Kanazawa University, in collaboration with Osaka University and the National Institutes for Quantum Science and Technology, ...

Microscopy continues to transform the life sciences. Here are five recent breakthroughs made possible by the technique.

Learn how multi-scale insights from AFM and AFP enhance hybrid bond integrity and device performance.

Kanazawa University, have captured real-time images showing how a key brain enzyme organizes itself to help memory formation.

Researchers at Oak Ridge National Laboratory used specialized tools to study materials at the atomic scale and analyze ...

Cecilia Van Cauwenberghe explains how to measure the future using nanoscale metrology and discusses the global competition ...

Researchers in China have developed an electrical imaging technique using three-dimensional (3D) tomographic conductive atomic force microscopy (TC-AFM) to go beyond indirect characterization of ...

The meninges act as a key mechano-biological interface—dissipating external forces, supporting neuroimmune homeostasis, and dynamically regulating the ...

Perovskite solar cells have garnered widespread attention as a low-cost, high-efficiency alternative to conventional silicon ...

The Park FX40 Automatic Atomic Force Microscope (AFM) System is capable of high spatial resolution surface mapping and is equipped with a True Non-Contact TM mode capable of nanoscale surface analysis ...

In a breakthrough study, scientists from Switzerland and Japan built a new kind of "super microscope" by blending two powerful imaging tools: atomic force microscopy (AFM) and fluorescence microscopy, ...

How flu viruses enter cells has been directly observed thanks to a new microscopy technique with the potential to revolutionize research on membrane biology, virus–host interactions and drug discovery ...