Journal Covers

Controlling antiferromagnetic domains in patterned La_0.7Sr_0.3FeO₃ thin films

May 28, 2020

Antiferromagnetic spintronics have gained interest because they can be controlled at terahertz frequencies and are insensitive to external magnetic fields. Due to dimensional confinement as well as microstructuring by ion implantation, the spin axis of an antiferromagnetic oxide can be robustly controlled in a deterministic way up to room temperature. Read more »

Divergent Adsorption-Dependent Luminescence of Amino-Functionalized Lanthanide Metal–Organic Frameworks for Highly Sensitive NO₂ Sensors

May 7, 2020

A novel gas-sensing mechanism exploiting lanthanide luminescence modulation upon NO₂ adsorption is demonstrated. Two isostructural lanthanide MOFs are used, including an amino group as the recognition center for NO₂. Energy transfer from the ligands to Ln is strongly dependent on the presence of NO₂, resulting in an unprecedented photoluminescent sensing scheme. Read more »

Valence tautomerism in a cobalt-verdazyl coordination compound

April 25, 2020

Valence tautomerization in inorganic chemistry typically involves the distribution of electrons between a metal center and redox active ligand, with potential application as molecular switches or other molecular devices. Here we report an example of valence tautomerization and an unusual electronic structure in a cobalt verdazyl complex. Read more »

Highly Enhanced Curie Temperature in Ga‐Implanted Fe₃GeTe₂ van der Waals Material

April 15, 2020

Researchers report an effective and reliable method of increasing the Curie temperature of ferromagnetic Fe₃GeTe₂ (FGT) van der Waals (vdW) material by Ga implantation, opening a new opportunity for tailoring the magnetic properties of vdW materials beyond room temperature for future spintronics applications. Read more »

The Inside‐Outs of Metal Hydride Dehydrogenation: Imaging the Phase Evolution of the Li‐N‐H Hydrogen Storage System

April 8, 2020

Hydrogen absorption and release in lithium amide involves chemical and structural change. Scanning transmission x‐ray microscopy visualizes this phase evolution inside particles, showing a core‐shell architecture, with the more hydrogenated species as the shell for hydrogenation and, more surprisingly, for dehydrogenation as well. Read more »

Full Energy Range Resonant Inelastic X-ray Scattering of O₂ and CO₂: Direct Comparison with Oxygen Redox State in Batteries

April 2, 2020

The evolving oxygen state plays key roles in the performance and stability of high-energy batteries involving oxygen redox reactions. Comparison of the mRIXS profiles of four different oxygen states reveals that oxygen redox states in batteries have distinct widths and positions along the excitation energy. Read more »

Blending Ionic and Coordinate Bonds in Hybrid Semiconductor Materials: A General Approach toward Robust and Solution-Processable Covalent/Coordinate Network Structures

March 4, 2020

Blending ionic and coordinate bonds in copper iodide based hybrid semiconductor materials with extended covalent/coordinate network structures leads to greatly enhanced solubility and solution processability, making it possible to form high-quality films for device fabrication. Read more »

X-ray Crystal Structures of the Influenza M2 Proton Channel Drug-Resistant V27A Mutant Bound to a Spiro-Adamantyl Amine Inhibitor Reveal the Mechanism of Adamantane Resistance

February 27, 2020

The M2 proton channel, shown with front and back monomer helices removed, is an anti-influenza drug target. Here, a bound inhibitor blocks the transport of protons through the V27A mutant channel. Read more »

Structural Basis for Finding OG Lesions and Avoiding Undamaged G by the DNA Glycosylase MutY

December 12, 2019

Finding OG and avoiding G: DNA repair enzyme MutY distinguishes between undamaged guanine (green) and oxidized guanine when targeting OG:A mispairs. A structural motif within the C-terminal domain (violet) responds to OG to G substitution and appears mechanistically coupled to the adenine removal site (gray) in the N-terminal domain (cyan). Read more »

Discovery of a Covalent Inhibitor of KRAS^G12C (AMG 510) for the Treatment of Solid Tumors

December 10, 2019

KRAS^G12C has emerged as a promising target in the treatment of solid tumors; however, clinically viable inhibitors have yet to be identified. Here, researchers report on structure-based design and optimization efforts, culminating in the identification of AMG 510, a highly potent, selective, and well-tolerated KRAS^G12C inhibitor currently in phase I clinical trials (NCT03600883). Read more »