| 295 - 298 |
Effect of neutral beam etching of p-GaN on the GaN device characteristics
Park BJ, Min KS, Lee HC, Bae JW, Kim DW, Yeom GY |
| 299 - 305 |
Influence of deposition pressure and rf power on the structure and electrical properties of Zr0.8Sn0.2TiO4 thin films prepared by rf magnetron sputtering
Huang CL, Wang JJ, Hsu CH |
| 306 - 311 |
Field emission properties of plasma treated multiwalled carbon nanotube cathode layers
Nam JW, Alegaonkar PS, Park JH, Yoo JB, Choe DH, Kim JM, Kim WS |
| 312 - 317 |
Reactive ion etching technique for via-hole applications in thick GaAs wafers
Wang CC, Lin YL, Lin SK, Li CS, Huang HK, Wu CL, Chang CS, Wang YH |
| 318 - 323 |
Effects of adsorbates on field emission reproducibility of sulfur-incorporated nanocomposite carbon films
Gonzalez-Berrios A, Weiner BR, Morell G |
| 324 - 333 |
First-layer Si metallizations for thermally stable and smooth Ohmic contacts for AIGaN/GaN high electron mobility transistors
Mohammed FM, Wang L, Adesida I |
| 334 - 342 |
Application of high spatial resolution scanning work function spectroscopy to semiconductor surfaces and interfaces
Gao M, Brillson LJ |
| 343 - 347 |
In-place fabrication of nanowire electrode arrays for vertical nanoelectronics on Si substrates
Franklin AD, Maschmann MR, DaSilva M, Janes DB, Fisher TS, Sands TD |
| 348 - 354 |
Nanolithographic patterning of transparent, conductive single-walled carbon nanotube films by inductively coupled plasma reactive ion etching
Behnam A, Choi Y, Noriega L, Wu ZC, Kravchenko I, Rinzler AG, Ural A |
| 355 - 360 |
Analysis of the early stages of stress-induced notch growth
Aoyagi M |
| 361 - 367 |
Role of Cu on the electrical properties of CdTe/CdS solar cells: A cross-sectional conductive atomic force microscopy study
Moutinho HR, Dhere RG, Jiang CS, Gessert T, Duda A, Young M, Metzger WK, Al-Jassim MM |
| 368 - 372 |
Integration of electrodes in Si channels using low temperature polymethylmethacrylate bonding
Dukkipati VR, Pang SW |
| 373 - 379 |
Simulation and characterization of a magnetic microdeflector for electron beam control in electron beam microcolumn system
Rong R, Kim HS, Park SS, Hwang NW, Kim BJ, Ahn CH |
| 380 - 386 |
Inspection of all beams in multielectron beam system
Tanimoto S, Sugaya M, Furukawa A, Sohda Y, Hosoda M, Someda Y, Muraki M, Tamamori K, Hirose F, Nagae K, Kato K |
| 387 - 393 |
Detailed analysis of the influence of an inductively coupled plasma reactive-ion etching process on the hole depth and shape of photonic crystals in InP/InGaAsP
Strasser P, Wuest R, Robin F, Erni D, Jackel H |
| 394 - 399 |
Electron-beam focusing characteristics of double-gated carbon nanofiber based field emission sources
Yang X, Gardner WL, Baylor LR, Cui H, Lowndes DH, Joy DC, Simpson ML |
| 400 - 403 |
On-wafer monitoring of electron and ion energy distribution at the bottom of contact hole
Ohtake H, Jinnai B, Suzuki Y, Soda S, Shimmura T, Samukawa S |
| 404 - 409 |
Anisotropic fluorocarbon plasma etching of Si/SiGe heterostructures
Ding R, Klein LJ, Eriksson MA, Wendt AE |
| 410 - 414 |
High fidelity fabrication of microlens arrays by nanoimprint using conformal mold duplication and low-pressure liquid material curing
Peng C, Liang XG, Fu ZL, Chou SY |
| 415 - 420 |
Synthesis of germanium nanowires on insulator catalyzed by indium or antimony
Sun XH, Calebotta G, Yu B, Selvaduray G, Meyyappan M |
| 421 - 425 |
Local characterization of vapor-deposited electrode edges in thin film organic electronic devices
Sills S, Unal K, Lozano LD, Frommer J, Scott JC |
| 426 - 429 |
Nanopatterning with 248 nm photolithography by photostabilizing bilayer photoresists
Tsai FY, Jhuo SJ, Lee JT |
| 430 - 435 |
Hydrothermal synthesis and visible light photocatalysis of metal-doped titania nanoparticles
Han TY, Wu CF, Hsieh CT |
| 436 - 442 |
Fast neutron irradiation effects in n-GaN
Polyakov AY, Smirnov NB, Govorkov AV, Markov AV, Pearton SJ, Kolin NG, Merkurisov DI, Boiko VM, Lee CR, Lee IH |
| 443 - 447 |
Sublithographic vertical gold nanogap for label-free electrical detection of protein-ligand binding
Jang DY, Kim YP, Kim HS, Park SHK, Choi SY, Choi YK |
| 448 - 454 |
Characterization of all-Nb nanodevices fabricated by electron beam lithography and ion beam oxidation
Im H, Pashkin YA, Yamamoto T, Astafiev O, Nakamura Y, Tsai JS |
| 455 - 458 |
Surface micromachining of a thin film microresonator using dry decomposition of a polymer sacrificial layer
Patil SB, Chu V, Conde JP |
| 459 - 463 |
Surface modification and contamination characterization of ion-enhanced, implanted photoresist removal
Kawaguchi MN, Papanu JS, Chen HW, Su B, Verhaverbeke S |
| 464 - 468 |
Field emitter array with a memory function for ultrahigh luminance field emission display
Nagao M, Yasumuro C, Taniguchi M, Itoh S, Kanemaru S, Itoh J |
| 471 - 471 |
Papers from the 19th International Vacuum Nanoelectronics Conference -Preface
Xu NS |
| 472 - 477 |
Analytical modeling for the electron emission properties of carbon nanotube arrays
Nicolaescu D, Filip V, Takaoka GH, Gotoh Y, Ishikawa J |
| 478 - 483 |
New analysis of the energy distribution of field electrons from n-type semiconductors
Bae HK, Hong SC, Chung MS |
| 484 - 492 |
Simulation studies of self-focusing carbon nanotube field emitter
Liao KP, Hu Y, Lin TL, Lan YC |
| 493 - 496 |
Space charge effects on the I-V characteristics of field emission arrays
Lin MC |
| 497 - 503 |
Screen effects on field emission from an array of one-dimensional nanostructures grown on silicon substrates: A simulation study using classical transport model
Lan YC, Yan MX, Liu WJ |
| 504 - 507 |
Thermal model of miniaturized Schottky emitter for parallel electron beam lithography
Dokania AK, Velthuis JFM, Zhang YX, Kruit P |
| 508 - 512 |
Work function of low index crystal facet of tungsten evaluated by the Seppen-Katamuki analysis
Gotoh Y, Mukai K, Kawamura Y, Tsuji H, Ishikawa J |
| 513 - 516 |
Electron emission from low surface barrier cathodes
Semet V, Adessi C, Capron T, Binh VT |
| 517 - 520 |
Behaviors of single nitrogen molecule on pentagon at carbon nanotube tip observed by field emission microscopy
Waki S, Hata K, Sato H, Saito Y |
| 521 - 523 |
X-ray photoelectron spectroscopy and low-energy electron diffraction analyses on zirconium oxide modified (100) surface of molybdenum
Kawakubo T, Satoh S, Nakane H, Adachi H |
| 524 - 527 |
Emission characteristics of nanocrystalline porous silicon ballistic cold cathode in atmospheric ambience
Ohta T, Kojima A, Koshida N |
| 528 - 531 |
Field emission characteristics of surface-reconstructed heavily phosphorus-doped homoepitaxial diamond
Yamada T, Yamaguchi H, Kudo Y, Okano K, Shikata SI, Nebel CE |
| 532 - 535 |
Emission current scaling in nanodiamond lateral field emission devices
Subramanian K, Kang WP, Davidson JL |
| 536 - 539 |
Field emission from metal-coated nanocrystalline graphitic films
Deng JC, Zhang L, Zhang BL, Yao N, Fang LL |
| 540 - 544 |
Current-voltage and electron emission characteristics of diamond particles
Yuan GA, Gu ZZ, Song H, Mimura H |
| 545 - 547 |
Growth and field electron emission properties of nanostructured white carbon films
Zhang L, Ma HZ, Yao N, Lu ZL, Zhang BL |
| 548 - 551 |
Carbon nanotube lateral field emitters with integrated metallic anode
Wong YM, Kang WP, Davidson JL, Choi BK, Huang JH |
| 552 - 556 |
Post-treatment of screen-printed carbon nanotube emitter by selective plasma etching
Yu J, Chen J, Deng SZ, She JC, Xu NS |
| 557 - 560 |
KrF laser surface treatment of carbon nanotube cathodes with and without reactive ion etching
Ohsumi K, Honda T, Kim WS, Oh CB, Murakami K, Abo S, Wakaya F, Takai M, Nakata S, Hosono A, Okuda S |
| 561 - 565 |
Field emission of individual carbon nanotubes on tungsten tips
Bai X, Wang MS, Zhang GM, Yu J, Zhang ZX, Guo DZ, Zhao XY, Xue ZQ |
| 566 - 569 |
Improved field-emission characteristics of a multiwalled carbon-nanotube cathode by argon plasma pretreatment and krypton-fluoride laser irradiation
Kim WS, Honda T, Oh CB, Ohsumi K, Murakami K, Abo S, Wakaya F, Takai M |
| 570 - 574 |
Effect of double layer coating on carbon nanotubes for field emission and secondary electron emission measurement
Lee J, Park J, Kim J, Yi W |
| 575 - 578 |
Arrays of isolated tufts of vertically aligned carbon nanotubes for field emission cathodes
Mauger M, Mouton R, Hamzaoui O, Binh VT |
| 579 - 582 |
Low temperature growth of carbon nanotubes by alcohol catalytic chemical vapor deposition for field emitter applications
Sato H, Hata K, Hiasa K, Saito Y |
| 583 - 585 |
High-current-density field emission from multiwalled carbon nanotubes by chemical-vapor deposition with effective aging treatment
Mu H, Zhang XB, Lei W, Lou CG, Wang QL, Yin XW |
| 586 - 589 |
Field emission properties of bare and gold-coated nickel nanowires grown in polymer ion-track membranes
Dangwal A, Muller G, Maurer F, Brotz J, Fuess H |
| 590 - 593 |
Fabrication and field emission properties of regular hexagonal flowerlike ZnO nanowhiskers
Li C, Lei W, Zhang XB, Wang JX, Sun XW, Tan ST |
| 594 - 603 |
Characterization and field emission properties of lanthanum monosulfide nanoprotrusion arrays obtained by pulsed laser deposition on self-assembled nanoporous alumina templates
Cahay M, Garre K, Fraser JW, Lockwood DJ, Semet V, Binh VT, Bandyopadhyay S, Pramanik S, Kanchibotla B, Fairchild S, Grazulis L |
| 604 - 607 |
Field emission characteristics of polymethyl methacrylate polymer thin film
Huang WY, Liu CH, Chen J, Deng SZ, Xu NS |
| 608 - 610 |
Application of ZnO nanopins as field emitters in a field-emission-display device
Wei L, Zhang XB, Zhu ZY |
| 611 - 614 |
Measuring hydrogen-carbon gas inside high-vacuum glass panels by the comparative infrared light method
Chen YH, Chien YH, Fu CH, Lin WY, Su GDJ |
| 615 - 617 |
Residual gas analysis based on carbon nanotube field emission display
Wang JC, Zhang XB, Lei W, Xiao M, Cui YK, Di YS, Mao FM |
| 618 - 622 |
Cathodoluminescent properties of SrGa2S4 : Eu2+ phosphor for field-emission display applications
Duan CY, Chen J, Deng SZ, Xu NS, Zhang JH, Liang HB, Su Q |
| 623 - 626 |
Architecture of field emission display based on a gate electrode of diabolo mode
Yang XX, Zhang XB, Lei W, Zhang ZC, Chen J, Zhang LF |
| 627 - 630 |
Development of carbon nanotubes vacuum field emission differential amplifier integrated circuit
Wong YM, Kang WP, Davidson JL, Kerns DV, Huang JH |
| 631 - 635 |
Interaction mechanism of a terahertz wave generator using a field emission cathode
Lin MC, Lu PS |
| 636 - 639 |
Millimeter wave generator based on field emission cathode
Lin MC, Lu PS |
| 640 - 642 |
Development of compact field emission scanning electron microscope equipped with multiwalled carbon nanotube bundle cathode
Yabushita R, Hata K, Sato H, Saito Y |
| 643 - 645 |
CdTe x-ray sensing driven by electron beam from field emitters
Neo Y, Ikeda Y, Sakata T, Morii H, Shiozawa K |
| 646 - 650 |
Novel gun of rf power amplifier based on always-on cold cathode
Wang QL, Di YS, Lei W, Zhang XB, Wang JC, Mu H |
| 651 - 654 |
Bayard-Alpert ionization gauge using carbon-nanotube cold cathode
Huang JX, Chen J, Deng SZ, Xu NS |
| 655 - 660 |
Integration of a dose control circuit with a vertically aligned nanofiber field emission device
Rahman T, Islam SK, Vijayaraghavan R, Gundman T, Eliza SA, Hossain A, Blalock B, Randolph SJ |
| 661 - 665 |
Development of a high-resolution active-matrix electron emitter array for application to high-sensitivity image sensing
Negishi N, Matsuba Y, Tanaka R, Nakada T, Sakemura K, Okuda Y, Watanabe A, Yoshikawa T, Ogasawara K, Nanba M, Okazaki S, Tanioka K, Egami N, Koshida N |
| 666 - 669 |
Fabrication and characteristics of novel graphite field emitters for application to electron-beam-pumped light sources
Shiozawa K, Neo Y, Okada M, Matsumoto T, Takahashi M, Hashiguchi G, Mimura H |
| 670 - 673 |
Effect of UV irradiation during synthesis of polypyrrole by a one-step deposition/polymerization process
Chang SY, Park J, Jang J, Lee J, Lee J, Yi WK |
| L11 - L13 |
Nanoscale ZrC/ZrB2 multilayered coating's prepared by magnetron sputtering
Li DJ, Yang J, Zhang XH, Cao M |
