES IN POLYDIACETYLENE (PDA)
A. Excitons
B. Carriers
C. Summary of energy levels in PDA-TS
IX. ELECTRONIC PROCESSES IN POLY(p-PHENYLENE-VINYLENE) (PPV)
A. Structure and Morphology
B. Excited States
C. Ladder polymers
D. Summary
X. ELECTRONIC PROCESSES IN POLYANILINE (PAni)
A. Solitons
B. Excitons
C. Polarons
D. Bipolarons
E. Pernigraniline base (PNB)
F. Leucoemeraldine base (LB)
G. Model for photexcitations
H. Summary of photoexcitations
I. Polyanilene salts
XI. ELECTRONIC PROCESSES IN POLYSILANE (PS)
A. Poly(methylphenylsilane) (PMPS)
B. Exciton-exciton annihilation
C. Poly(di-n-hexylsilane) (PDHS)
D. Exciton dynamics in PDHS
E. Electroabsorption spectra
F. Summary
XII. ELECTRONIC PROCESSES IN FULLERENES (C[6[0)
A. Geometry
B. Preparation
C. Chemical bonding
D. Electronic structure
E. Band gap
F. Charge-transfer states
G. Carrier mobility
H. Photogeneration and recombination
XIII. CARRIER GENERATION AND RECOMBINATION
A. Carrier generation
B. Carrier recombination
XIV. CARRIER TRANSPORT
A. Molecular crystals
B. Molecular doped polymers (MDPs)
C. Problems associated with existing MDP theories
D. Validity of Einstein's relationship in polymeric systems
E. Quasimetallic transport
XV. SPACE-CHARGE AND EMISSION-LIMITED CURRENTS
A. Contacts
B. Mobility
C. Trapping
XVI. ORGANIC MAGNETS (OM)
A. Molecular basics
B. Mechanisms involved in stabilizing ferromagnetism
C. Basic magnetic parameters, phenomena, and theory
D. Model spin systems
E. Magnetic properties of organic conductors
Appendix 1: Special Topics
Appendix 2: Glossary
XVII. SUPERCONDUCTIVITY AND OTHER COLLECTIVE STATES
A. Nested Fermi surfaces (FS)
B. Charge density waves (CDWs)
C. Spin density waves (SDWs)
D. Spin-Peierls transition (S-P)
E. Superconductivity
F. Magnetic-field effects
G. Can ferromagnetism and superconductivity coexist?
H. Luttinger liquids
XVIII. NONLINEAR OPTICAL AND PHOTOREFRACTIVE PROPERTIES (NLO)
A. Nonlinear optical susceptibility
B. Photorefractive effect (PRE)
C. Dendrimers
XIX. MOLECULAR ELECTRONICS
A. Langmuir-Blodgett (L-B) films
B. L-B films as rectifiers
C. NLO L-B films
XX. APPLICATIONS
A. Electrophotography (XER)
B. Photorefraction, hole burning, and nonlinear optics (HOL)
C. Electroluminescence (EL)
D. Transistors
E. Sensors
F. Liquid crystals
G. Batteries
Credits
Author Index
Subject Index
"Along with Pope, Swenberg wrote 'Electronic Processes in Organic
Crystals,' which was published by Oxford University Press in 1982.
The book was translated into Russian and also was distributed in
China. A second edition of that book, titled 'Electronic Processes
in Organic Crystals and Polymer,' [sic] will be published this year
by Oxford University Press. 'We begged Oxford University Press to
send us a copy of the book because his health was failing.'
said
Pope. 'They had someone handbind one copy and send it to him. He
saw the book on Monday and died a day later. I think waiting to see
the book gave him one day of life.'"--Meriden-Wallingford
Record-Journal
"Along with Pope, Swenberg wrote 'Electronic Processes in Organic
Crystals,' which was published by Oxford University Press in 1982.
The book was translated into Russian and also was distributed in
China. A second edition of that book, titled 'Electronic Processes
in Organic Crystals and Polymer,' [sic] will be published this year
by Oxford University Press. 'We begged Oxford University Press to
send us a copy of the book because his health was failing.'
said
Pope. 'They had someone handbind one copy and send it to him. He
saw the book on Monday and died a day later. I think waiting to see
the book gave him one day of life.'"--Meriden-Wallingford
Record-Journal
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