VACUUM PLASMA TECHNIQUE

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Use the following string on Google Scholar to search for scientific articles where our plasma reactors have been used:
Gambetti Kenologia plasma “Tucano” |and| “Colibrì” |and| “Colibri”

Informative articles

Lightning plasma

Lightning plasma: the science behind nature’s electric phenomenon

When we witness a thunderstorm, the dramatic spectacle of lightning…

Electric plasma: understanding the energy behind ionized matter

Plasma, often referred to as the fourth state of matter, is an…
4th state of matter plasma

The 4th state of matter: exploring plasma

When we think about matter, the three most common states that…

PLASMA ACTIVATION

PLASMA DEPOSITION

PLASMA CLEANING

PLASMA ETCHING

WHAT IS PLASMA?

Scientific articles

Report

Patents

Plasma is an ionized gas, known as the fourth state of matter, making up over 99% of the visible universe. It is found naturally in spectacular phenomena such as nebulas, stars, auroras, and lightning—examples of plasmas present throughout our universe. When an electric field is applied to a gas in a low-temperature and low-pressure environment (vacuum), the gas ionizes, transforming into a highly reactive mixture composed of ionized particles, free electrons, and radicals. This new state, plasma, conducts electricity and possesses unique properties that make it particularly suitable for advanced technological applications, as it can react upon contact with surfaces, modifying their characteristics on a nanometric scale, cleaning them, or enhancing their wettability.

How plasma technology is transforming industrial technology

Plasma technology is employed across numerous industrial sectors due to its capacity to modify surfaces at a nanometric scale. Plasma can clean, activate, or even coat surfaces with extreme precision, enabling the treatment of materials that require high-quality finishing or improvement of surface properties. For instance, in the electronics sector, plasma treatment is used to improve surface wettability, facilitating material adhesion and making production processes more efficient.

Applications and advantages of plasma technology

Plasma technology is particularly advantageous in the industrial sector for various reasons. First, plasma-based products enable highly controlled and precise treatments without the use of aggressive chemicals, making it a more sustainable choice. This technology is widely used to treat surfaces of materials like plastics, glass, and metals, improving the adhesion of inks, paints, or adhesives. In the automotive industry, for example, plasma technology is used to optimize paint adhesion on metal and plastic parts, extending the durability of finishes.

Additionally, with its ability to remove contaminants at the molecular level, plasma technology is ideal for cleaning components destined for sensitive sectors such as biomedical and pharmaceutical industries, where precision and cleanliness are essential. Plasma’s ability to operate on a nanometric scale allows it to penetrate tiny areas and treat irregular surfaces—an important advantage for the semiconductor and electronics industries.

The future of plasma technology

Plasma technology is gaining more ground in modern industrial processes due to its efficiency and sustainability. With the growing demand for advanced materials and eco-friendly production processes, plasma represents an innovative and versatile solution. Studies and research continue to explore new applications, such as medical device sterilization, the synthesis of advanced materials, and the enhancement of antibacterial surfaces.
Plasma technology offers a range of opportunities to optimize industrial production, making processes more efficient, eco-friendly, and sustainable.