Research Keyword: biorefinery

Upcycled Orange Peel Ingredients: A Scoping Review on Phytochemical Composition, Extraction Techniques, and Biorefinery Strategies

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Orange peels, which make up half the weight of oranges, are usually thrown away but contain valuable compounds beneficial for health. Scientists have found that these peels are rich in phytochemicals that can reduce inflammation, improve heart health, and support gut health. New methods are being developed to extract and use these beneficial compounds in food products, creating a more sustainable and waste-free approach to the citrus industry.

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Shifu-Inspired Fungal Paper Yarns

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Scientists have developed a new method to turn mushroom material into yarn using an ancient Japanese papermaking technique called Shifu. By processing white button mushrooms and rolling the resulting sheets into thread, researchers created yarns with strength comparable to cotton and commercial paper yarns. This innovation opens possibilities for using fungal material in clothing, carpets, and furniture, offering a sustainable alternative to synthetic fibers.

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Biorefining spent substrates of shiitake (Lentinula edodes) and oyster mushroom (Pleurotus ostreatus): enzymatic saccharification of cellulose and xylan, with lignin recovery from residues

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This research explores how to turn leftover mushroom growing material into useful products. After mushrooms are harvested, significant waste remains that contains valuable sugars and lignin. The study found that shiitake mushroom waste is naturally easier to break down into sugars than oyster mushroom waste, and they developed methods to extract high-purity lignin from the leftovers. This approach could help mushroom farmers reduce waste while creating valuable materials for biofuels and other products.

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Consolidated Bioprocess for Bioethanol Production from Raw Flour of Brosimum alicastrum Seeds Using the Native Strain of Trametes hirsuta Bm-2

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Scientists successfully used a wood-rotting fungus called Trametes hirsuta to convert ramon tree seeds (which contain lots of starch) into bioethanol in a simple one-step process. The fungus naturally produces its own enzymes to break down the starch and ferment it into ethanol, eliminating the need for expensive commercial enzymes. The leftover material from this process contains high protein content and could be used as animal feed, making the process economically attractive for sustainable biofuel production.

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