In partnership with POSTECH and Yonsei University, Dr. Hyung-Suk Oh and Dr. Woong-Hee Lee of the Clean Energy Research Center at the Korea Institute of Science and Technology (KIST), developed a methodology using bifunctional platinum-nickel alloy catalysts with an octahedral structure that exhibits both oxygen reduction and generation reactions, to improve the reversibility and durability of electrode
Today Emerson announced the release of the Rosemount™ SAM42 Acoustic Particle Monitor for measuring the amount of entrained sand in the output from oil and gas wells. The monitor can detect extremely low concentrat...
Researchers have successfully measured the amount of charge generated in spin-to-charge conversion within a spintronic material at ambient temperature, thanks to a printable organic polymer that prints into chiral configurations.
Materials scientists at Rice University are shedding light on the intricate growth processes of 2D crystals, laying the groundwork for the precise synthesis of these materials with unparalleled accuracy.
From April 23 to 26, Stuttgart will once again be all about quality management. The Austrian measurement technology manufacturer Bruker Alicona sees its presence at Control 2024, the inter-national trade fair for quality assurance, as a duty to communicate the clear advantages of optical 3D meas-urement technology.
Scientists in Manchester are spearheading investigations into the potential of inorganic high-entropy materials (HEMs). Due to the somewhat paradoxical stabilization of chaos in their structure, HEMs deviate from the conventional understanding of a material, which is that of something that is stabilized by forming bonds with other atoms.
Solar thermal fuels, or STFs, are able to transform solar energy into chemical energy that can be stored for a long period and released as thermal energy when required utilizing certain triggers.
A group of scientists from Bohai University in China have created and developed a bifunctional catalyst that could tackle the environmental pollution caused by phenolic compounds and mustard gas.
Expanding the pores of metal-organic frameworks (MOFs) by chemical etching might enhance the MOFs’ performance in several types of applications, such as catalysts and fuel cells.
Researchers at the University of Freiburg, University of Pittsburgh, and University of Akron in the US have found that the adhering soft materials’ surface roughness is what causes this adhesion hysteresis.
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