Discover how electron microscopy advances plant and microbial research with expert insights from the John Innes Centre’s ...

Scientists at the Swiss Light Source SLS have succeeded in mapping a piece of brain tissue in 3D at unprecedented resolution using X-rays, non-destructively. The breakthrough overcomes a long-standing ...

Tissue expansion, originally developed for super-resolution imaging, has become a foundation for expansion omics (ExO), a ...

Discover how automated control simplifies microscopy, enabling fast, accurate imaging with minimal user intervention.

Scanning Electron Microscopy in battery research offers insights into electrode morphology, active material distribution, and ...

An international team of researchers led by the Francis Crick Institute, working with the Paul Scherrer Institute, has ...

Oh developed the process for manufacturing the new nano-OLEDs together with Tommaso Marcato. “In just one single step, the maximum pixel density is now around 2500 times greater than before,” added ...

New tools that create ultra-precise maps of our tissues are transforming our ability to diagnose and cure once-fatal ...

Researchers at ETH Zurich successfully manufactured organic light-emitting diodes (OLEDs) at the nanoscale, achieving dimensions approximately one hundred times smaller than a human cell.

Discover how Professor Sarah Haigh uses electron microscopy to advance material science, from 2D materials to catalysts, with ...