Fabrication of field emitter array using focused ion and electron beam induced reaction

Takai, M.; Kishimoto, T.; Morimoto, H.; Park, Y. K.; Lipp, S.; Lehrer, C.; Frey, L.; Ryssel, H.; Hosono, A.; Kawabuchi, S.

doi:10.1016/s0167-9317(98)00105-1

Cited by 29 publications

(15 citation statements)

References 3 publications

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“…Many studies have been carried out using scanning electron microscopes (SEM) (Allen et al ., 1988;Bret et al ., 2005;Fischer et al ., 2006;Hoyle et al ., 1996;Kindt et al ., 2004;Kohlmann-von Platen et al ., 1993;Randolph et al ., 2005b;Utke et al ., 2000), transmission electron microscopy (TEM) (Kislov et al ., 1996;Matsui and Ichihashi, 1988;Mitsuishi et al ., 2003), and scanning transmission electron microscopy (STEM) (Silvis-Cividjian et al ., 2002van Dorp et al ., 2005) equipped with gas injection system for various gases and conditions, and has been found to be successful for the deposition of materials such as W (Choi et al ., 2006;Komuro, 1997, 1999;Hoyle et al ., 1993Hoyle et al ., , 1996Ichihashi and Matsui, 1988;Komuro and Hiroshima, 1997;Koops et al ., 1988), Au (Görtz et al ., 1995), Cu (Luisier et al ., 2004) and Pt (Takai et al ., 1998), and also for the etching with XeF 2 (Wang et al ., 2003;Rack et al ., 2003;Randolph et al ., 2005a) precursor gas. In summary, the technique has an enormous potential in many fields of application .…”

Section: Introductionmentioning

confidence: 99%

Effect of Electron Beam‐Induced Deposition and Etching Under Bias

et al. 2007

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Electron-beam-induced deposition (EBID) and etching (EBIE) provides a simple way to fabricate or etch submicron or nanoscale structures of various materials in a direct-write (i.e.nonlithographic) fashion. The growth rate or the etch rate are influenced by many factors such as beam energy, beam current, temperature of the substrate material, pressure of the chamber, and geometry of the gas injector etc. The mechanism of EBID and EBIE involves the interaction of the incident electron beam or emitted electron from the target material. The role of these electrons is still not completely understood although the contribution of low energy secondary electrons (SE) has been assumed to be the dominant contributor of EBID and EBIE based on its overlap with the dissociation cross section. We have studied the growth and etching phenomenon under various biasing conditions to investigate how low voltage biasing of the substrate affects secondary electron trajectories and subsequently modifies electron-beam-induced deposition and etching.

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Section: Introductionmentioning

confidence: 99%

Effect of Electron Beam‐Induced Deposition and Etching Under Bias

et al. 2007

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“…Platinum has been deposited using EBCVD previously by several groups, including Takai et al, 5 Hübner et al, 6 and Koops et al 7 Deposition was performed using C 5 H 5 Pt͑CH 3 ͒ 3 as a precursor. Typical platinum deposits contain 10%-20% Pt and over 70% carbon, along with small amounts of oxygen.…”

Section: Introductionmentioning

confidence: 99%

“…Volumetric deposition rates ranging from approximately 0.6 to 0.06 m 3 / min have also been reported. 5 Increasing voltage has been shown to decrease the deposition rate. Increasing the deposition time typically leads to a decrease in the deposition rates, but Hübner et al 6 did not report this effect over a short deposition time range.…”

Section: Introductionmentioning

confidence: 99%

Influence of process variables on electron beam chemical vapor deposition of platinum

Beaulieu

Ding

Wang

et al. 2005

Journal of Vacuum Science &Amp; Technology B: Microelectronics and Nanometer Structures Processing, Measurement, and Phenomena

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“…A variety of materials have been deposited using a focused electron beam including carbon, 1 chromium, 2 gold, 3-5 iron, 6-7 silicon, 8 silicon oxide, 9 palladium, 10 platinum, 11,12 and tungsten. [13][14][15][16][17][18][19][20][21] Fewer investigators have explored electron-beam etching, however, photoresist, 22,23 silicon, 24,25 silicon dioxide, 24 silicon nitride, 24 and tantalum/tantalum nitride 25 have been reported.…”

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confidence: 99%

Nanoscale electron-beam-stimulated processing

Rack

Randolph

Deng

et al. 2003

Applied Physics Letters

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Electron-beam-stimulated deposition and etching has been investigated as a clean, alternative method for nanoscale selective processing. Depositions using W(CO)6 and hydrocarbon sources have yielded efficient and selective electron-beam deposits. Primarily fluorine-based precursors have been used to etch a variety of materials. Initial results regarding the selective etching of silicon and silicon dioxide suggest that inelastic scattering of the primary electron beam with the gas occurs and is more severe at lower beam energies. The etch rate increases linearly with decreasing electron-beam energy, however, it is not clear if this is due to enhanced primary- or secondary-electron-stimulated processes. Feature sizes as small as 55 nm have been selectively processed.

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Fabrication of field emitter array using focused ion and electron beam induced reaction

Cited by 29 publications

References 3 publications

Effect of Electron Beam‐Induced Deposition and Etching Under Bias

Effect of Electron Beam‐Induced Deposition and Etching Under Bias

Influence of process variables on electron beam chemical vapor deposition of platinum

Nanoscale electron-beam-stimulated processing

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