Thin film deposition is crucial across industries like semiconductors, photovoltaics, and optics, where achieving high-quality films hinges on effective surface preparation. Contaminants such as ...

Multiscale modelling and control of thin film deposition processes encompass advanced simulation techniques that integrate phenomena occurring over disparate spatial and temporal scales. At the ...

In this interview, discover how ATLANT 3D's DALP technology is revolutionizing thin-film deposition, enabling rapid prototyping and advanced material applications in nanofabrication. Can you please ...

Researchers from ten countries assessed the prospects of using vapor-based deposition processes to put perovskite thin film processing on the fast track to commercialization, drawing attention to its ...

As chips shrink to the nanometer scale, precise control over every fabrication step becomes essential. Atomic layer deposition (ALD) has emerged as a cornerstone of nanoelectronics, enabling the ...

ALD is based on the sequential use of a gas phase chemical process. The ALD cycle consists of four main steps: (1) pulsing of a precursor A, (2) purging of the reactor to remove excess precursor and ...

A research team has made a significant breakthrough in thin film deposition technology. A research team, led by Professor Joonki Suh in the Department of Materials Science and Engineering and the ...

For thin film optical coatings, most critical production challenges appear in the first half of the manufacturing cycle, particularly in coating deposition methodologies. As explained by Ron Willey, ...

As the world urgently seeks clean energy solutions, solar power stands out for its abundance and scalability compared to ...