A laser-based innovation could allow electron microscopes to reveal biological structures that have long remained beyond ...
The nucleolus is a liquid-like cellular organelle where protein factories called ribosomes are assembled. Researchers knew of ...
A nerve cell resembles a vast tree with branches that communicate with thousands of other cells. To function, it depends on a ...
New cases slow in NYC Legionnaires’ disease outbreak; Met museum among buildings with positive tests
Health officials say a Legionnaires’ disease outbreak in Manhattan’s Upper East Side now counts 60 cases, but new diagnoses ...
Scientists have uncovered a hidden quantum limit that prevents an electron's position and timing from ever being known with ...
A new Tufts University imaging facility is doing something that most microscopy centers in the world cannot: allowing ...
The global microscopy market is projected to grow from USD 8.81 billion in 2025 to USD 11.44 billion by 2031, registering a ...
Tescan, a pioneer in electron microscopy, announces the successful completion of its full acquisition by Shimadzu Corporation ...
This ultrafast electron microscopy method allows researchers to observe how microelectronic materials function at nanoscale lengths and nanosecond speeds. The drive toward smaller, faster and more ...
Molten-salt method from UChicago and Argonne could unlock durable materials for printed electronics, flexible devices ...
A technique that supersizes cells to reveal minute details has gone big — really big. Using a polymer similar to those used in nappies to make them super-absorbent, scientists have expanded the volume ...
Scientists studying Hadrian's Villa found that carbonation, not just volcanic ash, helps explain why Roman concrete has ...
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