As part of an $80 million initiative of the Department of Energy (DOE) Bioenergy Technologies Office supporting 36 projects in bioenergy R&D, a team of University of California (UC) San Diego biologists and chemists have been awarded $2 million to develop new methods for manufacturing products based on algae.
More specifically, project principal investigator Stephen Mayfield of the Division of Biological Sciences, will lead efforts toward the development of novel platforms to produce biologically-based monomers that will be used to manufacture renewable and biodegradable versions of polyurethanes.
“We propose to develop novel algae platforms for the production of one of the key monomers used to make polyurethane polymers, while simultaneously developing basic tools to enable improved algal production systems that will accelerate the process from initial concept to market supply,” said Mayfield, who directs the California Center for Algae Biotechnology and the Food & Fuel for the 21st Century program.
Mayfield said the DOE and others are investing in novel manufacturing methods for bio-based products and markets, including algae-based polymers that will be used for a variety of plastics found in everyday items. Algae bio-based production strives to be cost-competitive with plastic products manufactured with fossil sources. “This grant is part of a significant new initiative by the Department of Energy and other agencies to support the ‘bio-economy,’ which is using living organisms to manufacture products. This is one of the fastest growing sectors for creating new jobs, as well as for developing new advanced materials and products,” added Mayfield.
Mayfield’s laboratory is developing algae for the production of human and animal foods and feeds, and as a platform for the production of recombinant proteins useful as therapeutics or industrial enzymes. He also works with UC San Diego Chemistry and Biochemistry Department Professors Michael Burkart and Skip Pomeroy in developing sustainably based products such as revolutionary algae-based surfboards and renewable flip-flops, part of an effort to replace the three billion petroleum-based shoes manufactured worldwide with sustainable and biodegradable shoes made from algae.
According to Burkart, as a society, we know that we have to change our consumer habits, and this can only happen step by step. “Our strategy is to go from renewable algae feedstocks all the way to products that people actually want to buy. The surfboards were a big success, and we are excited to see how people like the flip-flops. Our goal is to get to 100 percent renewability and biodegradability. I believe that we can make an impact.”
Pomeroy noted the necessity of developing such innovative products. “Biobased, renewable, sustainable materials are the future of the plastics industry. Originally founded on petroleum, these materials have to be redesigned because 1) the oil will run out and 2) because of their persistence in the environment as evidenced by the plastic trash heap in the middle of the Pacific Ocean.”
In addition to Mayfield, Burkart and Pomeroy, the project also includes Ryan Simkovsky of Food and Fuel for the 21st Century. Other collaborators include UC Davis, Agile BioFoundry members at Lawrence Berkeley National Laboratory, Pacific Northwest National Laboratory and the Georgia Institute of Technology.