Why do tin sulfide solar cells, a promising and eco-friendly material, struggle to reach their full theoretical potential?

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 ...

Aerosol deposition (AD) methods have emerged as a transformative approach for fabricating both thin and thick films entirely at room temperature. By utilising aerosolised powders propelled onto ...

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

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 ...

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 ...

Atomic Layer Deposition (ALD) and thin film technologies have become indispensable in modern materials science thanks to their ability to achieve angstrom‐level control over film thickness and ...

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 ...

Researchers in the United States developed a novel vapor deposition method for all-inorganic perovskite absorbers using continuous flash sublimation (CFS). They described the new technique as a ...

The laser wavelength, pulse duration, and fluence (energy density) significantly influence the ablation process and the resulting plasma plume. Shorter wavelengths and higher fluences generally lead ...

Thin films play a crucial role in the fabrication of several components and devices, such as protective coatings, integrated circuits, solar cells, and optical ...