The SMAL lens enables super-resolution imaging for semiconductors with clear resolution of features down to tens of ...

For decades, doctors and researchers have faced a persistent challenge in medical imaging: seeing deep into the body often means sacrificing fine detail, while sharper images typically can’t reach as ...

There is a growing demand for non-invasive insights into the complex three-dimensional subcellular dynamics within living tissues at the frontier of biological research. Professor Xi Peng's group at ...

To unravel the complexities of biological phenomena, scientists have long relied on microscopy to visualize the intricate details of their specimens, including tissue architecture, cell morphology, ...

Existing super-resolution techniques still face considerable challenges in complex deep tissue environments. For example, Stimulated Emission Depletion (STED) microscopy relies on a doughnut-shaped ...

Optical super-resolution resolves 137 nm features, matching SEM performance and exceeding a standard 100x objective.

When single-molecule super-resolution microscopes were first commercialized some 15 years ago, they made headlines for their ability to resolve individual molecules and structures at the nanometer ...

Example of super-resolution microscopy: The image shows how the Discrete Molecular Imaging (DMI) technology visualizes densely packed individual targets that are just 5 nanometer apart from each other ...

A decade ago, the Nobel Prize in Chemistry was awarded to a trio of researchers for the development of super-resolved fluorescence microscopy. The announcement at the time stated that the researchers’ ...

There is a growing demand for non-invasive insights into the complex three-dimensional subcellular dynamics within living tissues on the frontier of biological research. To achieve simultaneous ...