By making use of a source of cellulose, such as newspapers, and sugar to synthesize carbon nanoparticles, researchers have developed a material that could be used as a sensor as its components respond to various stimuli.
A NASA technologist has teamed with the inventor of a new nanotechnology that could transform the way space scientists build spectrometers, the all-important device used by virtually all scientific disciplines to measure the properties of light emanating from astronomical objects, including Earth itself.
A new review article describes these systems and their main advantages in gene therapy, such as their capacity to protect the gene material against degradation, to facilitate cell and nucleus internalisation and to boost the transfection process.
New research lays out a theoretical map to use ferroelectric material to process information using multivalued logic - a leap beyond the simple ones and zeroes that make up our current computing systems that could let us process information much more efficiently.
Carbon nanodots have, for the first time, been applied to intracellular imaging and tracking of drug delivery involving various optical and vibrational spectroscopic-based techniques such as fluorescence, Raman, and hyperspectral imaging.
Physicists used a model to explain the electronic structure of graphene measured by a new spectroscopic platform. These techniques could promote future research on stable and accurate quantum measurements for new 2D electronics.