"Although traditional microscopes assume the sample is perfectly flat, real-life samples such as tissue sections, plant ...

Scientists reclassified a long-misunderstood fossil from Brazil as a new genus, Franscinella riograndensis. Using advanced ...

As one of the important research methods for nanomaterial analysis, transmission electron microscopy (TEM) uses high-energy ...

Machine-learning models can speed up the discovery of new materials by making predictions and suggesting experiments. But most models today only consider a few specific types of data or variables.

Microbial cement combines energy storage and structural support, showcasing self-regeneration and improved performance ...

Laser written high entropy oxide electrodes with tree like nanoarrays integrate structure and chemistry to achieve efficient ...

This work, combining behavioural genetics and calcium imaging, provides evidence for a form of learning in Drosophila that derives solely from direct or (optogenetically induced) phantom experience of ...

Humans have been making metal alloys for thousands of years, and most of us can conjure a rough mental image of the ...

Scientists in Germany report a method to boost performance of perovskite solar cells made with laminated carbon electrodes ...

Growing III-V nano-ridge lasers directly on silicon sidesteps the complexities of existing integration methods and paves the way for scalable, cost-efficient photonic integrated circuit production.

Using scanning electron microscopy, researchers analyzed the way teeth changed over time in more acidic conditions. They ...