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A series of emergent electronic orders are observed in an antiparallel twisted WSe2 bilayer. The discoveries provide a powerful platform for simulating quantum phenomena in strongly correlated materials.
Sub-molecular spectroscopy enables the real-space study of incoherent and coherent electronic energy transfer in artificial molecular donor–acceptor systems and their dependence on the molecular arrangement.
Cryo-electron microscopy uncovers the interfacial failure mechanism of lithium metal anodes at the atomic scale, informing a F-rich solid-electrolyte interface design strategy for highly-reversible solid-state Li metal batteries.
Information thermodynamics offers a route to measure how effectively a light-driven molecular machine converts energy from absorbed photons into pumped motion.
A frequency filtering method can efficiently remove the autofluorescence background and light scattering during in vivo visible and near-infrared experiments.
Tilting the substrate after bar-coating of colloidal perovskite nanocrystals facilitates the nanocrystal self-assembly process and enables highly efficient large-area perovskite LEDs.
An artificial spin ice, containing two types of nanomagnets, can perform reservoir computing with minor magnetic field loops and spin wave spectra acting as inputs and outputs, respectively.
A new excitation scheme broadens the choice of colours for the near-infrared excitable photon avalanching nanoscale labels for super-resolution imaging.
A fast laser pulse stimulates the decay in a quantum dot and suppresses the timing uncertainty in the generation of single photons, which substantially improves the coherence of the source.
Anion-selective covalent organic framework (COF) membranes fabricated using laminar assembly and interfacial polymerization exhibit enhanced potential for osmotic power generation.
A combination of periodic laser patterning, anisotropic thermal etching and endoepitaxial growth enables the realization of monolayer mosaic heterostructures with atomically sharp interfaces.
A preclinical study reports a platform for the generation of dendritic cell-derived nanovesicles with enhanced immunostimulatory function, which demonstrate promising antitumoural activity in mouse models and might overcome some of the shortcomings of early-generation dendritic cell nanovaccines.
Controllably buckling an array of vertical field effect transistors enables intracellular electrophysiological mapping with high spatial and temporal resolutions.