Loading…

Synthesis of nanocrystalline diamond embedded diamond-like carbon films on untreated glass substrates at low temperature using (C2H2 + H2) gas composition in microwave plasma CVD

[Display omitted] •DLC films with embedded NCD component grown at ∼300 °C on glass substrate without pre-treatment or biasing.•C2H2 used as carbonaceous precursor in MW-PECVD-led diffuse plasma, created at the growth zone under shadow-mask.•Microstructure, morphology and the growth mechanism of NCD...

Full description

Saved in:
Bibliographic Details
Published in:Applied surface science 2022-03, Vol.579, p.152132, Article 152132
Main Authors: Paramanik, Brijmohan, Das, Debajyoti
Format: Article
Language:English
Subjects:
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:[Display omitted] •DLC films with embedded NCD component grown at ∼300 °C on glass substrate without pre-treatment or biasing.•C2H2 used as carbonaceous precursor in MW-PECVD-led diffuse plasma, created at the growth zone under shadow-mask.•Microstructure, morphology and the growth mechanism of NCD films studied at varied plasma parameters.•Synchronized maxima of IDia/IG, IDia/ID with minimum of ID/IG in Raman data identify good quality NCD-embedded DLC films.•Synthesis of stress-free optimized DLC films with characteristic diamond peak at ∼1332 cm−1 and ∼55% sp3 hybridized carbon. Diamond-like carbon (DLC) films with well distinguished nanocrystalline diamond (NCD) grains embedded in the matrix are grown at ∼300 °C on glass substrates without any pre-treatment, using a specially-designed stainless-steel shadow-mask assembly creating diffuse secondary plasma that shields the growth zone from high energy ion bombardment. The effects of different compositions of the precursor gas, R = C2H2 / (C2H2 + H2), and gas pressure in the plasma at 500 W of microwave power demonstrate their significant influences on controlling the relative composition of the sp3 to sp2 hybridized carbon phases in the films. The maximum intensity ratio of IDia/IG (∼1.05) and IDia/ID (∼1.05) along with the corresponding minimum of ID/IG (∼1.0) appearing in the Raman spectrum at R = 0.33 and 25 Torr pressure, correlate a superior diamond-phase containing ∼55% sp3-hybridized carbon in the DLC network having high optical transmittance of ∼87% at 600 nm wavelength. A homogeneous microstructure with uniform distribution of the NCD grains of average size ∼10 nm and 〈111〉 crystallographic orientation, and smooth surface morphology with average roughness ∼2.1 nm is obtained in the optimum NCD embedded DLC film, the growth mechanism of which is discussed on the basis of parametric changes.
ISSN:0169-4332
1873-5584
DOI:10.1016/j.apsusc.2021.152132