Using less to do more

We are experts in small particle technology.
Our founders work revolutionized the area and have been published several times. Prebona has pioneered a groundbreaking process and technology, patenting a method to surface-modify silica particles at the atomic level. This innovation allows us to achieve specific functionalities like odor elimination, surface protection, nutrient solutions and antimicrobial properties.

The unique Prebona technology platform

Our patented technology stands as a truly unique and versatile platform. Rooted in the complex balance of surface-modified silica particles in deionized water, our solutions leverage the inherent qualities of silica (sand) or amorphous silicon dioxide at the nano-level.

  • A single Silica Particle
  • A Silica Particle with an added coupling agent that has great affection for both the silica particle and the active substance
  • A Silica Particle with an added substance (atom or molecule) to perform a specific functionality such as odor elimination or dirt repellency.

Harnessing the power of silica

Silica, a natural and abundant component in the Earth’s crust, serves as our main carrier ingredient. Amorphous silica dioxide, widely used across industries, is deemed safe for human and animal use. Prebona elevates silica’s qualities by adding active ingredients to its surface, unlocking new levels of functionality.

Atomic-level precision

In essence, we design solutions at the atomic level, enabling precise tailoring of functionality for diverse applications. Our 'Atomic Tool-Box' empowers us to control the number, size, and amount of silica particles, making Prebona technology exceptionally versatile and adaptable to various needs.

Efficiency amplified

With all active materials situated on the surface of neutral silica particles, our technology interacts effectively with the surroundings. Prebona technology enhances the efficiency of active materials, such as metal atoms or molecules, hundreds of times more effectively than conventional methods.