Scientists reported the creation of an effective cellulase “cocktail” by co-cultivating multiple Penicillium strains with some that produce lytic polysaccharide monooxygenases (LPMOs), resulting in an excellent hydrolysis yield of pretreated poplar materials.
Flinders University materials researchers and pioneering German biomaterials developer one • five are using seaweed extracts to develop next-generation biopolymer coating materials that could solve packaging waste dilemmas for the fast-food industry.
A team of researchers recently published a paper in the journal Nature Communications that reviewed the fabrication of microrobots using three-dimensional (3D) printing methods and their applications.
In an article recently published in the open-access journal Scientific Reports, researchers discussed acrylic resin preparation and characterization using bioactive glasses.
AMETEK Spectro Scientific, one of the world’s largest suppliers of oil and fuel analysis instrumentation and software, has released a unique portable oil analysis laboratory that has delivered proven operational benefits for the US Military.
In a review article recently published in the journal Materials & Design, researchers discussed the prospects and advances of Bletilla striata polysaccharide as potential multifunctional biomedical materials.
A paper recently published in the journal ACS Applied Energy Materials demonstrated the feasibility of using a simple and effective method to exfoliate waste biomass into porous carbon with different structural leve...
Writing in the journal ACS Energy Letters, a team of scientists from the Republic of Korea has explored new high-energy organic electrodes with long lives for use in rechargeable aqueous batteries.
Products containing cannabidiol (CBD) have been popular since the legalization of hemp cultivation. The majority of these oils and lotions promise to relieve pain and other illnesses, but new research indicates that CBD may also serve another purpose: it may act as a bioplastic.
Scientists from Texas A&M AgriLife Research have created a system that uses carbon dioxide, or CO2, to create bioplastics, which could take the place of the non-biodegradable plastics currently in use.
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