Farges J. (ed.) — Organic conductors: fundamentals and applications :: Электронная библиотека попечительского совета мехмата МГУ

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Farges J. (ed.) — Organic conductors: fundamentals and applications

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Название: Organic conductors: fundamentals and applications

Автор: Farges J. (ed.)

Аннотация:

Discussing the key issues that distinguish organic conductors from more conventional conductive compounds, this comprehensive and up-to-date reference examines all aspects of organic conductors;detailing the most recent theoretical concepts and current laboratory methods of synthesis, measurement, control, and analysis. Describes the latest advances in molecular-scale engineering, including switching and memory systems, Schottky and electroluminescent diodes, field-effect transistors, and photovoltaic devices and solar cells! Focusing on basic chemical and physical properties, Organic Conductors covers the theory of low-dimensional conductors delineates how organic conductors fit in with the rest of condensed-matter physics investigates the molecular design and synthesis of organic conductors analyzes techniques to characterize organic conductors such as crystallographic measurements and electronic and molecular spectroscopies reviews the magnetic electron spin resonance and nuclear magnetic resonance properties or organic conductors explores the physical properties of organic conductors such as electronic instabilities and phase transitions considers the potential application of organic materials and polymers in electronics provides a summary of organic superconductors, including fullerenes and more!

Язык:

Рубрика: Физика/Физика твёрдого тела/Приложения/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1994

Количество страниц: 854

Добавлена в каталог: 21.08.2005

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID

Предметный указатель

$(BCPTTF)_{2}AsF_{6}$       290 295
$(BCPTTF)_{2}PF_{6}$       290
$(BCPTTF)_{2}X$ salts      332 337
$(BEDO-TTF)_{2}X$ salts      17 237
$(BEDT-TTF)_{2}(ClO_{4})_{3}$       373
$(BEDT-TTF)_{2}Cu[N(CN)_{2}]Br$       446
$(BEDT-TTF)_{2}GaCl_{4}$       289 338
$(BEDT-TTF)_{2}ICl_{2}$       289
$(BEDT-TTF)_{2}I_{3}$       99
$(BEDT-TTF)_{2}I_{3}$ , polymorphs      99 138
$(BEDT-TTF)_{2}TlHg(SCN)_{4}$       60 65
$(BEDT-TTF)_{2}X$ salts ( $(ET)_{2}X$ salts)      17 32 59 65 67 99 139 140 164 174 179 180 191 196 198—203 217 237—245 257 359 387 444—458 484 487—488
$(BEDT-TTF)_{n}X$ salts      191
$(BEDT-TTF)_{n}X$ salts, polymorphs      161
$(Dimethylcicyanoquinodiimine)_{2}Ag$ $((DMDCNQI)_{2}Ag)$       336
$(DMTTSF)_{2}X$ salts      397
$(ET)_{2}X$ salts      see " $(BEDT-TTF)_{2}X$ salts"
$(FeCp_{2})(TCNE)$       299
$(Fluoranthene)_{2}PF_{6}$       286
$(Perylene)_{2}[M(mnt)_{2}]$ salts      291—297
$(SN)_{x}$       8 10
$(Tetramethyl-p-phenylene diamine)ClO_{4}$ $((TMPD)-ClO_{4})$       240 248
$(Tetrathiatetracene)_{2}I_{3}$ $(TTT_{2}I_{3})$       352
$(TMDTDSF)_{2}PF_{6}$       64 423 427
$(TMTSF)_{2}(AsF_{6})_{1-x}(SbF_{6})_{x}$       393 471—472
$(TMTSF)_{2}(ClO_{4})_{1-x}(ReO_{4})_{x}$       394 396
$(TMTSF)_{2}AsF_{6}$       210 365
$(TMTSF)_{2}BF_{4}$       184
$(TMTSF)_{2}ClO_{4}$       63—65 156 159 160 183—184 200 203—205 352 371 375 389—396 408 469 477—481
$(TMTSF)_{2}PF_{6}$       9 16 17 63—64 160 175 245 249 287 289 365 373 379 381 389 390 405 408 417 465 469—483
$(TMTSF)_{2}ReO_{4}$       175 184 370
$(TMTSF)_{2}X$ salts (Bechgaard salts)      17 48 63—65 99 100 164 168 173 184 191 213 244—250 257 270 288—293 337 360—396 408—467 477 736
$(TMTSF)_{2}X$ salts (Bechgaard salts), generic phase diagram      417—420
$(TMTTF)_{2}(SbF_{6})_{1-x}(AsF_{6})_{x}$       177
$(TMTTF)_{2}PF_{6}$       63 289 293 336
$(TMTTF)_{2}X$ salts      48 63 64 100 161 179 180 184 191 198 205 217 244 249 250 257 261 270 288 331 332 337 408—459
$(TMTTF)_{2}X$ salts, generic phase diagram      417—420
$(TSeF)_{x}(TTF)_{1-x}TCNQ$       393
$(TSeT)_{2}Cl$       361 362 365 370 371 375 376 380
$(TTT)_{2}I_{3}$       167 202 288
$2k_{F}$ , $4k_{F}$       see "Phase transitions"
$BO-C_{10}TCNQ$ LB films      774
$BO-C_{14}TCNQ$ LB films      774
$BO-C_{n}TCNQ$ LB films      774
$BO-C_{n}TCNQ$ LB films, stoichiometrics      774
$Cs_{2}(TCNQ)_{3}$       252
$Cu(2,5-DMDCNQI)_{2}$       133
$Cu(SCN)_{2}^{-}$       408
$Cu[N(CN)_{2}]Br^{-}(Cl^{-})$       408
$C_{n}Py$ (TCNQ) LB films      762—767 776
$C_{n}TET-TTF$ LB films      768 769
$DMTM(TCNQ)_{2}$       335—336
$Fe(C_{5}Me_{5})_{2}(TCNE)$       301
$Fe(Me_{5}Cp)_{2}(TCNE)$       298
$mC_{n}-M$ LB films      769 772—774
$MEM(TCNQ)_{2}$       216 248 259 290 315—339
$Mn(Cp_{2})(TCNQ)$       299
$NBu_{4}[CuCr(ox)_{3}]$       301
$NMP_{x}(phenazine)_{1-x}-TCNQ$       192
$Qn(TCNQ)_{2}$       5 203 288 289 336—337 352
$TEA(TCNQ)_{2}$       47—48 155—157 177 183 195—196 203 204 214 215 232 242 247—252 315—337 348—352 383 391
$TMTTF-C_{14}TCNQ$ LB films      766 767 772
$TMTTF-C_{18}TCNQ$ LB films      766 767 772
$TM_{2}X$ salts      see " $(TMTSF)_{2}X salts$ " "
$TTF-Ni[(dmit)_{2}]_{2}$       289 293 433
$TTF[Ni(dmit)_{2}]_{2}$       774
$TTF[Pd(dmit)_{2}]_{2}$       774
$V(C_{6}H_{6})$       298
$V(TCNE)_{x}\cdot y(solvent)$       302
$\alpha$ -Cyclodextrin      695
$\alpha$ -sexithienyl      600 609 613 614
$\alpha'-(BEDT-TTF)_{2}Ag(CN)_{2}$       180
$\alpha'-(BEDT-TTF)_{2}X$ salts      198 338
$\alpha-(BEDT-TTF)_{2}I_{3}$       238 239 257
$\alpha-(BEDT-TTF)_{3}(NO_{3})_{2}$       238
$\beta-(BEDT-TTF)_{2}IBr_{2}$       484
$\beta-(BEDT-TTF)_{2}I_{3}$       156 161—162 175 180 184—186 197 201 213 217 238 239 257 361 362 371 375 379 380 387 388 484
$\kappa-(BEDT-TTF)_{2}Cu(NCS)_{2}$       201
$\kappa-(BEDT-TTF)_{2}Cu[N(CN)_{2}]Cl$       161
$\kappa-(BEDT-TTF)_{2}I_{3}$       156 161
$\theta-(BEDT-TTF)_{2}I_{3}$       156 161
$\{(TMTSF)_{x}(TMTTF)_{1-x}\}_{2}ClO_{4}$       394
$\{(TMTSF)_{x}(TMTTF)_{1-x}\}_{2}PF_{6}$       393
$\{Cr[(ox)Ni(Me_{6}-[14]ane-N_{4}]_{3}\}(ClO_{4})_{3}$       300
(BPDT-TTF) salts      242
1,3-Dithiole in TTF      87
1,3-Dithiole-2-iminium salts      126
1,3-Dithiole-2-phosphonates      126
1,3-Dithiole-2-phosphoranes      126
1,3-Dithiole-2-thione-4,5-thiolate dianion      121
1,3-Dithiole-2-thiones      122 123 125
1,3-Dithiolium salts      118—126
1-Methyl-1,4-dithianium $(TCNQ)_{2}$ $(MDT(TCNQ)_{2})$       337
11,11,12,12-Tetracyanonaphtoquinodimethane (TNAP)      133
2,4,7-Trinitro-9-fluorenone (TNF)      799 805
2,7-Dibromoanthanthrone      801
3,3',5,5'-Tetramethylbenzidine-TCNQ (TMB-TCNQ)      343
3,4,5-(alkylthio)-1,2-dithiolium      768
4,5-Dihydro-1,4-dithiin-2,3-dithiolate      see "Dddt"
4,5-Dimercapto-1,3-dithia-2-thione      see "Dmit"
6-Hydroxydopamine      718
7,7,8,8-Tetracyano-p-quinodimethane      see "TCNQ"
Acceptors molecules      6 15—19 75—108 116 692—708 819
Acceptors molecules, electron affinity      2 80 92 93 102 341 405 500 594 604 621 650 694—707
Acetylcholine      695 707 718
acetylene      547
Ag(TCNQ)      257
Aggregate materials      569 720—721 801—803
Alkali metal TCNQ salts      332 338—342
Alkali metal TCNQ salts, $Cs_{2}(TCNQ)_{3}$       348
Alkali metal TCNQ salts, K(TCNQ)      239 240 248 257 339 391
Alkali metal TCNQ salts, Rb(TCNQ)      338—341
Amines      696 805
Amino acids      696 703 705 710
Amino-substituted derivatives      84
Ammonium ions, substituted      3
Amphiphiles      707 720 721 768 769
Anion (or counterion) ordering      see "Phase transitions"
Anion (or counterion) symmetry      63 161 261 288 419 477
Anthanthrone, dye      801
anthracene      4 626 791 797
Anthraquinodimethane      768
Antibiotics      698
Antiferromagnetic resonance (AFMR)      278—279 284 289 463 465
Antiferromagnetism (AFM)      13 17 32—35 54 61—67 203 272—299 365 366 415—465
Applications, magnetic properties      270 303—306
Applications, magnetic properties, biocompatibility      306
Applications, magnetic properties, insulating magnets      306
Applications, magnetic properties, integrated optical devices      306
Applications, magnetic properties, magnetic and magnetooptic storage      305
Applications, magnetic properties, magnetic field detectors      303
Applications, magnetic properties, magnetic imaging      305 306
Applications, magnetic properties, magnetic ink      306
Applications, magnetic properties, magnetic sensors      303 488
Applications, magnetic properties, magnetic tapes and disks      305
Applications, magnetic properties, narrow ESR signals      303—305 488
Applications, magnetic properties, object identification      303
Applications, magnetic properties, patent, fast adiabatic pass method      305
Applications, magnetic properties, photomagnetic switches      306
Applications, magnetic properties, processibility      305
Applications, magnetic properties, soluble materials      305
Applications, magnetic properties, submarine mine detectors      303
Applications, magnetic properties, ultrahigh-density optical storage      305
Applications, molecular electronics, Langmuir — Blodgett films      108—109 759—790
Applications, molecular electronics, Langmuir — Blodgett films, contacts (or electrodes)      759 776
Applications, molecular electronics, Langmuir — Blodgett films, dye monolayers      776
Applications, molecular electronics, Langmuir — Blodgett films, electrocopying      759
Applications, molecular electronics, Langmuir — Blodgett films, engineering, molecular      20 311 760
Applications, molecular electronics, Langmuir — Blodgett films, engineering, supramolecular      760 761
Applications, molecular electronics, Langmuir — Blodgett films, functional materials      761

Applications, molecular electronics, Langmuir — Blodgett films, functional materials, active elements      761 772 776 783
Applications, molecular electronics, Langmuir — Blodgett films, hydrophobized quartz plate      782
Applications, molecular electronics, Langmuir — Blodgett films, information processing      777
Applications, molecular electronics, Langmuir — Blodgett films, liquid crystal displays (LCD)      759
Applications, molecular electronics, Langmuir — Blodgett films, multifunctional supramolecule      776
Applications, molecular electronics, Langmuir — Blodgett films, multifunctional supramolecule, switching unit      777—783
Applications, molecular electronics, Langmuir — Blodgett films, multifunctional supramolecule, transmission unit      777—780
Applications, molecular electronics, Langmuir — Blodgett films, multifunctional supramolecule, working unit      777 780
Applications, molecular electronics, Langmuir — Blodgett films, operational constraints      759
Applications, molecular electronics, Langmuir — Blodgett films, ordered structures      760 764
Applications, molecular electronics, Langmuir — Blodgett films, photodiodes      760
Applications, molecular electronics, Langmuir — Blodgett films, photoelectric cells      776
Applications, molecular electronics, Langmuir — Blodgett films, photoresists      759
Applications, molecular electronics, Langmuir — Blodgett films, processing      759 760
Applications, molecular electronics, Langmuir — Blodgett films, realization      760 761
Applications, molecular electronics, Langmuir — Blodgett films, rectifiers      759 760
Applications, molecular electronics, Langmuir — Blodgett films, rectifiers, Aviram — Ratner molecular rectifier      759 760
Applications, molecular electronics, Langmuir — Blodgett films, switching devices      776—783
Applications, molecular electronics, Langmuir — Blodgett films, switching devices, based on multifunctional molecule      777—780
Applications, molecular electronics, Langmuir — Blodgett films, switching devices, chemical modifications      781
Applications, molecular electronics, Langmuir — Blodgett films, switching devices, control light      781—783
Applications, molecular electronics, Langmuir — Blodgett films, switching devices, learning process and plasticity of synaptic transmission      780—781
Applications, molecular electronics, Langmuir — Blodgett films, switching devices, multiple switching device      781—783
Applications, molecular electronics, Langmuir — Blodgett films, switching devices, photochemical switching device      781 783
Applications, molecular electronics, Langmuir — Blodgett films, switching devices, photoirradiation, alternate UV/visible      778—783
Applications, molecular electronics, Langmuir — Blodgett films, switching devices, photoisomerization, cis-to-trans/trans-to-cis      778—783
Applications, molecular electronics, Langmuir — Blodgett films, switching devices, realization      782—783
Applications, molecular electronics, Langmuir — Blodgett films, switching devices, reversibility      779 780
Applications, molecular electronics, Langmuir — Blodgett films, switching devices, switching speed      780
Applications, molecular electronics, Langmuir — Blodgett films, transistors, fabrication      776
Applications, molecular electronics, Langmuir — Blodgett films, transistors, field-effect (FET)s      776 783
Applications, molecular electronics, Langmuir — Blodgett films, transistors, field-effect mobilities      776
Applications, molecular electronics, Langmuir — Blodgett films, transistors, lift-off process      776
Applications, molecular electronics, Langmuir — Blodgett films, transistors, source-to-drain distance      776
Applications, photoconductors, photovoltaics      798—806
Applications, photoconductors, photovoltaics, acceptance potential      798
Applications, photoconductors, photovoltaics, contacts (electrodes)      794 795 809—817
Applications, photoconductors, photovoltaics, contacts (electrodes), blocking, rectifying      806 808 813 816—818
Applications, photoconductors, photovoltaics, contacts (electrodes), charge collecting      791 806
Applications, photoconductors, photovoltaics, contacts (electrodes), charge injection, photoinjection      794 795 811—814
Applications, photoconductors, photovoltaics, contacts (electrodes), conducting glass, ITO      816 818
Applications, photoconductors, photovoltaics, contacts (electrodes), ohmic      806 816 817
Applications, photoconductors, photovoltaics, contacts (electrodes), semitransparent, metallic      817 818
Applications, photoconductors, photovoltaics, contacts (electrodes), stability      815 817
Applications, photoconductors, photovoltaics, contacts (electrodes), work function      806 814—817
Applications, photoconductors, photovoltaics, corona discharge      798
Applications, photoconductors, photovoltaics, dyes      800—803 815—819
Applications, photoconductors, photovoltaics, electrochemical deposition      816
Applications, photoconductors, photovoltaics, electrophotography      798
Applications, photoconductors, photovoltaics, electrostatic latent images      798 799
Applications, photoconductors, photovoltaics, materials for application in xerography      799—800
Applications, photoconductors, photovoltaics, materials for charge generation      801—805
Applications, photoconductors, photovoltaics, materials for charge generation, coating      801 803
Applications, photoconductors, photovoltaics, materials for charge generation, dispersion preparation      803
Applications, photoconductors, photovoltaics, materials for charge generation, dual-layer arrangement      801
Applications, photoconductors, photovoltaics, materials for charge generation, efficiency      801
Applications, photoconductors, photovoltaics, materials for charge generation, near-infrared region      803—805
Applications, photoconductors, photovoltaics, materials for charge generation, new polymorph materials      803
Applications, photoconductors, photovoltaics, materials for charge generation, substituents      801—805
Applications, photoconductors, photovoltaics, materials for charge generation, visible region      801—803
Applications, photoconductors, photovoltaics, materials for charge transport      805—806
Applications, photoconductors, photovoltaics, p-n junction cells      806—810 815—820
Applications, photoconductors, photovoltaics, p-n junction cells, advantges over Schottky cells      817
Applications, photoconductors, photovoltaics, p-n junction cells, capacitance-voltage (C-V) measurements      812
Applications, photoconductors, photovoltaics, p-n junction cells, current-voltage (I-V) characteristics      810
Applications, photoconductors, photovoltaics, p-n junction cells, depletion layer      811 812 817 819
Applications, photoconductors, photovoltaics, p-n junction cells, diffusion currents      809
Applications, photoconductors, photovoltaics, p-n junction cells, drift currents      809 810
Applications, photoconductors, photovoltaics, p-n junction cells, forward bias      810
Applications, photoconductors, photovoltaics, p-n junction cells, junction potential      810
Applications, photoconductors, photovoltaics, p-n junction cells, majority/minority carriers      809 810
Applications, photoconductors, photovoltaics, p-n junction cells, photovoltaic emf      810
Applications, photoconductors, photovoltaics, p-n junction cells, potential barrier      809 810 819
Applications, photoconductors, photovoltaics, p-n junction cells, recombination      810
Applications, photoconductors, photovoltaics, p-n junction cells, reverse bias      809 810
Applications, photoconductors, photovoltaics, pigments      800—803
Applications, photoconductors, photovoltaics, pigments, pigment-solvent interaction      803
Applications, photoconductors, photovoltaics, printing devices      803
Applications, photoconductors, photovoltaics, sandwich cells      795 796 806 815
Applications, photoconductors, photovoltaics, Schottky cells      806—810 815—817
Applications, photoconductors, photovoltaics, Schottky cells, current asymmetry      808
Applications, photoconductors, photovoltaics, Schottky cells, current-voltage (I-V) characteristics      808
Applications, photoconductors, photovoltaics, Schottky cells, depletion layer      807—812
Applications, photoconductors, photovoltaics, Schottky cells, diffusion potential      808
Applications, photoconductors, photovoltaics, Schottky cells, forward bias      808 809
Applications, photoconductors, photovoltaics, Schottky cells, illuminated      808
Applications, photoconductors, photovoltaics, Schottky cells, photocurrent-voltage characteristic      809
Applications, photoconductors, photovoltaics, Schottky cells, potential barrier      806—809
Applications, photoconductors, photovoltaics, Schottky cells, recombination      809
Applications, photoconductors, photovoltaics, Schottky cells, reverse bias      808
Applications, photoconductors, photovoltaics, solar cells (photovoltaic cells)      806—820
Applications, photoconductors, photovoltaics, solar cells (photovoltaic cells), charge diffusion length      812
Applications, photoconductors, photovoltaics, solar cells (photovoltaic cells), controls      815
Applications, photoconductors, photovoltaics, solar cells (photovoltaic cells), cost      806 815
Applications, photoconductors, photovoltaics, solar cells (photovoltaic cells), devices, characterization      810—811 815—820
Applications, photoconductors, photovoltaics, solar cells (photovoltaic cells), efficiencies      811—819
Applications, photoconductors, photovoltaics, solar cells (photovoltaic cells), excitons      813 817—819
Applications, photoconductors, photovoltaics, solar cells (photovoltaic cells), field-assisted carrier separation      813
Applications, photoconductors, photovoltaics, solar cells (photovoltaic cells), fill factor      810
Applications, photoconductors, photovoltaics, solar cells (photovoltaic cells), limiting factor      819
Applications, photoconductors, photovoltaics, solar cells (photovoltaic cells), losses      818
Applications, photoconductors, photovoltaics, solar cells (photovoltaic cells), maximum output power      810
Applications, photoconductors, photovoltaics, solar cells (photovoltaic cells), models      811—815
Applications, photoconductors, photovoltaics, solar cells (photovoltaic cells), open-circuit voltage      810 817
Applications, photoconductors, photovoltaics, solar cells (photovoltaic cells), oxygen effect      815
Applications, photoconductors, photovoltaics, solar cells (photovoltaic cells), photocurrent/photovoltage      812—814 818
Applications, photoconductors, photovoltaics, solar cells (photovoltaic cells), processibility      806
Applications, photoconductors, photovoltaics, solar cells (photovoltaic cells), short-circuit current      810 817 819
Applications, photoconductors, photovoltaics, solar cells (photovoltaic cells), solar spectrum, absorption/conversion      811 817 818
Applications, photoconductors, photovoltaics, solar cells (photovoltaic cells), spectral response      801 812 814 818
Applications, photoconductors, photovoltaics, solar cells (photovoltaic cells), stability      815 817
Applications, photoconductors, photovoltaics, surface cells      795 796
Applications, photoconductors, photovoltaics, thin film production      815 816
Applications, photoconductors, photovoltaics, thin film production, electrochemical deposition      816
Applications, photoconductors, photovoltaics, thin film production, short circuits, risk for      816
Applications, photoconductors, photovoltaics, thin film production, single-/two-layer      817
Applications, photoconductors, photovoltaics, thin film production, spin coating      816
Applications, photoconductors, photovoltaics, thin film production, thickness      816 817
Applications, photoconductors, photovoltaics, thin film production, vacuum deposition/sublimation technique      801 803 816
Applications, photoconductors, photovoltaics, xerography      798—806
Applications, photoconductors, photovoltaics, xerography, amorphous films      806
Applications, photoconductors, photovoltaics, xerography, automotive paints      801
Applications, photoconductors, photovoltaics, xerography, charge generation/transport layers (CGL/CTL)      800 801
Applications, photoconductors, photovoltaics, xerography, copiers, high/low-volume      801
Applications, photoconductors, photovoltaics, xerography, cost      799 803
Applications, photoconductors, photovoltaics, xerography, cycle stability      799
Applications, photoconductors, photovoltaics, xerography, development, process time      799
Applications, photoconductors, photovoltaics, xerography, durability      800
Applications, photoconductors, photovoltaics, xerography, exposure      798
Applications, photoconductors, photovoltaics, xerography, fatigue effects      799
Applications, photoconductors, photovoltaics, xerography, fixing, fixative coating      799
Applications, photoconductors, photovoltaics, xerography, flexibility      799
Applications, photoconductors, photovoltaics, xerography, manufacturing, ease of      799
Applications, photoconductors, photovoltaics, xerography, miscibility      805
Applications, photoconductors, photovoltaics, xerography, multilayer structures      800
Applications, photoconductors, photovoltaics, xerography, panchromatic response      799 800
Applications, photoconductors, photovoltaics, xerography, photoconductive layer      798
Applications, photoconductors, photovoltaics, xerography, photodischarge      799 801
Applications, photoconductors, photovoltaics, xerography, photoreceptors      799—805
Applications, photoconductors, photovoltaics, xerography, polymer matrix compatibility      803—806
Applications, photoconductors, photovoltaics, xerography, processes      798—799
Applications, photoconductors, photovoltaics, xerography, requisites, for applications      799
Applications, photoconductors, photovoltaics, xerography, sensitivity to light      799—803
Applications, photoconductors, photovoltaics, xerography, solubility      805 806
Applications, photoconductors, photovoltaics, xerography, speed      800 803
Applications, photoconductors, photovoltaics, xerography, technology      800
Applications, photoconductors, photovoltaics, xerography, toner particles      799
Applications, photoconductors, photovoltaics, xerography, toxicity      799 805
Applications, photoconductors, photovoltaics, xerography, transfer      799
Applications, photoconductors, photovoltaics, xerography, xerographic plate      798

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