This paper describes the use of Optical Emission Spectroscopy (OES) to measure electron
densities and temperatures in non-equilibrium plasmas. The ways to interpret relative line …

Plasma polymer films (PPFs) are well-known for their enhanced stability compared to
conventional polymer coatings. However, PPFs tend to undergo aging in air or in aqueous …

Since the earliest days of this field there has been an interest in correlating the structure of
plasma polymer (PP) coatings with deposition parameters, most particularly with energy …

A combination of optical emission spectroscopy and collisional-radiative modelling is used
to determine the time-resolved electron temperature (assuming Maxwellian electron energy …

Plasma polymer films typically consist of very short fragments of the precursor molecules.
That rather limits the applicability of most plasma polymerisation/plasma-enhanced chemical …

Plasma jets are increasingly used in plasma medicine, in microelectronics and for surface
treatment due to their unique properties, such as low gas temperature and high …

This study aims to establish a correlation between the fragmentation process and the growth
mechanisms of a coating deposited on a fluoropolymer. Deposition was carried out using …

Thin films based on polylactic acid have been prepared using plasma-assisted vacuum
thermal deposition under varying RF glow discharge power and characterized in terms of …

Nanocomposite coatings are made by atmospheric‐pressure plasma‐enhanced chemical
vapor deposition from ethyl lactate (EL) and silica nanoparticles (NPs) in a dielectric barrier …

By comparing time-resolved optical emission spectroscopy measurements and the
predictions of a collisional-radiative model, the evolutions of electron temperature (T e) and …