For laboratories needing a high-performance flame atomic absorption (AA) spectrometer, the PinAAcle™ 900F is a flame-only system with a true double-beam design for fast start-up and exceptional ...

Using precision laser measurements, scientists have quantified the nuclear radii of silicon isotopes to improve nuclear ...

Researchers have witnessed and filmed oxygen and hydrogen merging to form tiny, nanoscale water bubbles for the first time.

Vizsla Silver Corp. (TSX-V: VZLA) (NYSE: VZLA) (Frankfurt: 0G3) ("Vizsla" or the "Company") is pleased to report results from ...

Palladium, a rare metallic element, can rapidly generate water from hydrogen and oxygen. Researchers witnessed this process at the nanoscale for the first time with an electron microscope. By viewing ...

Scientists have developed the world's fastest electron microscope, capable of capturing the motion of electrons at unprecedented speeds.

Angel Wing Metals Inc. ("Angel Wing Metals" or the "Company") is pleased to provide an exploration update for the Company's La Reyna Gold Project ("La Reyna" or the "Project") in Nayarit State, Mexico ...

) with a gold intersection of 136.51 m (447.87 ft) at 1.77 g/t gold, including a near surface intersection of 23.89 m (78.38 ft) at 3.32 g/t gold, which includes 5.17 m (16.96 ft) of 13.74 g/t gold.

Orbital angular momentum monopoles, which have been predicted to offer significant advantages for next generation of ...

As part of the global effort to harness power from fusing plasma, scientists worked on the computer codes, engineering and physics for a new and unique fusion reactor: the SMall Aspect Ratio Tokamak.

A study reveals how hydrogen and oxygen atoms merge to form tiny water bubbles at the nanoscale using palladium as a catalyst ...

In traditional electronics, information is transferred using the charge of electrons. However, future technologies may rely ...