Morkoc H. — Advanced semiconductor and organic nano-techniques :: Электронная библиотека попечительского совета мехмата МГУ

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Morkoc H. — Advanced semiconductor and organic nano-techniques

Morkoc H. — Advanced semiconductor and organic nano-techniques

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Название: Advanced semiconductor and organic nano-techniques

Автор: Morkoc H.

Аннотация:

Physical sciences and engineering, as well as biological sciences have recently made great strides in their respective fields. More importantly, the cross-fertilization of ideas, paradigms and methodologies have led to the unprecedented technological developments in areas such as information processing, full colour semiconductor displays, compact biosensors and controlled drug discovery to name a few. Top experts in their respective fields have come together to discuss the latest developments and the future of micro-nano electronics. They investigate issues to be faced in ultimate limits such as single electron transitors; zero dimensional systems for unique properties; thresholdless lasers, electronics based on inexpensive and flexible plastic chips; cell manipulation; biosensors; DNA based computers; quantum computing; DNA sequencing chips; micro fluidics; nanomotors based on molecules; molecular electronics and recently emerging wide bandgap semiconductors for emitters, detectors and power amplifiers. Contributions from top experts in this field Covers a wide range of topics

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Рубрика: Технология/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 2004

Количество страниц: 1506

Добавлена в каталог: 22.08.2014

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

Предметный указатель

Inverter, idealized, mapping of input values      395
Iodination of triazenes      79
iodobenzene      194
Ion-current, carrying conductor      325
Ion-current, extracellular      332
Ion-selective field-effect transistor (ISFET)      408—409
Ionic conduction mechanism      70
IR lasers      54
Irreversibility, physical and logical      454—455
Islanding process      3
Isocyanide SAM      135—152
Isocyanide SAM, metal, $\pi$ -bonded      181
Isocyanide-Au contact      140
Isotropic silicon etch      129
Ito      35
IV-curves of a symmetric SET transistor      316
J gates      475
Janis Research SuperVariTemp (SVT) system      131
Johnson noise      424
Josephson, coupling energy      315 321
Josephson, junction      82
Josephson, junction, small, circuits dynamics      320
Junction resistance      304 317
K gate dielectric      11
K.p or tight-binding models      96
Kane model      474—476
Killer app      400
kinesin      524
Kinesin and microtubules      531—532
Kink effect      347 349
Knoop diamond indenter      58
Laboratory on a chip      410
Laboratory-on-a-chip      110 122 128
Lakeshore thermometer      131
Lamb wave acoustic transducer      440
Laminin      270
Landau — Zener band crossing      315 321
Landauer formula      241
Landauer, conductance formalism      302
Landauer, formalism      20
Landauer, formalism in ohmic (classical transmission) limit      303
Landauer, formula      52
Lande g-factor      474 481 497
Langmuir — Blodgett (LB), films      209
Langmuir — Blodgett (LB), films of $\alpha$ -quinquethiophene      242
Langmuir — Blodgett (LB), layers      235
Langmuir — Blodgett (LB), technique      54 208
Laplace equation      27
Laser diodes (LDs)      52
Laser, holography      281
Laser, micromachining      498
Laser, radiation      427
Lasers      37—54 106 241
Lasers, 1.3- and $1,5-\mu m$       62
Lasers, high-speed, temperature insensitive      408
Lasers, reduced dimensional      38
Lasers, resonator geometry of      49
Lasers, tweezers      94—95
Lasing from a poly (p-phenylene vinylene (PPV) layer      280
Lasing mode photon number      373
Lasing, Devices      23
Latch phenomena      350
Latch-up mechanisms      327
Latching switch      76 277
Latching switch, as synapses      276—279
Lateral epitaxial overgrowth (LEO)      169
Lateral epitaxial overgrowth (LEO), Experiments      170
Lateral epitaxial overgrowth (LEO), GaN      386
Latex beads      96
Latex microspheres      427
Lattice matching and heteroepitaxy      347—348
Lattice polaron (LP)      201
Lattice vibrations      51
Leakage, current      56
Leakage, power requirements      224
LED      see "Light emitting diodes"
Leech ganglia      86
Leyl SiC substrate      119
LFFPs      see "Low-energy electron point source"
LIGA      498
Light Emitters for 350—280 nm UV Range, challenges for      392—397
light emitting diodes (LEDs)      26—30 241
Light emitting diodes (LEDs) in displays      36—37
Light emitting diodes (LEDs), all-organic      33
Light emitting diodes (LEDs), and laser device characteristics      398
Light emitting diodes (LEDs), blue, structure incorporating a $p^{++}/n^{++}$ , InGaN, Mg/GaN, Si tunnel junction, schematic      357
Light emitting diodes (LEDs), blue/green      345
Light emitting diodes (LEDs), blue/green, comparison of emission spectrum from      389
Light emitting diodes (LEDs), blue/green, schematic view of two-wavelength      388
Light emitting diodes (LEDs), commercial high-brightness      348
Light emitting diodes (LEDs), efficacy of phosphor-white      32
Light emitting diodes (LEDs), efficiency of      28
Light emitting diodes (LEDs), high-performance, development of      36
Light emitting diodes (LEDs), illuminated dashboards      28
Light emitting diodes (LEDs), lifetime      35
Light emitting diodes (LEDs), luminous efficiency      30—31
Light emitting diodes (LEDs), manufacturers and lighting companies      30
Light emitting diodes (LEDs), materials against wavelength color bar      27
Light emitting diodes (LEDs), monolithic dual-wavelength      387—390
Light emitting diodes (LEDs), single layer, scheme of      284
Light emitting diodes (LEDs), use      32
Light emitting diodes (LEDs), visible      29
Light emitting diodes (LEDs), visible, CIE diagram superimposed      33
Light emitting diodes (LEDs), white light source with      32
Light emitting polymers (LEPs)      34
Light powered nanodevices, integrated, self-contained and self-sustaining array of      534
Limbs, regenerating      336
Linear bi-functional molecules      517
Linear motors      524
Linear motors, systems, nanomanufacturing      526—527
Linear nanotube heterojunctions      323—324
Linear triple bonds      46
Linking molecules      535
Lipton's graph for constructing binary numbers      383
Liquid crystal pixels (AMLCDs)      192
Liquid helium flow cryostat      43
Liquid phase epitaxy (LPE)      29 38
Liquids in microchannels, behavior of      502
Liquids, chromatography      492
Liquids, nitrogen      131
Lissamine      348
Lithography and etching technologies, advances in      213
Lithography, direct, drawbacks and advances of      265
Lithography, maskless      197
Lithography, materials systems      203—213
Lithography, optical      128 516
Lithography, patterning      280
Lithography, PXL technology for, 4-Gbit dynamic random access memory (DRAM)      8—9
Lithography, techniques, to produce chemically patterned substrates      259
Lithography-half-pitch and gate-length trends      184
Living cell "force spectrum"      95
Lloyd architecture      466
Localized states in metal-SAM-metal junctions      146—152
Lock-in techniques with AC-excitation      316
Logic, current gain cut-off frequency      18
Logic, gates      18 59 64
Logic, operations      64
Logic, switching speed      158
Logic, transistors per chip      6
London dispersion      256
Longitudinal and vertical media      436
Longitudinal optical (LO) phonon scattering      45 351
Low energy electron beam irradiation (LEEBI)      352
Low-energy electron point source (LEEPS) microscope      69
Low-field transport in 2DEG systems      89—94
Low-pressure chemical vapor deposition (LPVCD)      128
Low-resolution scanning transmission, electron microscopy (STEM) image      13
Low-temperature photo- and cathodoluminescene spectroscopy      369
Low-temperature STM (LTSTM)      191
Low-temperature STM (LTSTM) and STM, manipulation of atoms and molecules      191—194

Lower-energy electron microscope (LEEM)      129
Lowest Unoccupied Molecular Orbital (LUMO)      3 10 29 32 48 132 193 218 221
Lowest unoccupied molecular orbital (LUMO), wavefunction      274
Luminescing molecule      117
LUMO      see "Lowest unoccupied molecular orbital"
Lutetium ( $Pc_{2}Lu$ ) and thulium ( $Pc_{2}Tm$ ) bisphthalocyanines      214
Luttiner liquids      310—311 315
Luttiner liquids, bulk-contacted      311
Luttiner liquids, end-contacted      311
Luttiner liquids, tunneling      309—311
Lyddane — Sachs — Teller relation      70
Lysine      514
M-R, materials      419—422
M-R, memories, noise and sensing in      423—424
Macroscale implants      253
Magnetic disks      435—438
Magnetic fundamentals      413—416
Magnetic material, characteristic hysteresis, loop for      413—414
Magnetic memories      288
Magnetic memories, cells, dimension of      412
Magnetic parameters      413—414
Magnetic random access memory (MRAM)      13 412 429
Magnetic semiconductor      13
Magnetic strips      19
Magnetization, thin film      288
Magneto-transmission, far infrared      16
Magnetoresistive memories      422 424
Magnetoresistive memories, basics      419—424
Magnetoresistive memories, cells, effects of scaling on      433
Mammals      336 341—342
Manipulation of cells in suspension      97
Manipulation, tip      70
Manufacturability      63
Mapping      364—365
MARCO      see "Microelectronics Advanced Research Corporation"
Materials, transfer and/or modification      197—203
Materials, used in studies of cells and topographically patterned surfaces      281
Mathematical models of computations      442
Matrix manipulation of boolean or positive real valued matrices      387
Maximal clique problem      382
MBE deposition method      45—46 see
MBE-grown films, multilayered, for qubits      483
MBE-grown films, shallow-etched pillars defined on      485
Medicinal use of electronics, examples of      103—107
Medium for recombination      34
Melanoma growth stimulatory factor      354
Membrane, computer, computation of      398—399
Membrane, fabrication, artificial      235
Memory and storage, difference between      447
Memory effects in devices      173
Memory effects, proposed model for      178
memory, arrays      180
Memory, arrays, structure of      280
Memory, cells, based on structural phase transition      289
Memory, cells, single level from      412
Memory, concepts, novel      288—289
Memory, fundamentals      416—419
MEMS      see "Micro-electromechanical systems" 334
MEMS, conventional      108
MEMS, technology and chemistry      113
Mercapto-hexadecanioic acid (MHA)      202
MESFET      see "Metal semiconductor FET"
Meso-(4-thioacetyldiphenylethynyl)dipyrro-methane      120
Mesoscopic junctions      53
Mesoscopic physics      2
Metal Oxide Semiconductor Field Effect Transistor (MOSFET)      4 9 56 151 211 see "n-MOSFETs
Metal oxide semiconductor field effect transistor (MOSFET) with high-quality ultrathin undoped channel      261
Metal oxide semiconductor field effect transistor (MOSFET), body-grounded (BG)      355
Metal oxide semiconductor field effect transistor (MOSFET), channel length      221
Metal oxide semiconductor field effect transistor (MOSFET), constant-electric-field scaling, principles of      215
Metal oxide semiconductor field effect transistor (MOSFET), currents      235
Metal oxide semiconductor field effect transistor (MOSFET), design      159
Metal oxide semiconductor field effect transistor (MOSFET), device and circuit parameters, scaling of      215
Metal oxide semiconductor field effect transistor (MOSFET), ground plane      356—357
Metal oxide semiconductor field effect transistor (MOSFET), model      260
Metal oxide semiconductor field effect transistor (MOSFET), N-channel      348 357
Metal oxide semiconductor field effect transistor (MOSFET), operation transconductance      345
Metal oxide semiconductor field effect transistor (MOSFET), scaling short-channel effects      217
Metal oxide semiconductor field effect transistor (MOSFET), schematic cross-section of      152—153
Metal oxide semiconductor field effect transistor (MOSFET), schematic cross-section of ideal double-gate      233
Metal oxide semiconductor field effect transistor (MOSFET), sub-threshold slope      236
Metal oxide semiconductor field effect transistor (MOSFET), subthreshold currents      12
Metal oxide semiconductor field effect transistor (MOSFET), threshold voltage of      228
Metal oxide semiconductor field effect transistor (MOSFET), transconductance per device width      214
Metal oxide semiconductor field effect transistor (MOSFET), ultimately thin      357—358
Metal semiconductor FET (MESFET)      102 125—126
Metal- $C\pi$ -bonding      136
Metal-induced-gap states (M1GS)      10
Metal-isocyanide SAM interfaces, contact barriers and conduction mechanisms      152
Metal-molecule "heterostructures"      3
Metal-on-top SWNT devices      310—311
Metal-on-top SWNT devices, AFM image of      301
Metal-organic chemical vapor deposition (MOCVD)      3 24 54 133 370 392
Metal-organic chemical vapor deposition (MOCVD), epitaxy      348
Metal-organic chemical vapor deposition (MOCVD), growth films      66
Metal-organic vapor phase epitaxy (MOVPE), development of      29
Metal-semiconductor, crossed-nanotube junction, three-terminal characteristics of      327
Metal-semiconductor, Schottky barrier      324
Metallic and semiconducting SWNTs      331
Metallic Single-Walled Nanotubes (SWNTs)      304—311
Metallic Single-Walled Nanotubes (SWNTs), bands, dispersionless nature of      316
Metallic Single-Walled Nanotubes (SWNTs), conductance spectroscopy of      309
Metallic Single-Walled Nanotubes (SWNTs), devices      304
Metallic Single-Walled Nanotubes (SWNTs), devices, conductance of high-contact-resistance, temperature dependence      309—311
Metallic Single-Walled Nanotubes (SWNTs), devices, differential conductance of      305
Metallic Single-Walled Nanotubes (SWNTs), devices, low-temperature behavior of      304—309
Metallic Single-Walled Nanotubes (SWNTs), limits to conductivity of      306
Metallic Single-Walled Nanotubes (SWNTs), quantum dots      315
Metallic tube-on-top devices      308
Metalto-elastase (HME) and melanoma growth stimulatory factor      134
methane      300
Methyl 2'-acetamido-4,4'-diphenylethynyl-4"-n-hexyl-5'-nitrobenzoate      113
Methyl 2'-amino-4,-4'-diphenylethynyl-4"-n-hexyl-5'-nitrobenzoate      113
Methyl 4-(2'-methoxyethynylphenyl) benzoate      125
Methyl 4-(trimethylsilylethynyl)benzonate      112
Methyl 4-ethynylbenzoate      113
Methyl substituted, ladder type poly (para-phenylene) (Me-LPPP)      281
Methyl substituted, QT life-time measurements      257
Methyl substituted, quaterthiophenes, molecular distortion      254 257
Methyl substituted, quaterthiophenes, optical and structural properties      254—258
Methylviologen (MV)      449
Mg doping associated memory effects in MOCVD      356
Mg-H complex      352
Micellar electrokinetic chromatography (MEKC)      492
Micro contact printing (MCP)      81
Micro- and nanofabrication methodologies      92
Micro- and nanofabrication tools, development of      251
Micro-electrical mechanical optical biological systems (MEMOBS)      205
Micro-electromechanical systems (MEMS)      409 420
Micro-electromechanical systems (MEMS), devices      506 509
Micro-mechanics (MEMS)      417
Micro-TAS      see "Microfluidics"
Micro-total analysis systems      110 126
Micro-total analysis systems ( $\mu TAS$ )      410
Microactuators      127
Microarray experiment (MIAME), standard      366
Microbial circuits, design of      396
Microcapillary electrophoresis systems      493
Microcavity laser, input-output characteristics      284
Microcavity lasers      49—50
Microchannels and capillary separation      495
Microchannels in glass substrate, schematic of fabrication process      498
Microchannels in polydimethylsiloxane silicon mold      500
Microchannels, application of modeling tools to      488
Microchannels, device      495
Microchannels, fabricating arrays of      495
Microchannels, for capillary electrophoresis      497
Microchannels, networks, three-dimensional      501
Microchips      4 56
Microchips, conventional      67

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