R. Vladoiu scite author profile

This review summarizes the more-than-25-years of development of the so-called thermionic vacuum arc (TVA). TVA is an anodic arc discharge in vapors of the material to be deposited; the energy for its melting is delivered by means of a focused electron beam. The resulting material ions fall at the substrate where they form a well-adhesive layer; the ion energy is controllable. The deposited layers are, as a rule, free from droplets typical for cathodic arc deposition systems and the thermal stress of the substrates being coated is low. TVA is especially suitable for processing refractory metals, e.g., carbon or tungsten, however, in the course of time, various useful applications of this system originated. They include layers for fusion application, hard coatings, low-friction coatings, biomedical-applicable films, materials for optoelectronics, and for solid-state batteries. Apart from the diagnostic of the film properties, also the diagnostic of the TVA discharge itself as well as of the by TVA generated plasma was performed. The research and application of the TVA proceeds in broad international collaboration. At present, the TVA technology has found its firm place among the different procedures for thin film deposition.

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Growth and characteristics of tantalum oxide thin films deposited using thermionic vacuum arc technology

Vladoiu

Ciupină

Mandes

et al. 2010

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Tantalum pentoxide (Ta2O5) thin films were synthesized using thermionic vacuum arc (TVA) technology. TVA is an original deposition method using a combination of anodic arc and electron gun system for the growth of thin films from solid precursors under vacuum of 10−6 Torr. The properties of the deposited Ta2O5 thin films were investigated in terms of wettability, refractive index, morphology, and structure. The surface free energy was determined by means of surface energy evaluation system indicating a hydrophilic character and the refractive index was measured by Filmetrics F20 device. The morphology was determined from bright field transmission electron microscopy (TEM) image performed by Philips CM 120 ST TEM system. It exhibits nanoparticles of 3–6 nm diameter smoothly distributed. Selected area electron diffraction pattern revealed the contrast fringes given by complex polycrystalline particles included in the amorphous film. The measured fringes could be indexed using monoclinic structure of Ta2O5.

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R. Vladoiu

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Thermionic Vacuum Arc—A Versatile Technology for Thin Film Deposition and Its Applications

Growth and characteristics of tantalum oxide thin films deposited using thermionic vacuum arc technology

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R. Vladoiu

Corona discharge experiments in admixtures of N2and CH4: a laboratory simulation of Titan's atmosphere

Control over the sp2/sp3 ratio by tuning plasma parameters of the Thermoionic Vacuum Arc

Diamond-like nanostructured carbon film deposition using thermionic vacuum arc

Thermionic Vacuum Arc—A Versatile Technology for Thin Film Deposition and Its Applications

Growth and characteristics of tantalum oxide thin films deposited using thermionic vacuum arc technology

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Product

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Corona discharge experiments in admixtures of N₂and CH₄: a laboratory simulation of Titan's atmosphere