2024
Elucidating supercritical fluid extraction of fucoxanthin from algae to enable the integrated biorefinery
Lane M, Gilcher E, Ahrens-Víquez M, Pontious R, Wyrtzen N, Zimmerman J. Elucidating supercritical fluid extraction of fucoxanthin from algae to enable the integrated biorefinery. Bioresource Technology 2024, 406: 131036. PMID: 38925405, DOI: 10.1016/j.biortech.2024.131036.Peer-Reviewed Original Research
2016
Time‐dependent life cycle assessment of microalgal biorefinery co‐products
Montazeri M, Soh L, Pérez‐López P, Zimmerman J, Eckelman M. Time‐dependent life cycle assessment of microalgal biorefinery co‐products. Biofuels Bioproducts And Biorefining 2016, 10: 409-421. DOI: 10.1002/bbb.1649.Peer-Reviewed Original ResearchN-deplete conditionsEfficient nutrient cyclingReplete conditionsAlgae speciesDeplete conditionsMicroalgal proteinsNutrient cyclingNon-lipid fractionBiomolecular compositionC. sorokinianaN. oculataProtein fractionsProductivity of lipidsSpeciesGrowth experimentsPrimary targetLipid contentTime of harvestingFeeding regimesCumulative energy demandBiological feedstocksRelative proportionsHarvesting periodLipidsAlgae
2011
Biodiesel production: the potential of algal lipids extracted with supercritical carbon dioxide
Soh L, Zimmerman J. Biodiesel production: the potential of algal lipids extracted with supercritical carbon dioxide. Green Chemistry 2011, 13: 1422-1429. DOI: 10.1039/c1gc15068e.Peer-Reviewed Original ResearchAlgal lipid extractionFAME profilesLiquid chromatography-mass spectrometryMicroalgae speciesAlgal lipidsFatty acid methyl estersAlgaeBead beatingScenedesmus dimorphusAlgal harvestingSustainable productionPigmentsLipidsLipid extractionSpeciesDimorphusChromatography-mass spectrometryPhospholipidsCellsCarbon dioxide