AFM is a scanning probe microscopic instrument that consists of a force-sensing microcantilever, a laser source, a piezoelectric scanner and a photodiode detector (Figure 1A). During AFM imaging, the ...

A breakthrough in imaging technology promises to transform our understanding of the inner workings of living cells, and provide insights into a wide range of diseases. The study, recently published in ...

The value measured by the 3D Cell Explorer is not fluorescence intensity of an exogenous molecule like with most optical microscopes. In contrast, Nanolive’s technology detects the physical refractive ...

DNA's iconic double helix does more than "just" store genetic information. Under certain conditions, it can temporarily fold into unusual shapes. Researchers at Umeå University, Sweden, have now shown ...

Characteristics of brain complex structure, classification of biomanufacturing methods, key points of functional reconstruction, and application prospects. Brain, the material foundation of human ...

Cells have always hummed with activity. They make their own energy, package it into molecules like ATP, and spend it relentlessly to stay alive. Proteins twist, ions rush, and membranes flex as life ...

Biology and quantum physics often seem like they belong to separate worlds. Living cells function in warm, noisy environments, full of constant motion, while quantum technologies usually need ...

Inside every living cell, tiny molecular machines are constantly in motion, shifting shapes, tugging on membranes and shuttling ions from one side to the other. That restless activity does more than ...

3D printing technology has already transformed the field of biomedical research by allowing scientists to produce soft tissue, replacement windpipes, and working hearts on a whim. But each of these ...