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Palladium atoms hosted in exfoliated graphitic carbon nitride display improved activity, selectivity and stability compared to state-of-the-art homogeneous and heterogeneous catalysts for Suzuki coupling reactions.
Single-stranded DNA with purine-rich poly-A and poly-G sequences can undergo a defined lower critical solution temperature-type phase transition at elevated temperature like other polymers, which can be exploited to realize defined kinetic microparticle assemblies.
The power output of a thermophotovoltaic device featuring an emitter and a photovoltaic cell increases by more than an order of magnitude when the gap size between the emitter and the cell is reduced to the nanoscale.
A superconducting thin film placed underneath a reconfigurable artificial-spin-ice structure in situ allows controllable geometric frustration with high degeneracy to be achieved.
Gate tunable and ultrabroadband third-harmonic generation can be achieved in graphene, paving the way for electrically tunable broadband frequency converters for applications in optical communications and signal processing.
A switchable electrokinetic nanovalving mechanism is capable of isolating a wide variety of single nanoscopic entities, down to single macromolecules, from an ensemble, and guiding, confining, releasing and sorting them in a broad range of ionic salt concentrations, up to biological buffer levels.
Magnetic fucoidan-based nanoparticles conjugated with T-cell activators and checkpoint inhibitors can be directed to tumours via magnetic navigation for improving therapeutic efficacy and reducing systemic side effects.
A new superlattice fabrication process on 2D material heterostructures enables the observation of replica Dirac cones in graphene as well as Hofstadter’s fractal magnetic spectrum under triangular and square superlattice symmetries.
Electrostatic doping in vertical van der Waals CrI3–graphene heterostructures provides means to control the magnetic properties of monolayer and bilayer CrI3.