Electrodeposition is a powerful tool for the bottom up fabrication of novel electronic devices. This necessitates complete understanding of the deposition process beyond the classical description using current transients. Recent calculations predict deviations within the spatial arrangement of electrodeposited particles, away from random nucleation. The spatial arrangement of Au particles generated through aqueous electrodeposition on a non-templated substrate is investigated by Grazing Incidence Small Angle X-ray Scattering (GISAXS). We show that GISAXS is able to reveal spatial correlations within deposited particles which are not easily detectable by microscopy.
Silica thin films with vertical nanopores are useful to control access to electrode surfaces and may act as templates for growth of nanomaterials. The most effective method to produce these...
The combination of lithographic methods and sol gel bottom-up is a promising approach for nanopatterning substrates. The integration and scalable fabrication of such substrates are of great interest for the...
Li 3 N is an excellent protective coating material for lithium electrodes with very high lithium-ion conductivity and low electronic conductivity, but the formation of stable and homogeneous coatings is technically very difficult. Here, we show that protective Li 3 N coatings can be simply formed by the direct reaction of electrodeposited lithium electrodes with N 2 gas, whereas using battery-grade lithium foil is problematic due to the presence of a native passivation layer that hampers that reaction. The protective Li 3 N coating is effective at preventing lithium dendrite formation, as found from unidirectional plating and plating−stripping measurements in Li−Li cells. The Li 3 N coating also efficiently suppresses the parasitic reactions of polysulfides and other electrolyte species with the lithium electrode, as demonstrated by scanning transmission X-ray microscopy, X-ray photoelectron spectroscopy, and optical microscopy. The protection of the lithium electrode against corrosion by polysulfides and other electrolyte species, as well as the promotion of smooth deposits without dendrites, makes the Li 3 N coating highly promising for applications in lithium metal batteries, such as lithium−sulfur batteries. The present findings show that the formation of Li 3 N can be achieved with lithium electrodes covered by a secondary electrolyte interface layer, which proves that the in situ formation of Li 3 N coatings inside the batteries is attainable.
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