(Press-News.org) Waste cooking oil, sulfur and wool offcuts have been put to good use by green chemists at Flinders University to produce a sustainable new kind of housing insulation material.
The latest environmentally friendly building product from experts at the Flinders Chalker Lab and colleagues at Deakin and Liverpool University, has been described in a new paper published in Chemistry Europe ahead of Global Recycling Day (18 March 2021)
The insulating composite was made from the sustainable building blocks of wool fires, sulfur, and canola oil to produce a promising new model for next-generation insulation - not only capitalising on wool's natural low flammability but also to make significant energy savings for property owners and tenants.
The new composite is one of several exciting new composites and polysulfide polymers made from waste products that are now being commercialised, says lead author Associate Professor Justin Chalker, the New Innovators winner in the 2020 Prime Minister's Prizes for Science.
"The aim of this new study was to evaluate a composite made from sulfur, canola oil, and wool as thermal insulation. The material is prepared by hot pressing raw wool with a polymer made from sulfur and canola oil," Associate Professor Chalker says.
"The promising mechanical and insulation properties of this composite bodes well for further exploration in energy saving insulation in our built environment."
The new study adds to a suite of other composites, such as a new type of building block and a renewable rubber material created in the Chalker Lab.
The long-term biodegradation of these materials in a safe and responsible way at the end of their life is also a target of the research.
The last decade has been described as the hottest on record, and reusing waste is one way to extend the life of billions of tonnes of natural resources consumed every year.
Global company Clean Earth Technologies is commercialising the polymers for a range of applications - from removing mercury contamination from soil and retrieving oil after a large-scale spill, to a polymer to release fertiliser more slowly to reduce run-off, and facilitating a safer method of leaching and extracting gold.
In line with the UN's Sustainable Development Goals 2030, Global Recycling Day recognises individuals, governments and organisations taking direct action to support the global green agenda.
Recycling is a key part of the circular economy, helping to protect our natural resources. Each year the 'Seventh Resource' (recyclables) saves over 700 million tonnes in CO2 emissions and this is projected to increase to 1 billion tonnes by 2030.
INFORMATION:
The paper 'Insulating composites made from sulfur, canola oil, and wool' (2021) by IB Najmah, NA Lundquist, MK Stanfield, F Stojcevski, JA Campbell, LJ Esdaile, CT Gibson, DA Lewis, LC Henderson, T Hasell and JM Chalker has been published by the Wiley journal ChemSusChem (Chemistry-Sustainability-Energy-Materials) European Chemical Societies Publishing DOI: 10.1002/cssc.202100187
Funding for this research came from the Australian Research Council and the Royal Society with support from Flinders University Microscopy and Microanalysis Centre and SA node of the Australian National Fabrication Facility under the National Collaborative Research Infrastructure Strategy to provide nano and microfabrication facilities for Australia's researchers.
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Researchers led by Dr. LI Leping from the National Astronomical Observatories of the Chinese Academy of Sciences (NAOC) analyzed the evolution of magnetic reconnection and its nearby filament. The result suggested that reconnection is significantly accelerated by the propagating disturbance caused by the adjacent filament eruption.
The study was published in The Astrophysical Journal on Feb. 25.
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The research team included ...
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CLEVELAND--Scientists at the Case Western Reserve University School of Medicine have determined the structure of protein "fibrils" linked to Lou Gehrig's disease and other neurodegenerative disorders--findings that provide clues to how toxic proteins clump and spread between nerve cells in the brain.
Their results may also lead to developing drugs to treat diseases such as amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD).
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Researchers at Tufts University School of Engineering have created light-activated composite devices able to execute precise, visible movements and form complex three-dimensional shapes without the need for wires or other actuating materials or energy sources. The design combines programmable photonic crystals with an elastomeric composite that can be engineered at the macro and nano scale to respond to illumination.
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Nanopores are tiny holes that are wide enough for just a single molecule or particle to pass through. The motion of nanoparticles through these holes ...
Researchers at UCL have solved a major piece of the puzzle that makes up the ancient Greek astronomical calculator known as the Antikythera Mechanism, a hand-powered mechanical device that was used to predict astronomical events.
Known to many as the world's first analogue computer, the Antikythera Mechanism is the most complex piece of engineering to have survived from the ancient world. The 2,000-year-old device was used to predict the positions of the Sun, Moon and the planets as well as lunar and solar eclipses.
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PHILADELPHIA -- (March 12, 2021) -- Scientists at The Wistar Institute identified a new function of ADAR1, a protein responsible for RNA editing, discovering that the ADAR1p110 isoform regulates genome stability at chromosome ends and is required for continued proliferation of cancer cells. These findings, reported in Nature Communications, reveal an additional oncogenic function of ADAR1 and reaffirm its potential as a therapeutic target in cancer.
The lab of Kazuko Nishikura, Ph.D., professor in the Gene Expression & Regulation Program of The Wistar Institute Cancer Center, was one of the first to discover ADAR1 in mammalian cells and to characterize the process of RNA editing ...
