NUS PhD student Mr Liu Wei showing the two-dimensional graphene-like polymer (left), and a piece of carbon paper coated with the novel material (right). Credit: National University of Singapore Polymers, such as plastic and synthetic textiles, are very useful technological commodities...
Reservoir for heavy hydrogen: Molecules of the heavy hydrogen isotopes deuterium and tritium preferentially bind to copper atoms in a metal-organic framework compound. The metal atoms are therefore symbolically represented as shells in this image. Credit: University Leipzig /...
Researchers in the UK have developed a way to coax microscopic particles and droplets into precise patterns by harnessing the power of sound in air. The implications for printing, especially in the fields of medicine and electronics, are far-reaching. The...
Supramolecular structures select spins only if they are chiral. Credit: Weizmann Institute of Science Water is made of oxygen and hydrogen, and splitting water molecules to produce hydrogen for fuel is a promising path for alternative energy. One of the main...
Researchers from RMIT University in Melbourne, Australia have demonstrated for the first time a working rechargeable "proton battery" that could re-wire how we power our homes, vehicles and devices. The rechargeable battery is environmentally friendly, and has the potential, with further development,...
By adding combinations of carbon, hydrogen, and oxygen atoms to stubborn, hard-to-evaporate metals like tungsten and platinum, University of Minnesota Twin Cities researchers were able to transform the elements into thin films in a cheaper and safer way.  University of...
It all comes down to metal-organic frameworks (MOFs), an amazing next generation material that have the largest internal surface area of any known substance. The sponge like crystals can be used to capture, store and release chemical compounds. In...
Illustration shows the delivery route of hydrogen sulfide to damaged cells based on two projects completed in the University of Oregon lab of Michael Pluth. Credit: Michael Pluth Molecules with the potential to deliver healing power to stressed cells -...
A cube one-40th the size of a human red blood cell can glow when it detects flammable gas. The nanocube, designed by chemists at the University of Tokyo, is part of a research project to develop artificial systems that...
Solid-state sodium-ion batteries are far safer than conventional lithium-ion batteries, which pose a risk of fire and explosions, but their performance has been too weak to offset the safety advantages. Researchers Friday reported developing an organic cathode that dramatically...
Forget the laboratory, substances that can solve environmental problems by capturing carbon dioxide, decontaminating water and cleaning up pollutants can be easily created in a kitchen, a UNSW Sydney study shows. In a paper published today in Nature Communications, UNSW chemical engineers shone...