Copper Migrates to Surface of Topological Insulator in Air January 23, 2023 - An ambient-pressure study of a topological insulator doped with copper revealed that the copper atoms, inserted between the material’s layers, migrate to the surface when exposed to air. The work represents a novel way of modifying the material’s surface composition, which can confer it with new properties such as superconductivity. Read more »
Percolating Puddles in Rich Quantum Landscapes January 23, 2023 - Combining x-ray photon correlation spectroscopy (XPCS) with scanning micro x-ray diffraction (SµXRD), researchers found that charge density wave domains (known as “puddles”) in a nickelate material exhibit two types of dynamics: small puddles actively “percolate” (fluctuate in size and shape), while large puddles are more static. Read more »
Charge Density Wave Found in Magnetic Kagome Crystal January 23, 2023 - Researchers discovered a wave-like charge order in a magnetic material with a "kagome" geometric structure and obtained clues to the order’s origins in the material’s electronic structure. By helping to connect certain structures with emergent quantum properties, the work brings us a step closer to the goal of creating materials by design. Read more »
First Direct Measurement of Elusive Donnan Potential January 19, 2023 - Researchers performed the first direct measurement of the Donnan electrical potential, which arises from an imbalance of charges at membrane-solution interfaces. Considered unmeasurable for over a century, the Donnan potential is relevant to a wide range of fields, from cell biology to energy storage and water desalination. Read more »
Uncompetitive, adduct-forming SARM1 inhibitors are neuroprotective in preclinical models of nerve injury and disease November 16, 2022 - Researchers describe potent small-molecule inhibitors that are neuroprotective in preclinical models of nerve injury and disease. The cover depicts the destruction of an axon by the enzyme SARM1, shown disproportionately large to convey its catastrophic role in driving degeneration once it is activated upon injury. Read more »
Crossing from One to Two Dimensions in a Single Material November 14, 2022 - Low-dimensional materials exhibit excellent properties for use in next-generation electronic devices. Now, researchers have discovered an ideal platform for tuning between 1D and 2D physics, expanding the possibilities for device engineering and offering a versatile platform for the exploration of intriguing low-dimensional physics. Read more »
Watching Nanoparticle Chemistry and Structure Evolve November 14, 2022 - Using a multimodal approach, researchers learned how chemical properties correlate with structural changes during nanoparticle growth. The work will enable a greater understanding of the mechanisms affecting the durability of nanoparticles used to catalyze a broad range of chemical reactions, including clean-energy reactions. Read more » 
Distinguishing Nanoparticles from Gas-Phase Species in Reacting Flows November 14, 2022 - Researchers developed a strategy for distinguishing between gas-phase species and newly formed nanoparticles in mixed gas- and particle-phase reacting flows. The approach uses small-angle x-ray scattering to study particle formation as it occurs by explicitly accounting for temperature-dependent scattering from gases. Read more »
Optical sensing of aqueous nitrate anion by a platinum(II) triimine salt based solid state material November 11, 2022 - Researchers present a new Pt(II) salt that enables the selective and quantitative measurement of aqueous nitrate anions without the need for pH adjustment. The method relies on the color change of the Pt(II) complex from yellow to red and an intense luminescence response, simplifying the detection process for on-site applications and expanding its applicability to broader matrices. Read more »
Protein Assemblies Show Surprising Variability November 11, 2022 - Protein-structure studies performed in part at the ALS helped researchers discover that the protein assemblies in a key carbon-cycling enzyme can rearrange with surprising ease. The findings raise the prospect of genetically tuning the protein in agricultural plant species to produce more productive and resource-efficient crops. Read more » 