Scientists have developed a new way to control the electronic properties of materials. They created a nanoscale pattern of holes on a thin film of metal oxide known as titania. This noticeably improved the flow of electrons and inhibited the flow of ions in the material.
Researchers design gene-encoded DNA origami nanostructures for targeted and efficient in vivo gene therapy, offering an alternative to traditional viral vectors and liposomes.
By measuring their interference at a beam-splitter through frequency-resolving sampling measurements, the team has shown that unprecedented precision can be at reach within current technology with an error in the estimation that can be further decreased by decreasing the photonic temporal bandwidth.
Raman imaging offers a greater potential for detecting multiple enzyme activities than fluorescence imaging, demonstrate researchers by developing 9CN-rhodol-based activatable Raman probes using a novel mechanism for Raman signal activation.
In addition to nanofibrillated cellulose (CNF), wood wool and wood pulp are being investigated as a base; wood veneer is also being used as a base for the circuit boards.
