Conceptual overview of obligate methanotroph metabolism and PHB biosynthesis under mixed-substrate conditions of methane and ethane. Methane (CH 4), a greenhouse gas with roughly 25 times the global ...
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Scientists develop incredible leaf-inspired material that could replace plastic: 'Very strong'
A research team from Washington University, St. Louis, recently developed a leaf-inspired bioplastic that holds up well in comparison to standard petroleum-based plastics in terms of resilience but ...
36 kilograms is the average amount of plastic packaging waste generated by a single EU citizen per year. Increasing consumption is driving the search for alternatives – biodegradable and durable ...
Bioplastics from natural polymers could replace petroleum-based plastics, helping us keep nonbiodegradable plastics out of landfills and waterways. But there’s a problem: The most promising ...
Established industrial systems have historically been designed to function as linear frameworks, transforming raw materials—including fossil and renewable resources—into products that become waste ...
Biome Bioplastics, one of the UK’s leading developers of bio-based alternatives to petroleum-based plastics, has begun a major development program to progress successful bio-based chemicals research ...
A research team has identified how ethane (C 2 H 6)—a major constituent of natural gas—affects the core metabolic pathways of the obligate methanotroph Methylosinus trichosporium OB3b. Subscribe to ...
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