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 »
Mechanical Competence and Bone Quality Develop During Skeletal Growth
Researchers explored how bone quality and mechanical competence progress during longitudinal bone growth. Deformation at the tissue, fibril, and mineral length scales was investigated with mechanical tensile tests during small and wide-angle x-ray scattering/diffraction (SAXS/WAXD) experiments, revealing dramatic differences in mechanical resistance with age. Read more »
Conductive triethylene glycol monomethyl ether substituted polythiophenes with high stability in the doped state
Researchers synthesized and characterized two iodine-doped polymers with high conductivity and stability. The doping increases the transparency of thin films of the polymer, which are resistant to common organic solvents. All these properties indicate great potential for the polymers to be used in applications such as organic field effect transistors, organic photovoltaic devices, and sensors. Read more »
Self‐Assembly of Large‐Area 2D Polycrystalline Transition Metal Carbides for Hydrogen Electrocatalysis
Xining Zang et al. develop a self‐assembly process to synthesize 2D transition metal carbides (TMCs). The metal ions (Mo, Co, W) self‐organize within a gelatin template into a lamellar nanostructure. Subsequent carbonization at moderate temperatures in a reducing atmosphere yields ultrathin 2D‐TMC sheets with high conductivity and rich active sites ideal for the hydrogen evolution reaction. Read more »
Rational Optimization of Organic Solar-Cell Materials
Researchers have established a new quantitative model that connects molecular interactions in organic solar-cell materials to device performance. The work suggests a way to quickly identify ideal material mixtures and processing methods, bypassing trial-and-error strategies and minimizing labor-intensive synthesis. Read more »
Enhancing the Efficiency of Organic Photovoltaics by a Photoactive Molecular Mediator
In the search for high-efficiency organic solar cells, additives often play an important role in improving the film morphology. Liquid additives, while often effective, evaporate or migrate over time. Herein, Liu et al. report a solid photoactive molecular mediator that could be employed to replace the liquid additives to tune the morphology of bulk heterojunction films for improved device performance. Read more »
Porous-Framework Electrocatalysts Are Key to Carbon Dioxide Conversion
Researchers have made significant headway in the quest to convert CO2 into valuable chemical products such as fuels, pharmaceuticals, and plastics. Recent work at the ALS has shown MOFs and COFs as a valuable new class of CO2 reduction catalysts. Read more »
Weaving of organic threads into a crystalline covalent organic framework
Threads made from organic molecules linked by strong covalent bonds were used to weave a 3D covalent organic framework with unusual dynamical and mechanical properties. This molecular weaving method will enable the production of materials with increased precision and functionality. Read more »
Following the Morphology Formation In Situ in Printed Active Layers for Organic Solar Cells
Time-resolved scattering measurements reveal the complete solidification process inside the photoactive layer of an organic solar cell. With an industrial slot-die coater integrated into the beamline, aggregation and crystallization processes can be tracked to reveal the structure-function relationships in the final thin film. Read more »
2015 Director’s Awards
ALS staff took top honors in Lawrence Berkeley National Lab’s 2015 Director’s Awards for Exceptional Achievement and were recognized in a ceremony earlier this month. The ALS recipients comprised nearly half of this year’s awardees, receiving recognition in the scientific, early scientific career, and safety categories. The Director’s Awards honor individuals in both the scientific and operations divisions forRead More Read more »
