Feature Channels: Materials Science

Filters close
Newswise: Researchers Develop Clinically Validated, Wearable Ultrasound Patch for Continuous Blood Pressure Monitoring
19-Nov-2024 7:00 PM EST
Researchers Develop Clinically Validated, Wearable Ultrasound Patch for Continuous Blood Pressure Monitoring
University of California San Diego

A re-engineered wearable ultrasound patch for continuous and noninvasive blood pressure monitoring has undergone comprehensive clinical validation on over 100 patients, marking a major milestone in wearable technology research. The soft, stretchy patch provides precise, real-time readings of blood pressure deep within the body.

Newswise: KRICT Develops New Lithium Composite Material to Enhance Performance and Safety of Next-Generation Lithium Rechargeable Battereis
Released: 20-Nov-2024 12:00 AM EST
KRICT Develops New Lithium Composite Material to Enhance Performance and Safety of Next-Generation Lithium Rechargeable Battereis
National Research Council of Science and Technology

Groundbreaking material technology from the Korea Research Institute of Chemical Technology effectively prevents lithium dendrite growth, tackling the main cause of reduced lifespan in lithium-metal batteries. This innovative material, easily produced through a streamlined process, is set to become a game-changer for next-generation lithium rechargeable batteries.

Newswise: Cracking the Code of Performance Degradation in Solid Oxide Cells at the Atomic Level
Released: 18-Nov-2024 12:00 AM EST
Cracking the Code of Performance Degradation in Solid Oxide Cells at the Atomic Level
National Research Council of Science and Technology

Dr. Hye Jung Chang and Dr. Kyung Joong Yoon (Director) of the Hydrogen Energy Materials Research Center at the Korea Institute of Science and Technology (KIST) have announced that they have elucidated the mechanism of the initial degradation phenomenon that triggers the performance drop of high-temperature solid oxide electrolysis cell systems, using advanced transmission electron microscopy.

Newswise: Breakthrough Idea for CCU Technology Commercialization from 'Carbon Cycle of the Earth'
Released: 15-Nov-2024 12:00 AM EST
Breakthrough Idea for CCU Technology Commercialization from 'Carbon Cycle of the Earth'
National Research Council of Science and Technology

The research team led by Dr. Hyung-Suk Oh and Dr. Woong Hee Lee at the Clean Energy Research Center at Korea Institute of Science and Technology (KIST) has developed a silver-silica composite catalyst capable of reversible local pH control through a silica-hydroxide cycle, inspired by Earth’s natural cycles.

Newswise: McMaster celebrates launch of new Canadian Neutron Beam Laboratory
Released: 14-Nov-2024 10:55 AM EST
McMaster celebrates launch of new Canadian Neutron Beam Laboratory
McMaster University

McMaster University and Neutrons Canada celebrated the launch of the Canadian Neutron Beam Laboratory (CNBL) – a new suite of facilities built to advance neutron beam research in Canada. Neutron beams are an essential tool for materials research and innovation. They can penetrate deep into dense materials like metals, making it possible to visualize the interior of an object at the atomic scale without physically damaging it.

Newswise: Sensitive Ceramics for Soft Robotics
Released: 13-Nov-2024 9:25 AM EST
Sensitive Ceramics for Soft Robotics
Empa, Swiss Federal Laboratories for Materials Science and Technology

Robots that can sense touch and perceive temperature differences? An unexpected material might just make this a reality. At Empa's Laboratory for High-Performance Ceramics, researchers are developing soft and intelligent sensor materials based on ceramic particles.

Newswise: Developing Advanced Recycling Technology to Restore Spent Battery Cathode Materials
Released: 13-Nov-2024 9:00 AM EST
Developing Advanced Recycling Technology to Restore Spent Battery Cathode Materials
National Research Council of Science and Technology

The Korea Institute of Energy Research (KIER) has developed a cost-effective and eco-friendly recycling process that addresses the limitations of traditional direct recycling methods for spent batteries.

Newswise: Tuning the Catalytic Behavior of Metal Oxides
Released: 12-Nov-2024 2:45 PM EST
Tuning the Catalytic Behavior of Metal Oxides
Department of Energy, Office of Science

The behavior of catalysts that promote chemical reactions is not always straightforward. Using a combination of experiments and computer simulations, scientists now understand how oxygen affects the way the catalyst copper oxide reacts with hydrogen versus carbon monoxide gases and how to control and enhance related chemical reactions.

Newswise: Power Line Test Bed Energizes Technologies for Increasing Grid Capacity
Released: 12-Nov-2024 2:30 PM EST
Power Line Test Bed Energizes Technologies for Increasing Grid Capacity
Oak Ridge National Laboratory

As population growth and extreme temperatures strain the United States power grid, utilities and equipment manufacturers are looking for ways to increase the amount of electricity the grid can carry. The Powerline Conductor Accelerated Testing Facility, or PCAT, located at the Department of Energy’s Oak Ridge National Laboratory, is one of the only facilities in the country where companies can try out new transmission line technologies for long time periods in extremes of wind, weather, temperature and electrical load conditions.

Released: 12-Nov-2024 9:05 AM EST
Case Western Reserve University to Offer Full Funding to Hertz Fellowship Finalists
The Fannie and John Hertz Foundation

Case Western Reserve University has a new offer for the 25 to 30 students each year who are named finalists for the prestigious Hertz Fellowship but are not ultimately selected as Hertz Fellows: matriculate at CWRU and receive full financial benefits.

   
Newswise: Research Update: Chalk-Coated Textiles Cool in Urban Environments
Released: 8-Nov-2024 8:00 AM EST
Research Update: Chalk-Coated Textiles Cool in Urban Environments
American Chemical Society (ACS)

Researchers who previously demonstrated a cooling fabric coating now report on additional tests of a treated polyester fabric in ACS Applied Materials & Interfaces. Fabric treated with the team’s chalk-based coating kept the air underneath up to 6 degrees Fahrenheit cooler in warmer urban environments.

Newswise: New Material to Make Next Generation of Electronics Faster and More Efficient
Released: 8-Nov-2024 8:00 AM EST
New Material to Make Next Generation of Electronics Faster and More Efficient
University of Minnesota College of Science and Engineering

Researchers at the University of Minnesota have achieved a new material that will be pivotal in making the next generation of high-power electronics faster, transparent and more efficient.

Newswise: Distinguished Lecture: Targeting a World-Leading Market Supplier of Graphene Materials
Released: 7-Nov-2024 8:35 PM EST
Distinguished Lecture: Targeting a World-Leading Market Supplier of Graphene Materials
Hong Kong Institute for Advanced Study, City University of Hong Kong

Join us for an insightful lecture by Professor Zhongfan Liu, Boya Chair Professor at Peking University and President of the Beijing Graphene Institute (BGI). Professor Liu will discuss how BGI is rapidly becoming a global leader in graphene materials, with innovations like graphene-skinned glass fibers, single crystal graphene wafers, and more!

Newswise: Designing Battery Success From Failure
Released: 7-Nov-2024 3:40 PM EST
Designing Battery Success From Failure
Oak Ridge National Laboratory

Oak Ridge National Laboratory scientists are developing a formula for success – by studying how a new type of battery fails. The team’s goal is the design for long-term storage of wind and solar energy, which are produced intermittently, enabling their broader use as reliable energy sources for the electric grid.

Newswise: Physics with a Twist: FSU Researchers Publish New Findings on Graphene
Released: 7-Nov-2024 3:20 PM EST
Physics with a Twist: FSU Researchers Publish New Findings on Graphene
Florida State University

Researchers from the Florida State University Department of Physics and FSU-headquartered National High Magnetic Field Laboratory have published new findings that reveal how various physical manipulations of graphene, such as layering and twisting, impact its optical properties and conductivity. The study was published in the journal Nano Letters.

Newswise: ASU Preservation Facility Serves as Test Bed for Rooftop Heat Mitigation
Released: 7-Nov-2024 12:25 PM EST
ASU Preservation Facility Serves as Test Bed for Rooftop Heat Mitigation
Arizona State University (ASU)

EnKoat, an Arizona State University spinout founded by two doctoral students, has developed a roof coating that uses thermal-energy storage materials to mitigate heat effects improve building energy use.

Newswise:Video Embedded scientists-capture-images-of-electron-molecular-crystals
VIDEO
Released: 7-Nov-2024 11:00 AM EST
Scientists Capture Images of Electron Molecular Crystals
Lawrence Berkeley National Laboratory

Researchers have taken direct images of the Wigner molecular crystal, a new quantum phase of an electron solid. The breakthrough may advance future technologies for quantum simulations.

Newswise: Atomic-Level Heterostructures for Enhanced Photocatalytic Hydrogen Evolution
Released: 7-Nov-2024 8:30 AM EST
Atomic-Level Heterostructures for Enhanced Photocatalytic Hydrogen Evolution
Chinese Academy of Sciences

This study presents a novel approach utilizing the concentration gradient of thiourea dissociation products to synthesize a CdNCN-CdS composite photocatalyst with an atomic-level heterostructure (NCN-Cd-S). The strong electron affinity of CdNCN and efficient electron transfer at the interface enhance photocatalytic hydrogen evolution, achieving a record-high rate of 14.7 mmol·g⁻¹·h⁻¹ under visible light, surpassing other CdS-based composites.

Newswise: “Seeing” More Sharply into Self-Assembled Nanomaterials
Released: 6-Nov-2024 4:25 PM EST
“Seeing” More Sharply into Self-Assembled Nanomaterials
Department of Energy, Office of Science

To build nanostructures, researchers need to probe these structures’ internal architecture at various states of assembly in three dimensions. This project used several methods to produce X-ray computed tomography (CT) scans that provided record-setting, 7-nanometer resolution and information on the elements in the materials. The researchers then constructed 3-D frameworks to reveal the nanostructures’ imperfections and interfaces.

Newswise: UAH Doctoral Candidate Awarded $150,000 NASA Finesst Grant to Research 3D-Printed Lunar Concrete
Released: 6-Nov-2024 3:00 PM EST
UAH Doctoral Candidate Awarded $150,000 NASA Finesst Grant to Research 3D-Printed Lunar Concrete
University of Alabama Huntsville

Ledia Shehu, a doctoral student at The University of Alabama in Huntsville (UAH), has been selected to receive a NASA Future Investigators in NASA Earth and Space Science and Technology (FINESST) grant for her proposal, “Physics-Based Multiscale Constitutive Model for ISRU-Based 3D-Printed Lunar Concrete.” The project seeks to develop a multiscale model for 3D-printed concrete using lunar materials by simulating lunar conditions.



close
3.3475