A PhD student from India is conducting groundbreaking research with Monash University’s Department of Civil Engineering after being selected as recipient of the esteemed Australian Government funded Maitri Scholars Program.
Flow Chemistry specialist, Uniqsis, has been acquired by long-term trading partner - Asynt Ltd. The business deal, completed on 31st August 2024, includes the transfer of all Uniqsis staff, the company’s internationally respected intellectual property portfolio plus all equipment stock.
Researchers from Florida State University have created a novel biomass-based material that can be used to continuously absorb and release carbon dioxide.
In an article published in RSC Applied Polymers, researchers present a solution to e-waste by developing re-processible polyimide substrates through thiol-ene photopolymerization, offering potential alternatives to traditional electronic materials.
In a study that was published in Nature Communications, scientists from Heidelberg University (Germany), Kyoto University, and Osaka University (Japan) from the HeKKSaGOn Alliance used a protein found in plants as inspiration to develop a novel method of removing dangerous heavy-metal ions from water.
In a recent study published in the journal Applied Physics Reviews, researchers from the Nanyang Technological University developed a novel technique for printing functional nanocomposites for multi-jet fusion (MJF) and a state-of-the-art approach for creating effective SSGs for desalination.
In an article published in MRS Advances, researchers explore using MXene coatings to transform waste textiles like cotton, hemp, and nylon into smart wearables with thermal regulation, strain sensing, and IR camouflage capabilities.
Thermo Scientific™ LInspector™ Edge In-line Mass Profilometer Delivers Real-time, Full-Coverage Mass Loading Analysis for Battery Electrode Coating
In a recently published study in the journal Nature Communications, scientists at the University of Chicago's Pritzker School of Molecular Engineering (PME) have refined a novel technique for removing lithium from more diluted and abundant sources of the mineral, such as groundwater, seawater, and “flow back water” from offshore oil drilling and hydraulic fracturing.
In a study recently published in the Chinese Journal of Catalysis, Professors Shaobin Wang from The University of Adelaide and Hui Zhang from Wuhan University explained the mechanisms of PMS activation by single-atom iron catalysts.
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