circular bioeconomy - Aneknowledge.com

Xylonic Acid Production from Sugarcane Bagasse Hydrolysate Using an Engineered Komagataella phaffii Strain.

Engineered Yeast Converts Sugarcane Waste into High-Yield Xylonic Acid for Green Industry Applications

Scientists from Brazil’s Embrapa Agroenergia and the University of Brasília engineered Komagataella phaffii to convert sugarcane bagasse hydrolysate into 42 g/L of xylonic acid, offering a renewable route for food, pharmaceutical, and bioplastic industries.

Aneknowledge October 13, 2025

Evaluation of beer residual yeast as a substrate for the biotechnological process of hyaluronic acid production.

Agriculture Biochemistry Emerging Science

Turning Beer Waste into Beauty Gold: How Residual Yeast Can Produce Sustainable Hyaluronic Acid

Discover how beer industry waste yeast can sustainably produce hyaluronic acid—bridging biotechnology, waste valorization, and the beauty industry.

Aneknowledge October 12, 2025

Enhancing pigment accumulation in Coelastrella thermophila var. globulina via olive-mill waste biostimulant addition during photosynthetic biogas upgrading.

Agriculture Biochemistry Emerging Science

Turning Olive Waste into Green Gold: How Biostimulants Boost Microalgae Pigment Production

Discover how olive-mill waste biostimulants enhance pigment and biomass production in Coelastrella thermophila, turning industrial waste into eco-friendly value.

Aneknowledge October 10, 2025

Polylactic acid/Ormocarpum cochinchinense bio-composites for sustainable 3D-printed biomedical devices.

Biochemistry Bioengineering Emerging Science

Researchers develop sustainable 3D-printed biocomposites for next-generation medical devices

Scientists have developed eco-friendly 3D-printed biocomposites made from polylactic acid (PLA) and Ormocarpum cochinchinense plant fibers. The new material combines sustainability with high mechanical strength, offering a promising alternative for medical implants and other biomedical applications.

Aneknowledge October 9, 2025

Biomanufacturing of early platform chemicals from industrial processing food waste using mono- and co-culture electrofermentation.

Agriculture Emerging Science Environment

Turning Food Waste into Biochemicals: How Electrofermentation is Powering the Future of Sustainable Manufacturing

Discover how mono- and co-culture electrofermentation transforms industrial food waste into valuable biochemicals. Learn how this sustainable technology drives circular bioeconomy and reduces waste.

Aneknowledge October 8, 2025

Polyphasic characterization and genomic insights of the cyanobacteria Aphanothece microscopica and A. stagnina from Southern Brazil with emphasis on fatty acid biosynthesis.

Agriculture Bioinformatics Emerging Science

Decoding the Genomic Secrets of Aphanothece: How Cyanobacteria Could Revolutionize Sustainable Biotechnology

Explore how Aphanothece microscopica and A. stagnina reveal new genomic traits for biofuel production, carbon fixation, and sustainable biotechnological innovation.

Aneknowledge October 8, 2025

A new catalytic breakthrough enables the conversion of diverse lignin feedstocks into drop-in sustainable aviation fuel (SAF), paving the way for greener skies and decarbonized air travel.

Emerging Science

Flying Green: New Catalytic Tech Converts Lignin into Sustainable Aviation Fuel

A new catalytic breakthrough enables the conversion of diverse lignin feedstocks into drop-in sustainable aviation fuel (SAF), paving the way for greener skies and decarbonized air travel.

Aneknowledge July 18, 2025