New findings upend long-held beliefs about achiral plasmonic metasurfaces, revealing unexpected optical properties that could revolutionize photonics and material science.

Review explores VO2 properties, doping, and fabrication for smart windows. Covers alternative materials, core-shell structures, and practical engineering for energy efficiency.

Researchers develop innovative nanozymes using gas-liquid interface plasma technology. These stable, adaptable materials mimic enzyme activity and respond to various food substances.

Scalable and adaptable, TETRIS captures the diversity of protein interactions on site to inform accurate cancer diagnoses, enabling the personalisation of ensuing treatments.

These reinforced plastics are entirely recyclable, they can be melted down to repair or reshaped into other objects, keeping their properties intact.

Researchers have developed a new method that allows them to precisely control chemical reactions using metal ions. This marks an important step towards computers that function like the human brain.

Scientists explored how quantum squeezing can improve measurement precision in complex quantum systems, with potential applications in quantum sensing, imaging, and radar technologies.

A new biosensing platform detects TNF-alpha at ultra-low levels, advancing early diagnosis and personalized treatment in diseases like cancer.