Researchers have developed a new battery material that could enable long-range electric vehicles that can drive for hundreds of miles on a single charge, and electric planes called eVTOLs for fast, environmentally friendly commutes.
Jul 20th, 2020
Read more
Coral-type, high-efficiency, silver nano catalyst electrode developed for large areas; basis established for the commercialization of an electrochemical carbon dioxide conversion system that uses carbon dioxide in a gaseous state.
Jul 20th, 2020
Read more
Magnetic nanodiscs can be activated by an external magnetic field, providing a research tool for studying neural responses.
Jul 20th, 2020
Read more
Faster and simpler production of high-resolution, three-dimensional electron microscopy images of biomolecules .
Jul 20th, 2020
Read more
The proposed heavy metal sensor is based on graphene oxide functionalized micro-tapered long-period fiber grating where light-matter interaction is enhanced.
Jul 20th, 2020
Read more
This new material, which could be used in the security and health and safety industries, can turn back the force of a cutting tool upon itself.
Jul 20th, 2020
Read more
For the first time, a single, twisted nanoparticle has been accurately measured and characterised in a lab, taking scientists one vital step closer to a time when medicines will be produced and blended on a microscopic scale.
Jul 20th, 2020
Read more
This substance, still in the laboratory phase, offers a number of advantages over those currently used: it reduces the adverse effects on the body, uses lower doses than usual, allows the compound to be targeted only at the affected area that needs to be visualized, and is very versatile, since the same substance can be used for different diagnostic tests.
Jul 20th, 2020
Read more
The discovery will help clinicians target breast cancer cells directly, while avoiding the adverse, toxic side effects of chemotherapy.
Jul 20th, 2020
Read more
Clouds of supercooled atoms offer highly sensitive rotation sensors and tests of quantum mechanics.
Jul 17th, 2020
Read more
Natural graphite, used as the precursor for graphene oxide production, is a highly ordered crystalline inorganic material, which is believed to be formed by decay of organic matter. It is extremely thermodynamically stable and resistant to be converted to the organic-like metastable graphite oxide.
Jul 17th, 2020
Read more
Researchers have developed novel ternary nanocomposites by electrostatic spinning technology, which improved the performance of supercapacitors electrode materials.
Jul 17th, 2020
Read more
Scientists recently developed molecular films that can measure the operating temperature of electronic components on a nanometric scale. These patented temperature-sensitive molecules have the distinctive quality of being extremely stable, even after millions of uses.
Jul 17th, 2020
Read more
An international team of researchers has succeeded in forming and studying self-assembled interlocked rings called 'nano-poly[n]catanenes' that contain just one molecular ingredient.
Jul 17th, 2020
Read more
Scientists have managed to draw at high resolution and speed, local patterns in organic semiconductor films used in optoelectronic and photonic applications. The new method enables the patterning of material characteristics and concomitant final properties, including molecular conformation, orientation, crystallinity and composition.
Jul 17th, 2020
Read more
Conducting a study on thermal conductivity of composites, scientists found that thermal conductivity of Poly(vinyl alcohol)/boron nitride composite film could be regulated on the molecular level by covalent coupling.
Jul 16th, 2020
Read more