Low-Temperature Dechlorosilylation Chemistry for Area-Selective Deposition of Ge2Sb2Te5 and Its Mechanism in Nanopattern...
status: published
status: published
Metal nanoparticle (NP) sintering is a major cause of catalyst deactivation, as NP growth reduces the surface area available for reaction. A promising route to halt sintering is to deposit a protective overcoat on the catalyst surface, followed by annealing to generate overlayer porosity for gas transport to the NPs. Yet, such a combined deposition...
status: published
status: Published online
Metal nanoparticle (NP) sintering is a major cause of catalyst deactivation, as NP growth reduces the surface area available for reaction. A promising route to halt sintering is to deposit a protective overcoat on the catalyst surface, followed by annealing to generate overlayer porosity for gas transport to the NPs. Yet, such a combined deposition...
To achieve high -performance electrochemical supercapacitors (ESCs), it is crucial to control thin-film electrode fabrication. The uniform thickness of these electrodes is of paramount importance as it enables the rapid electrochemical responses during the charge-discharge processes, facilitated by their shorter charge and ion diffusion lengths. Th...
Traditional catalyst synthesis primarily hinges on liquid-phase methods. Nevertheless, a quarter of a century ago, the advent of vapour-phase methods such as atomic layer deposition opened up important alternatives to atomically tailor catalysts and boost their performance.
status: published
status: published
status: published