Fifty years ago, scientists hit upon what they thought could be the next rocket fuel. Carboranes—molecules composed of boron, carbon and hydrogen atoms clustered together in three-dimensional shapes—were seen as the possible basis for next-generation propellants due to their ability to release massive amounts of energy when burned.... PHYS.ORG · 1 month
Strategies in catalysts and electrolyzer design for electrochemical CO2 reduction toward C2+ products  Science Magazine · 5 days
In light of environmental concerns and energy transition, electrochemical CO2 reduction (ECR) to value-added multicarbon (C2+) fuels and chemicals, using renewable electricity,... more
How manipulating ligand interactions in metal clusters can spur advances in nanotechnology  PHYS.ORG · 3 weeks
When metal atoms form small clusters of a particular size, they show interesting and potentially useful electromagnetic characteristics, which are different from those of... more
Machine learning models accelerate the search for critical electrocatalysts  nanowerk · 2 weeks
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Pathogenic siderophore ABC importer YbtPQ adopts a surprising fold of exporter  Science Magazine · 3 weeks
To fight for essential metal ions, human pathogens secrete virulence-associated siderophores and retake the metal-chelated siderophores through a subfamily of adenosine triphosphate (ATP)–binding cassette (ABC) importer,... more
New method for delivering NSCs to spinal cord injuries may boost repair efforts  NEWS MEDICAL · 4 weeks
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Scientists invent lightweight liquid metal materials  PHYS.ORG · 1 day
Room temperature liquid metal, for example Gallium-based alloy, has high electrical and thermal conductivity, and excellent fluidity. They can be used in various application fields such as flexible electronics, wearable devices, biomedical practices, exoskeleton systems and... more
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Warfighters on the battlefield often rely on machines, vehicles and other technologies with rotating parts to complete their mission. Army researchers have devised a new method of testing for a major factor in equipment... more
Defect-induced activity enhancement of enzyme-encapsulated metal-organic frameworks revealed in microfluidic gradient mixing synthesis  Science Magazine · 4 weeks
Mimicking the cellular environment, metal-organic frameworks (MOFs) are promising for encapsulating enzymes for general applications in environments often unfavorable for native enzymes.... more
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A research team has developed a way to address a major safety issue with lithium metal batteries - an innovation that could make high-energy batteries more viable for next-generation energy storage. more
Cerebrospinal fluid influx drives acute ischemic tissue swelling  Science Magazine · 4 weeks
Stroke affects millions each year. Post-stroke brain edema predicts the severity of eventual stroke damage, yet our concept of how edema develops is incomplete and treatment options remain limited. In early stages,... more
Chemists simplify the synthesis of antitumor compounds  PHYS.ORG · 4 weeks
A RUDN chemist in collaboration with colleagues from N.D. Zelinsky Institute of Organic Chemistry and N.K. Koltsov Institute of Developmental Biology (IDB), RAS have developed a new method for the synthesis of isoxazole derivatives—substances... more
Novel method for reading complete genomes from limited amounts of biological material  PHYS.ORG · 4 weeks
An improved method for reading and interpreting genomes from organisms that are difficult to investigate has been developed at Uppsala University. A team of... more
Resolving hydrogen atoms at metal-metal hydride interfaces  Science Magazine · 4 weeks
Hydrogen as a fuel can be stored safely with high volumetric density in metals. It can, however, also be detrimental to metals, causing embrittlement. Understanding fundamental behavior of hydrogen at the atomic scale is... more
Mathematician develops method to explore the structure of molecules  PHYS.ORG · 3 weeks
A scientist from the Mathematical Laboratory of RUDN University has obtained new results in a study of the inverse problem for coupled Schrödinger equations. This result will be useful for... more
Dissociate lattice oxygen redox reactions from capacity and voltage drops of battery electrodes  Science Magazine · 3 weeks
The oxygen redox (OR) activity is conventionally considered detrimental to the stability and kinetics of batteries. However, OR reactions are often confused... more
Harvesting water from thin air with metal-organic frameworks  nanowerk · 4 weeks
Researchers have identified highly absorbent materials that can extract drinkable water out of thin air - which could potentially lead to technologies that supply potable water in the driest areas on the... more
Breaking up amino acids with radiation  PHYS.ORG · 3 weeks
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Study identifies previously unknown toxic by-products potentially present in drinking water  NEWS MEDICAL · 4 weeks
Researchers at John Hopkins University have found that the most common method for disinfecting water can generate toxic by-products. more
First view of hydrogen at the metal-to-metal hydride interface  PHYS.ORG · 4 weeks
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Messier 104, a lenticular galaxy located 28 million light-years away in the constellation Virgo, now has a new... more
Quantum logic spectroscopy unlocks potential of highly charged ions  PHYS.ORG · 4 weeks
Scientists from the PTB and the Max Planck Institute for Nuclear Physics (MPIK), both Germany, have carried out pioneering optical measurements of highly charged ions with unprecedented precision. To do... more
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Research team tackles superbug infections with novel therapy  PHYS.ORG · 6 days
There may be a solution on the horizon to combating superbug infections resistant to antibiotics. The tenacious bacteria and fungi sicken more than 2.8 million people and lead to more than 35,000... more
How manipulating ligand interactions in metal clusters can spur advances in nanotechnology  nanowerk · 3 weeks
Researchers uncover how interactions among ligands dictate the final structure of metal clusters, which have various applications in modern electronic devices. more
New injection technique may boost spinal cord injury repair efforts  SCIENCE DAILY · 4 weeks
Researchers describe a new method for delivering neural precursor cells to spinal cord injuries in rats, reducing the risk of further injury and boosting the propagation of potentially... more
New electrode design may lead to more powerful batteries  MIT · 3 weeks
An MIT team has devised a lithium metal anode that could improve the longevity and energy density of future batteries. more
Method detects defects in 2D materials for future electronics, sensors  SCIENCE DAILY · 4 weeks
To further shrink electronic devices and to lower energy consumption, the semiconductor industry is interested in using 2D materials, but manufacturers need a quick and accurate method for... more
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