Nitrogen modification of hydrogenated amorphous carbon films

Silva, S. Ravi P.; Robertson, John; Amaratunga, G.A.J.; Rafferty, B.; Brown, L. M.; Schwan, J.; Franceschini, D. F.; Mariotto, G.

doi:10.1063/1.363927

Cited by 343 publications

(148 citation statements)

References 40 publications

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“…[4,17] It can be seen from Fig. 3 (a) that E th drops with addition of N similar to that reported elsewhere [4,16] but in contrast to the DLC films of Silva et al, [18] no reduction in N s is observed (Fig 3 (b)). The reduction in N s in the DLC films was attributed to the passivation of defects as evidenced by the initial increase in the Tauc gap followed by a subsequent decrease.…”

Section: (A)supporting

confidence: 86%

Influence of sp2 clusters on the field emission properties of amorphous carbon thin films

Carey

Forrest

Khan

et al. 2000

Applied Physics Letters

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The influence of the concentration and size of sp 2 carbon clusters on the field emission properties of hydrogenated amorphous carbon thin films is investigated. In combination with electron paramagnetic resonance and optical measurements, it is shown that the trend in the threshold field for emission for films deposited under certain conditions can be explained in terms of improvements in the connectivity between sp 2 clusters. These clusters are believed to be located near the Fermi level, and the connectivity is primarily determined by the cluster size and concentration which in turn is determined by the choice of deposition conditions.

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Section: (A)supporting

confidence: 86%

Influence of sp2 clusters on the field emission properties of amorphous carbon thin films

Carey

Forrest

Khan

et al. 2000

Applied Physics Letters

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“…15,16 A hydrocarbon containing gas mixture of CH 4 /He/N 2 was dissociated at a rf power of 30 W to deposit a-C:H:N films on highly doped ͑0.01-0.001 ⍀ cm͒ n-Si substrates. The films were deposited on substrates held at room temperature, and the properties of the films can be found in the literature.…”

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confidence: 99%

“…The films were deposited on substrates held at room temperature, and the properties of the films can be found in the literature. 16 Nitrogen in amorphous carbon films is shown to act at a weak donor and alters the joint density of states in the films. Field-emission measurements were carried out using a parallel plate configuration with the film being the cathode and an ITO coated glass the anode placed 50 m from the cathode using glass fiber spacers.…”

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confidence: 99%

“…% N, respectively. 16 All the films in this study were deposited under very similar conditions ͑i.e., the same dc selfbias voltage and pressure in the rf PECVD process͒ on substrates held at room temperature. Therefore, the change in texture cannot be attributed to either the ion energy of the CH ion species or the substrate temperature.…”

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confidence: 99%

“…It has been shown that N incorporated into a-C:H films acts as a weak donor state that moves the activation energy from ϳ0.8 to ϳ0.5 eV from the conduction-band edge for the 1.8-2.0 eV band-gap films analyzed in this study. 16 The conductivity of the a-C:H:N films is, therefore, still very low (ϳ10 Ϫ5 ⍀ Ϫ1 cm Ϫ1 ) at room temperature and cannot sustain a high conduction current through the film at low electric fields. However, since there is a weak doping effect, with the increased atomic N content in the films, it is more likely for there to be space-charge-induced band bending in the fully depleted a-C:H:N film due to an increased ionized donor concentration in the films due to the presence of the n ϩϩ -Si/a-C:H:N heterojunction, as discussed previously.…”

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confidence: 99%

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Self-texturing of nitrogenated amorphous carbon thin films for electron field emission

Silva

Amaratunga

Barnes

1997

Applied Physics Letters

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The electron field-emission process for nitrogenated amorphous carbon ͑a-C:H:N͒ thin films deposited using a magnetically confined hydrocarbon plasma is examined. The morphology of the films obtained using an atomic force microscope is compared to the field-emission properties. Beyond a chemical composition of 14 at. % nitrogen, the mirror smooth a-C:H:N films become self-texturing, and multiple ''domelike'' cathodes of nanometer scale are observed. The dimensions of these ''domelike'' cathodes varies with time, and after a 15 min deposition have dimensions of approximately 50 nm base diameter and 20 nm in height. When the electronic field emission of these textured films ͑N content 15 at. %͒ are measured, there is an enhancement in the emitted current density of ϳ2 orders of magnitude at an electric field of 20 V/ m, in comparison to the untextured films with a nitrogen content of 11 at. %.

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TEM, XPS and FTIR characterization of sputtered carbon nitride films

Wei

Hing

1999

Surf. Interface Anal.

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Carbon nitride films were grown on Si(100) substrates using d.c. magnetron sputtering with r.f. bias. Reactive deposition was achieved using a graphite target in an argon/nitrogen plasma. These films were characterized by transmission electron microscopy (TEM), XPS and Fourier transform infrared spectroscopy (FTIR) spectroscopy. Relatively large carbon nitride crystal grains in polycrystalline structures were observed with TEM. According to calculations from electron diffraction patterns, these crystalline structures were hexagonal β‐C3N4. From XPS data, N/C ratios in the films were calculated to be in the range of 0.18–0.5. The XPS spectra of the films typically showed three peaks in the C 1s core‐level spectrum (centred at 284.6, 285.9 and 287.2 eV) and two peaks in the N 1s core‐level spectrum (centered at 398.7 and 400.2 eV). This indicates that there are two types of CN bonds; N is bonded to sp2‐ or sp3‐coordinated C atoms in the as‐deposited films. The FTIR spectra showed three absorption bands in the range 1000–3000 cm−1. The absorption band at ∼2367 cm−1 can be attributed to the CN nitrile bond. The absorption bands at ∼1559 cm−1 and 1201 cm−1 demonstrate the existence of CN (sp2) and CN (sp3) bonds. Moreover, the relative absorption intensity of CN bonds seems to increase with increasing nitrogen content. Both XPS and FTIR measurements showed the presence of fourfold‐coordinated β‐C3N4 crystals in the films, which is in good agreement with TEM and electron diffraction results. Copyright © 1999 John Wiley & Sons, Ltd.

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Nitrogen modification of hydrogenated amorphous carbon films

Cited by 343 publications

References 40 publications

Influence of sp2 clusters on the field emission properties of amorphous carbon thin films

Influence of sp2 clusters on the field emission properties of amorphous carbon thin films

Self-texturing of nitrogenated amorphous carbon thin films for electron field emission

TEM, XPS and FTIR characterization of sputtered carbon nitride films

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