Infrared Nano-Mapping of Local Strain in 2D Materials August 22, 2019 - Researchers have demonstrated an infrared technique to map and analyze strain in atomically thin crystals of hexagonal boron nitride (hBN) at the nanoscale. This ultrasensitive strain-imaging method could be a promising tool for the examination of low-dimensional materials of interest for electronic and photonic devices. Read more »
Fundamental Property of Arginine Revealed Through Solvation August 22, 2019 - Just 20 amino acids act as building blocks for all our proteins, but their chemical properties have been difficult to study at the most fundamental level. Combining experiments and theory at the ALS, researchers have now determined the ionization energy of arginine, an amino acid with over 100 isomers. Read more »
Newly Discovered Minerals Reveal Anomalous Origins August 22, 2019 - Researchers characterized two highly unusual nickel-containing minerals, both unearthed in an ancient geological site in southern central Siberia. The findings extend our understanding of naturally occurring mineral species and varieties and provide useful insights into the environments leading to the formation of potentially valuable mineral ores. Read more »
Renewed Prospects for Rechargeable Mg Batteries August 16, 2019 - Contrary to previous reports, it’s possible to create a rechargeable battery using magnesium ions if the electrode material is first conditioned at high temperature. With twice the charge of lithium ions, magnesium ions hold great promise as the basis for high-energy-density batteries suitable for use in electric vehicles. Read more »
Tuning Material Properties with Laser Light July 26, 2019 - Researchers demonstrated that coupled electronic and magnetic properties in a material can be repeatably tuned using laser light. The results suggest the possibility of creating microelectronic devices that use a laser beam to erase and rewrite bits of information in materials engineered for random-access memory and data storage. Read more » 
Molecular Framework Imparts Stability to Reactive Catalyst July 26, 2019 - Researchers have shown that a rigid metal–organic framework (MOF) can be used to stabilize core regions of a reactive catalyst that has potential for use in artificial photosynthesis. The framework immobilizes and preserves key reactive intermediates and affords a clearer view of how the catalyst’s structure correlates with function. Read more »
A Bullfrog’s Powerful Defense Against Toxic Red Tides July 25, 2019 - Working as a “molecular sponge,” a bullfrog protein known as saxiphilin provides powerful, yet little understood, protection against deadly neurotoxins produced in red tides. Crystallography studies at the ALS have clarified saxiphilin’s function, potentially enabling better ways to monitor and combat toxins in our oceans and food supplies. Read more »
How Light-Harvesting Bacteria Toggle Off and On July 23, 2019 - Researchers clarified the atomic-level mechanism that enables bacteria to switch light harvesting off and on in response to potentially damaging overexposure to light. The results could have long-range implications for artificial photosynthesis and optogenetics—the use of light to selectively activate biological processes. Read more » 
Catalyst Improves Cycling Life of Magnesium/Sulfur Batteries June 24, 2019 - Magnesium/sulfur batteries hold promise as a safer, energy-dense advancement, but previous iterations have suffered from extremely limited recharging capabilities. Studies at the ALS provided electrochemical insights into battery polarization and revealed how a titanium catalyst activates magnesium/sulfur compounds to improve battery performance. Read more »
Linking Structure to Behavior in Twisted Liquid Crystals June 21, 2019 - Researchers untangled connections between structure and behavior in a class of liquid crystals consisting of flexible, chain-like molecules that self-organize into twisting patterns. The study opens up new possibilities for designing novel liquid-crystal molecules that allow greater control of nanoscale behavior for technological applications. Read more » 