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Chemisorbed molecules combining glycol-ether moieties and fullerenes are shown to form uniform and air-stable self-assembled bilayers on coinage metals, and are amenable to versatile functionalization by in-place exchange of the top layer.
Although all-solid-state Li-ion batteries exhibit enhanced energy densities, electrochemical stability of solid electrolytes remains a challenge. A mechanism explaining the relationship between redox activity and electrochemical stability for typical solid electrolytes is now proposed.
Producing H2O2 electrochemically currently use electrocatalysts that are insufficient to meet the demands for industrialization. A single-atom electrocatalyst with an optimized Co–N4 moiety incorporated in nitrogen-doped graphene is shown to exhibit enhanced performance for H2O2 production.
Three-dimensional DNA frames can be created with controlled valence and coordination for the assembly of ordered arrays of biological and inorganic nanomaterials.
The dominant mechanism of nanoparticle entry into solid tumours has now been shown to be an active trans-endothelial pathway rather than the currently established passive transport via inter-endothelial gaps.
A mechanism of cell response to localized tension shows that syndecan-4 synergizes with EGFR to elicit a mechanosignalling cascade that leads to adaptive cell stiffening through PI3K/kindlin-2 mediated integrin activation.