CORDIS Project
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This research focuses on advancing self-assembly techniques using the Casimir effect to create complex materials. It aims to develop a controlled method for self-assembly that enhances material properties and opens new applications in various scientific fields.
Self-assembly is an important area of research that has numerous practical applications, including in the fields of materials science, nanotechnology, and biotechnology.
Despite its widespread use, conventional self-assembly is limited, especially in terms of complexity, scalability, and dynamical control.
In this context, a promising solution to these challenges is the use of Casimir self-assembly, which leverages the fundamental physics of the Casimir effect.
The Casimir effect refers to the f…
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