Near-surface hydrogen depletion of diamond-like carbon films produced by direct ion deposition


Near-surface hydrogen depletion of diamond-like carbon films produced by direct ion deposition

Markwitz, A.; Gupta, P.; Mohr, B.; Hübner, R.; Leveneur, J.; Zondervan, A.; Becker, H.-W.

Amorphous atomically flat diamond-like carbon (DLC) coatings were produced by direct ion deposition using a system based on a Penning ion source, butane precursor gas and post acceleration. Hydrogen depth profiles of the DLC coatings were measured with the 15N R-NRA method using the resonant nuclear reaction 1H(15N,alpha gamma)12C (Eres = 6.385 MeV). The films produced at 3.0-10.5 kV acceleration voltage show two main effects. First, compared to average elemental composition of the film, the near-surface region is hydrogen depleted. The increase of the hydrogen concentration by 3% from the near-surface region towards the bulk is attributed to a growth model which favours the formation of sp2 hybridised carbon rich films in the film formation zone. Secondly, the depth at which the maximum hydrogen concentration is measured increases with acceleration voltage and is proportional to the penetration depth of protons produced by the ion source from the precursor gas. The observed effects are explained by a deposition process that takes into account the contributions of ion species, hydrogen effusion and preferential displacement of atoms during direct ion deposition.

Keywords: Diamond-like carbon; Hydrogen depletion; Depth profile; Nuclear reaction analysis; Growth process

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Publ.-Id: 22497