Page 434 - Organic Electronics in Sensors and Biotechnology
P. 434
Index 411
diode-pumped solid-state (DPSS) electrophoresis, 364–365, 371–372
lasers, 270 combined with lithography, 383
direct laser writing, 273–274 sol gel, 376
discrete heterojunction photodiodes, electrophoretic deposition (EPD),
202–204 361–389
dissolved oxygen monitoring, 170–177 advantages of, 363
distributed feedback (DFB) resonators, applied voltage, 372–373
266–269 for biosensors, 385–387
fabrication of, 270–280 concentration of solid in suspension,
master substrate fabrication, 272–276 373
replication of, 276–277 conductivity of substrate, 373–374
divinyltetramethyldisiloxane-bis conductivity of suspension, 370
(benzocyclobutene) (BCB), 310 definition/description of, 363–364
DNA, 306–309, 330 and dielectric constant of liquid,
DNA hybridization, detecting, 336 369–370
DNA-CTMA thin films, 308–309 effect of deposition time, 372
document scanning, 252 electroplating vs., 364
DOS (density of states), 5 inorganic materials for, 374–376
double-layer (electrostatic) repulsive for light-emitting diodes, 383–384
force, 367 limitations of, 386–387
DPSS (diode-pumped solid-state) materials for, 361, 374–382
lasers, 270 organic materials for, 376–382
dry etching process, 21 for organic photocells, 384
D3ANT, 59–60, 64–67 parameters influencing, 368–374
sensing responses of, 72, 74–75 particle size, 369
thin-film morphology of, 69–71 for photon crystal technology,
382–383
E E principle of, 364–367
e-beam lithography, 8 scope of, 387–389
EBL (electron beam lithography), stability of suspension, 371–372
272–273 theory of, 367–368
EC (see equivalent circuit) types of, 364
EFETs, 312–316 zeta potential, 370–371
effective mobility, 5 electroplating, 364
electrical double layer, 367–368 energy transfer, in organic
electrical semiconductor and dielectric semiconductor lasers, 269
analysis, 117–127 e-noses (see electronic noses)
charge-time behavior of capacitive EPD (see electrophoretic deposition)
multilayers, 123–127 equivalent circuit (EC), 117
impedance spectroscopy, 117–120 of capacitive double-layer structure,
IS of organic MIS structures, 120–123 123–124
electroactive polymers, 309–311 of capacitive three-layer structures,
electrochemical coagulation of 125, 126
particles (EPD), 365–366 of organic MIS structures, 120
electrochemical surface switches, for photodiodes, 215–217
395–401 e-textiles, 110–115
for control of cell seeding and ethanol sensing, 177–181
proliferation, 399–401 excitation quenching, 336
surface switches, 396–399
wettability switches, 396 F F
electrodeposition, 364 fabrics, electronic, 110–115
electron beam lithography (EBL), fall-detection sensors, 114
272–273 FeFETs, 316–320
electron traps, 2 ferroelectric phase, 130, 133–135
electronic ion pumps, 401–404 ferroelectrics, 129–130
electronic noses (e-noses), 55, 59 FETs (see field-effect transistors)
