Understanding and controlling the crystallisation process is essential for guaranteeing the quality and efficacy of pharmaceutical products. Prof. Adachi, from the Department of Physical Chemistry and ...

Explore the use of Raman spectroscopy for precise tritium detection in the pursuit of sustainable nuclear fusion energy.

Innovative plasmonic structures enable precise nanogap adjustments, significantly improving SERS detection limits and ...

Each year, billions of tons of carbon dioxide and other greenhouse gases are released into the atmosphere by the burning of ...

Use precise geolocation data and actively scan device characteristics for identification. This is done to store and access ...

UKAEA awards £3.5m to develop highly specialised sensors for extreme conditions of fusion energy environments Thirteen ...

A study confirms Raman Spectroscopy’s potential for noninvasive glucose monitoring, improving calibration and accuracy.

Using pyrolysis-gas chromatography and mass spectrometry, scientists from Fudan University and the Putuo District Center for ...

More than 50 million people worldwide live with epilepsy, with approximately half of them being children. For about one-third ...

Graphene-based saturable absorbers show strong potential for high-speed laser systems. Learn how integrating graphene with silicon photonics improves mode-locking and ultrafast pulse generation.

Plasmonic structure enables real-time thermal control of nanogaps for molecule-sized detection, offering sensitivity beyond ...

A research team affiliated with the Nano Optics Group within the Department of Physics at UNIST has announced the successful ...