Journal Covers

Electronic energy transfer ionization in naphthalene–CO₂ clusters reveals excited states of dry ice

September 14, 2024

The interaction between CO₂ and polycyclic aromatic hydrocarbons is of interest in astrochemically relevant ices, the transition to renewable energy, and the development of green chemistry. We investigate the VUV excitation of the naphthalene–CO₂ complex and observe excited states of CO₂ through a newly identified electronic energy transfer ionization mechanism. Read more »

4f-Orbital Mixing Increases the Magnetic Susceptibility of Cp’₃Eu

August 28, 2024

The ability to harness the 4f-orbital anisotropies and magnetic susceptibilities of lanthanide elements is key to their application in molecular magnetism, including as molecular qubits and single-molecule magnets. Here, 4f orbital mixing and its impact on the magnetic susceptibility of a trivalent Eu organometallic complex was analyzed experimentally. Read more »

Electron microscopy observations of the diversity of Ryugu organic matter and its relationship to minerals at the micro- to nano-scale

August 15, 2024

The work reported here addresses the question of how the organic matter (OM) in the Hayabusa2 samples compares and contrasts with OM from primitive carbonaceous chondrites, as observed primarily by transmission electron microscopy in concert with other microanalytical techniques. Read more »

Engineered π⋯π interactions favour supramolecular dimers X@[FeL₃]₂(X = Cl, Br, I): solid state and solution structure

June 28, 2024

Intermolecular interactions drive the formation of biological supramolecular architectures, inspiring the design of artificial supramolecular assemblies and molecular machines. Here, the engineering of supramolecular interactions allows selection of a self-recognition process of dimerization over one of helicate-cage formation. Read more »

Revealing unprecedented cathode interface behavior in all-solid-state batteries with oxychloride solid electrolytes

June 21, 2024

This research provides crucial insights into the innovative design of high-performance all-solid-state batteries (ASSLBs) based on the promising lithium tantalum oxychloride (LTOC) solid electrolytes. Read more »

Engineering Lipophilic Aggregation of Adapalene and Adamantane-Based Cocrystals via van der Waals Forces and Hydrogen Bonding

June 19, 2024

Adamantanes are emerging building blocks for active pharmaceutical ingredients. In this work, we sought to understand how systematic modification of the hydrophobic cage in adamantanes could result in changes to crystal packing in single and multicomponent organic solids. Read more »

Two-dimensional perovskite templates for durable, efficient formamidinium perovskite solar cells

June 14, 2024

When the lattice-matched 2D perovskite BA₂FAPb₂I₇ (red) is incorporated into a yellow-phase FAPbI₃ matrix (yellow), the 2D crystallites present a perovskite-like surface, which serves as a template for the FAPbI₃ to convert to its photoactive phase (black). The resulting phase-stabilized FAPbI₃ shows substantially improved optoelectronic properties and exceptional stability under 85°C and sunlight. Read more »

Direct Observation of Room-Temperature Magnetic Skyrmion Motion Driven by Ultra-Low Current Density in Van Der Waals Ferromagnets

May 23, 2024

Researchers demonstrate current-driven magnetic skyrmion motion in van der Waals ferromagnets at room temperature. The skyrmion motion presents ultra-low critical current density to activate their dynamics, thanks to minimized defects in the van der Waals gap. The findings will provide a new platform for spintronics application in the future. Read more »

Aluminothermic reduction of CeO₂: Mechanism of an economical route to aluminum–cerium alloys

May 21, 2024

In this study, we demonstrate a novel approach to producing Al–Ce alloys by reducing CeO₂ in liquid aluminum at 95% reduction efficiency. This work provides the basis of an economic route to producing high-strength Al–Ce alloys with enhanced dispersion strengthening from embedded Al₂O₃ particles. Read more »

Nitrogen-fixing organelle in a marine alga

April 12, 2024

A nitrogen-fixing organelle, or “nitroplast,” has been identified in a marine alga on the basis of intracellular imaging and proteomic evidence. This discovery sheds light on the evolutionary transition from endosymbiont to organelle. The image depicts the cell architecture and synchronized cell division of the alga Braarudosphaera bigelowii with nitroplast UCYN-A (large brown spheres). Read more »