All-natural straws crafted from delignified wood and chitosan demonstrate superior strength and hydro-stability, paving the way for sustainable packaging.
In a recent study published in ACS Materials Letters, a team led by researchers at the United States Department of Energy's (DOE) Argonne National Laboratory provided key insights into solid electrolytes being tested for use in all-solid-state batteries.
Research shows that modifying the texture of metals in batteries can boost performance, offering insights for next-generation energy storage technologies.
A novel 3D bioprinted gastric cancer model using patient-derived tissues predicts drug responses, enhancing personalized treatment and reducing side effects.
This study demonstrates how tailored polyimide structures can boost lithium-ion battery efficiency, highlighting the role of molecular design in energy storage.
Cornell researchers capture real-time transformation of a cobalt-manganese oxide catalyst, revealing potential as a cost-effective alternative to platinum.
Packaging technology company Pulpex Ltd. has partnered with the University of Surrey to improve its manufacturing processes and offer a workable solution to plastic pollution.
Osaka University's study on VO2 metamaterials demonstrates improved terahertz detection in silicon devices, highlighting advancements in electronic performance.
Research from The University of Texas at Austin uncovers the effects of environmental factors on battery life in wireless earbuds, enhancing future designs.
So-called "infinite-layer" nickelate materials, characterized by their unique crystal and electronic structures, exhibit significant potential as high-temperature superconductors.
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