High-speed atomic force m (HS-AFM) reveals nanoscale differences in small extracellular vesicles (sEVs), improving biomarker ...

The University of Oxford’s Department of Materials has entered a new era in microscopy with the arrival of a custom-built £3 ...

This study uses multimodal imaging—including SHG, SIMS, and TEM—to reveal how fibroblasts interact with 3D collagen scaffolds ...

Do blue light glasses actually help with sleep or eye strain? We explore the science behind blue light exposure, circadian ...

The DELTA technique offers a brain-wide view of synaptic protein alterations, enhancing understanding of neuronal connections ...

Today, modern measurement technologies enable high-precision detection of the movement of liquids and gases - and thus ...

Innovative complex frequency excitations offer a breakthrough in wave-matter interactions, enabling enhanced performance in ...

Harvard physicists develop a novel cascaded-mode interferometer, enhancing light control for applications in fiber-optic ...

Curious about what planets look like through a telescope? This guide breaks down what you’ll see based on your telescope’s ...

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.

200 μm closed loop travel range. High-stiffness (1.3 N/µm) provides class-leading step settle performance. 20 µm (10 %) step sub-8 ms with 150 g load. Stainless steel construction provides ...