But only in the last 70 years have we known for certain they were there. In 1956, physicists Clyde Cowan and Frederick Reines ...

Tiny self-propelled nanorobots use body chemistry to navigate directly to tumors and deliver cancer drugs more effectively.

A hydrogel engineered with cell-like particles mimicking skin tissue achieves 99.9% compressibility and ultralow energy loss ...

Pfeiffer Vacuum+Fab Solutions has expanded its turbomolecular vacuum pump portfolio with the ATH 4506 M, the largest ...

Pfeiffer Vacuum+Fab Solutions, part of the Busch Group, has expanded its turbomolecular vacuum pump portfolio with the ATH ...

New research reveals how ocean viruses burst algae cells, fueling a subsurface oxygen band through rapid microbial recycling.

Researchers at CU Boulder have created tiny, microorganism-inspired particles that can change their shape and self-propel, much like living things, in response to electrical fields.

Seeing chemistry unfold inside living cells is one of the biggest challenges of modern bioimaging. Raman microscopy offers a ...

Scientists studying molten metals have uncovered a surprising truth: even in a liquid state, some atoms do not move at all. Credit: SciTechDaily.com Motionless atoms can trap liquid metal in a strange ...

Accurate measurements of surface currents are crucial for coastal monitoring, rip current detection, and predicting the path of pollutants. Several methods exist to measure surface currents, some of ...

Rising demand across industrial, biomedical, aerospace, and media sectors is propelling adoption, as these cameras enable microsecond-level motion capture, real-time analytics, and high-resolution ...

Experience a liquid rocket test like never before through stunning slow-motion footage. This video captures the raw power, detail, and precision of liquid rocket propulsion, revealing fascinating ...