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Materials Science
R&D 100 Winner: Expanding Embolization Success
Scientists from Livermore and Texas A&M University, along with California-based startup Shape Memory Medical, Inc., have improved upon existing technologies with the IMPEDE® embolization plug, winner of a 2019 R&D 100 Award.
Compressive shearing may start life on other planets
Massive compressive shearing forces generated by the tidal pull of Jupiter-like planets on their rocky ice-covered moons may form a natural reactor that drives simple amino acids to polymerize into larger compounds. These extreme mechanical forces strongly enhance molecule condensation reactions, opening a new arena of possibilities for the chemical origins of life on…
LLNL researchers achieve greater understanding of color origins in low-power electronic displays
Today’s low-power, electronic ink displays such as e-book readers produce text through a process called electrophoretic deposition (EPD). Each pixel of the display contains charged black and white particles suspended in a liquid solvent. These particles are moved by electrodes embedded in the devices, causing particles to stick to the electrodes to form words or images…
3D nanometer-thin membrane borrows from biology
Mimicking the structure of the kidney, a team of scientists from Lawrence Livermore National Laboratory (LLNL) and the University of Illinois at Chicago (UIC) have created a three-dimensional nanometer (nm)-thin membrane that breaks the permeance-selectivity trade-off of artificial membranes. Highly permeable and selective membranes are useful for a wide range of…
Diving into the structure of molten salts in tight spaces
Room temperature ionic liquids (ILs), a special class of molten salts, promise far greater electrochemical performance compared to conventional aqueous solutions due to a suite of novel and tunable properties. Over the past two decades, ILs have been explored as a means of improving a range of different technologies, from energy storage and conversion to catalysis to…
Expanding Embolization Success
Scientists from Livermore and Texas A&M University along with California-based startup Shape Memory Medical, Inc., have improved upon existing technologies with the IMPEDE® embolization plug, winner of a 2019 R&D 100 Award.
Summer students shine in desalination research
Capacitive deionization (CDI) is an emerging class of water desalination technologies that use cyclic charging and discharging of electrodes to reduce or enrich the salinity of incoming water. The desalination characteristics of CDI are strongly influenced by the resistive components of the system. To better understand this process, a team of Lawrence Livermore National…
Researchers Develop Novel Antireflective Metasurface for Laser Optics
LLNL scientists have discovered a new method to add an antireflective metasurface layer on laser optics glass.
Pinpointing the effects of nanoconfinement on water
Researchers have spent decades studying the properties of water and how they change when there are disruptions to their normal behavior. Research on the topic has a wide range of applications, from biochemical systems to water desalination. A team of scientists from Lawrence Livermore National Laboratory (LLNL), Argonne National Laboratory and the University of Chicago…
Simulations explain detonation properties in TATB
Two Lawrence Livermore National Laboratory (LLNL) scientists have discovered a new mechanism for ignition of high explosives that explains the unusual detonation properties of 1,3,5-triamino-2,4,6-trinitrobenzene (TATB). The research will allow for systematic improvements to continuum mechanics models used to assess the performance and safety of the material accurately and…
AI identifies change in microstructure in aging materials
Lawrence Livermore National Laboratory (LLNL) scientists have taken a step forward in the design of future materials with improved performance by analyzing its microstructure using AI. The work recently appeared online in the journal Computational Materials Science. Technological progress in materials science applications spanning electronic, biomedical, alternate energy,…
Membrane nanopore transport gets picky
Trying to determine how negatively charged ions squeeze through a carbon nanotube 20,000 times smaller than a human hair is no easy feat. Not only did Lawrence Livermore National Laboratory (LLNL) scientists do that but they found that those ions are unexpectedly picky depending on the anion (a negatively charged ion). The research appears in ACS Nano. Inner pores of…
Deactivating coronavirus on N95 respirators for reuse
Lawrence Livermore National Laboratory (LLNL) researchers are studying ways to safely and rapidly remove viral threats from N95 respirators, without compromising the device’s fit and its ability to filter airborne particles, so they can be reused. As seen during the COVID-19 pandemic, a shortage of personal protective equipment, including surgical masks and respirators,…
Building scientific insight through machine learning
A team of Lawrence Livermore National Laboratory (LLNL) materials and computer scientists developed machine learning tools that extract and structure information from the text and figures of nanomaterials articles using state-of-the-art natural language processing, image analysis, computer vision and visualization techniques. They are applying this technique to COVID-19…
Lab devises plan to reduce defects in 3D metal printing
Combining high-fidelity computer simulations with ultra-high-speed X-ray imaging, researchers at Lawrence Livermore National Laboratory (LLNL) have discovered a strategy for reducing or even eliminating defects in parts built through a common, laser-based metal 3D-printing process. In work published by the journal Science, a research team at LLNL, along with collaborators…
Angled Fill-Tubes Aid Quest to Raise NIF’s Implosion Performance
The tiny fill-tube used to inject NIF’s high-density carbon capsules with cryogenic fuel is also known to reduce the performance of implosions, and LLNL researchers are exploring several methods that could diminish these negative effects.
Carter named spectroscopy fellow
Chance Carter (MSD) has been named a fellow for the Society of Applied Spectroscopy (SAS). Fellowship is intended to recognize outstanding members for their service to the society and exceptional contributions to spectroscopy. Chance will be recognized at a special ceremony during SAS’s national meeting in October in Nevada.
Special journal issue highlights the work of LLNL energetic materials researchers
A special issue of the journal Propellants, Explosives, Pyrotechnics was recently released that highlights multiscale modeling and experiments, an area of energetic materials science and technology in which LLNL researchers have played a leading role for some time. The issue features the work of MSD’s Keo Springer, Will Bassett, Sorin Bastea, Svjetlana Stekovic,…
Perron receives TMS Young Leaders Professional Development Award
Laboratory materials scientist Aurélien Perron (MSD) was selected to receive the 2020 Young Leaders Professional Development Award from the Functional Materials Division of The Minerals, Metals, and Materials Society (TMS). This award was created to enhance the professional development of dynamic young people from the five technical divisions of TMS by helping them…
Solutions for lifetime laser damage to materials
Work by PLS scientists Jae-Hyuck Yoo and Andrew Lange (both MSD) and Engineering’s John Chesser, Steve Falabella, and Selim Elhadj was recently highlighted in Physica Status Solidi A: Applications and Materials Science as the November 2019 cover story. The research described in the article explores guidelines for designing materials with high laser damage lifetimes. To…