A new study reveals the thermal transport properties of ultrathin crystals (made of just one or a few layers) of molybdenum diselenide, a two-dimensional material of the transition metal dichalcogenide (TMD) family.
The new implementation can enable considerable improvements in countless applications that work with signals or data flows from sensors, from MRI scanners to systems that predict earthquakes.
A team of researchers from Utrecht University and Xiamen University in China have now shown how to make core-shell hollow-sphered materials that combine the required functions in a single catalyst particle, enabling tandem catalysis with unsurpassed performance.