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Fast four-colour sequence readout from 20,000-bp-long DNA has been realized at sub-nanogram DNA input based on length-independent, voltage-induced DNA loading into waveguides equipped with nanopores in their floors.
An icosahedral DNA nanocapsule with photoresponsive polymers that can deliver small molecules into model organisms with high spatial and temporal resolution.
Time-resolved X-ray microscopy reveals the mechanism and speed of current-induced magnetization switching of Co/Pt dots under the combined effect of spin-orbit torques and Dzyaloshinskii–Moriya interaction.
Coplanar photonic bandgap resonators are used to implement an all-electrical method for controlling neutral 31P and 75As donor nuclear spins in silicon.
The electric field generated by a gate electrode is exploited to trigger a reversible ferromagnetic–paramagnetic phase transition in a magnetic topological insulator close to a quantum critical point.
Arrayed nanochannels can be used to controllably transfect and reprogram tissues in vivo for applications in regenerative medicine and cell-based therapies.
Localized surface plasmon resonance can be used to control the energy flow in plasmonic core-shell Ag–Pt nanocubes and excite energetic charge carriers in the thin Pt shell, which can then drive CO oxidation.
A proof-of-principle study shows that electromagnetic field-based in vivo lineage conversion can be used as a therapeutic strategy for the treatment of neurodegenerative disorders.
Lithium alloy nanoparticles are encased inside few-layer graphene to yield a chemically stable, high-capacity anode with promising performance in a full-cell configuration.
Arrays of nanoparticles grouped into microscale arrays support multiple nanolasing modes that can be tailored by changing the geometry of the superlattice.
A self-assembled monolayer with terminal ferrocene groups involves a different number of molecules in the transport of charges depending on the polarity of the voltage bias.