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Fingerprint Oxygen Redox Reactions in Batteries through High-Efficiency Mapping of Resonant Inelastic X-ray Scattering

We provide a comprehensive analysis and an explicit interpretation of the five evolving components of O-K mRIXS of the typical battery electrode that involves lattice oxygen redox reactions upon cycling. This work is the first benchmark for a complete assignment of all the important mRIXS features collected from battery materials, and thus delivers guidelines for future studies of oxygen redox reactions. Read more »

Gas‐Phase Synthesis of Triphenylene (C18H12)

The cover image shows the triphenylene molecule as a potential precursor to two‐dimensional graphite nanosheets in the interstellar medium. The barrier‐less, exoergic nature of the reaction reveals a versatile reaction mechanism that may drive molecular mass growth processes in cold environments in deep space. Read more »

Comparative morphology of cheliceral muscles using high‐resolution X‐ray microcomputed‐tomography in palpimanoid spiders

Spiders are important predators in terrestrial ecosystems, yet we know very little about their principal feeding structures—the chelicerae—an extremely important aspect of spider biology. Here, using micro‐Computed‐Tomography scanning techniques, researchers perform a comparative study to examine cheliceral muscle morphology in six different spider specimens. Read more »

Spatial and Temporal Correlations of XY Macro Spins

Artificial spin-ice structures have become prototypical systems to study vector spin frustration at the microscale and have recently been expanded towards XY spin systems and fundamentally fascinating phase transitions. The illustration depicts the quasi long-range ordered vortex phase in a nano disk honeycomb lattice imaged by magnetization-sensitive photoemission electron microscopy. Read more »

Magnetic Skyrmions: Current‐Induced Skyrmion Generation through Morphological Thermal Transitions in Chiral Ferromagnetic Heterostructures

Magnetic skyrmions are particle‐like chiral twists of the magnetization that promise advances in spin‐based data storage and logic device applications. In this article, researchers examine current‐induced generation of skyrmions in heavy‐metal/ferromagnet multilayers and show that Joule heat pulses can drive topological transitions in magnetic textures and enable skyrmion creation on nanosecond timescales. Read more »

Near-field infrared nanospectroscopy and super-resolution fluorescence microscopy enable complementary nanoscale analyses of lymphocyte nuclei

Recent super-resolution fluorescence microscopy studies have revealed significantly altered nuclear organization between normal lymphocyte nuclei and those of classical Hodgkin’s lymphoma. Reported here are the first near-field IR imaging of lymphocyte nuclei, and far-field IR imaging results of whole lymphocytes and nuclei from normal human blood. Read more »

Reversible Fe(II) uptake/release by magnetite nanoparticles

The coexistence of magnetite and aqueous Fe2+ is common in anoxic subsurface environments and can have a great influence on important biogeochemical redox processes. This study demonstrates that the flow direction of electron equivalents in the form of Fe(II) across the magnetite–solution interface changes in a predictable fashion by altering solution pH, background Fe2+(aq) concentration, and magnetite loading. Read more »

A facile route for the synthesis of heterogeneous crystal structures in hierarchical architectures with vacancy-driven defects via the oriented attachment growth mechanism

TiO2 nanorod arrays based on substrates with heterogeneous crystal structures and remarkable crystalline stability have potential as promising photocatalysts. Researchers synthesized a 1D anatase/rutile heterogeneous TiO2 crystal structure in a hierarchical architecture by forming hybrid organic–inorganic interfaces in a solution-based environment. Read more »

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