Tag: Osaka Metropolitan University
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Advanced artificial photosynthesis catalyst uses CO2 more efficiently to create biodegradable plastics
An innovative and more efficient way to produce fumaric acid that not only reduces carbon dioxide emissions, but also reuses waste resources to make biodegradable plastics
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Low concentration CO2 can be reused in biodegradable plastic precursor using artificial photosynthesis
Visible-light-driven 3-hydroxybutyrate production from acetone and low concentrations of CO2 with a system of hybridized photocatalytic NADH regeneration and multi-biocatalysts†
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Artificial Photosynthesis Uses Sunlight to Make Biodegradable Plastic
Synthesis of fumaric acid by a new method of artificial photosynthesis, using sunlight.
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Synthesizing Biodegradable Plastic with Sunlight and CO2
Success in synthesizing biodegradable plastic materials using sunlight and CO2
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Synthetisation of Fumaric Acid
Researchers have successfully synthesized fumarate (fumaric acid), a raw material for unsaturated polyester resin, by combining carbon dioxide (CO2) with pyruvate (derived from biomass), using two biocatalysts: malate dehydrogenase and fumarase.
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