Electrons hop to it on twisted molecular wires
Researchers at Osaka University synthesized twisted molecular wires just one molecule thick that can conduct electricity with less resistance compared with previous devices. This work may lead to carbon-based electronic devices that require fewer tox.....»»
Could life exist in molecular clouds?
Our search for life beyond Earth is still in its infancy. We're focused on Mars and, to a lesser extent, ocean moons like Jupiter's Europa and Saturn's Enceladus. Should we extend our search to cover more unlikely places like molecular clouds?.....»»
Molecular rulers for high-resolution microscopy
There is good news for researchers working with high-resolution fluorescence microscopy: Biocompatible molecular rulers are available for the first time to calibrate the latest super-resolution microscopy methods......»»
Fish brains may provide insight into the molecular basis of decision-making
How do animals make decisions when faced with competing demands, and how have decision making processes evolved over time? In a recent publication in Biology Letters, Tina Barbasch, a postdoctoral researcher at the Carl R. Woese Institute for Genomic.....»»
Theoretical work indicates that the future Electron Ion Collider can be used to measure the shape of atomic nuclei
Scientists have developed a new way to study the shapes of atomic nuclei and their internal building blocks. The method relies on modeling the production of certain particles from high-energy collisions of electrons with nuclear targets. Such collisi.....»»
Applying semiconductor manufacturing principles to optoelectronic devices
Optoelectronics detect or emit light and are used in a variety of devices in many different industries. These devices have historically relied on thin transistors, which are small semiconductors that control the movement of electrons and photons made.....»»
Molecular diversity and evolution of far-red light photosynthesis
A collaborative study led by Dr. Christopher Gisriel at Yale University and Dr. Tanai Cardona at Queen Mary University of London, published in Frontiers in Plant Science, offers new insight on the origin and evolution of a unique type of photosynthes.....»»
Physicists discover molecule-like structure of nuclear ground state
Scientists from the Institute of Modern Physics (IMP) of the Chinese Academy of Sciences (CAS), along with their collaborators, have recently discovered a molecular-type structure in the ground state of atomic nuclei. The study was published in Physi.....»»
Q&A: Scientific collaboration paves the way to cleaner technologies for industry
During the nearly five decades of its operation, the European Molecular Biology Laboratory (EMBL) in Hamburg has developed many fruitful collaborations with other scientific institutions located in the Hamburg metropolitan area. One example is the lo.....»»
Unearthing how a carnivorous fungus traps and digests worms
A new analysis sheds light on the molecular processes involved when a carnivorous species of fungus known as Arthrobotrys oligospora senses, traps and consumes a worm. Hung-Che Lin of Academia Sinica in Taipei, Taiwan, and colleagues present these fi.....»»
An effective approach for preparing supramolecular polymers at high concentration
Supramolecular polymers (SPs) are molecular assemblies composed of non-covalently bonded small molecules. They show high recyclability originating from their dynamic nature of monomer binding, which is different from covalent polymers with non-biodeg.....»»
Researchers improve efficacy and efficiency of CRISPR diagnostic technology
Changchun Liu, professor of Biomedical Engineering at UConn Health, has developed a new method that improves existing diagnostic technology for a more rapid, sensitive, and deployable approach to molecular diagnostics......»»
Boomerang-like beams of light: Research makes progress toward observing quantum backflow in two dimensions
Researchers at the University of Warsaw's Faculty of Physics have superposed two light beams twisted in the clockwise direction to create anti-clockwise twists in the dark regions of the resultant superposition. The results of the research have been.....»»
To study radioactive neptunium and plutonium, researchers establish a novel chemistry
Oxidation is the process where atoms lose electrons during a chemical reaction. Among the radioactive elements, neptunium and plutonium are much harder to oxidize than uranium......»»
A highly efficient open-shell singlet luminescent diradical with strong magnetoluminescence properties
Open-shell singlet (OS) diradicals are important building blocks for functional molecular materials, with a large number of pioneering works by researchers advancing their development and applications across various fields. Despite this progress, the.....»»
Pushing the boundaries of eco-friendly chemical production with azaarenes
A team of pioneering researchers from the Center for Advanced Bioenergy and Bioproducts Innovation (CABBI) has made a significant leap forward in the complex world of molecular chemistry......»»
Research reveals molecular mechanism of asymmetric calcium-sensitive receptor activation
Calcium-sensing receptors (CaSRs), widely distributed in tissues and organs such as parathyroid glands, intestines, bones and kidneys, sense the concentration of calcium ions in the blood and maintain the calcium balance in the human body. CaSR is so.....»»
Researchers tune the speed of chirality switching
Chiral molecules can have dramatically different functional properties while sharing identical chemical formulae and almost identical structures. The molecular structure of two types of a chiral molecule—so-called enantiomers—are mirror images of.....»»
A novel machine learning model for molecular simulation under an external field
Prof. Jiang Bin's research team at the University of Science and Technology of China (USTC) have developed a universal field-induced recursively embedded atom neural network (FIREANN) model, which can accurately simulate system-field interactions wit.....»»
Unearthing the terroir effect: Grapevine"s transcriptional response to soil variability
Grapevine is a globally significant fruit crop that exhibits remarkable phenotypic plasticity (PP) due to genotype-per-environment interactions (a concept known as terroir). This adaptability impacts physiological, molecular and biochemical aspects o.....»»
Deciphering grape development: A molecular phenology scale for grapevine berry maturation
Fruit development encompasses a series of physical, biochemical, and physiological shifts influenced by both genetic programming and environmental factors. The growth patterns of fruits like grapes are generally consistent within the same species, bu.....»»