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

Laser Biomedical Research Center, G. R. Harrison Spectroscopy Laboratory, Massachusetts Institute of Technology, Cambridge, United States ...

在现代医药研发的舞台上，拉曼光谱技术（Raman spectroscopy）堪称一位 “多面手”。它凭借快速、高效且无损的特性，在药物发现、质量控制以及活性药物成分（API）开发等多个关键环节发挥着重要作用。想象一下，药物研发人员如同在黑暗中摸索的探险家，拉曼光谱就像是他们手中的 “神奇手电筒”，能帮助其透过复杂的分子结构迷雾，精准识别化合物，监测药物生产过程中的质量变化。

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

A research team led by Prof. Gao Xiaoming from the Hefei Institutes of Physical Science of the Chinese Academy of Sciences ...

In an archaeological breakthrough, scientists have uncovered the remains of a young woman who lived over2,000 years ago along ...

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

More than 50 million people worldwide live with epilepsy, with approximately half of them being children. For about one-third of these patients, medications do not control their seizures, leaving ...

Research on plastics in aquatic environments is well-established, but little is known about their presence, pathways, and ...

With pharmaceutical and biotechnology R&D witnessing unprecedented growth, molecular spectroscopy methods such as nuclear magnetic resonance (NMR), Fourier transform infrared (FTIR), and Raman ...