Research Chemist
DeMichael Winfield, Ph.D.
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Synthesis of Biobased Materials from Plant Oils
♦ Research Chemist with a PhD in Polymer Chemistry
o Oleochemistry, biolubricants, thermoplastic polymers, green organic synthesis
♦ Modification of vegetable oils for industrial applications
♦ Development of green synthetic methodology for functionalizing agricultural feedstocks
♦ Synthesis of novel polymers derived from agricultural feedstocks
o Seed oils, terpenes, phenolic lipids, waxes
Left-to-Right: Pennycress, Lesquerella, Castor beans |
Research on Biolubricants
♦ Evaluated new seed oils and their estolides for use as lubricants
o Pennycress, castor, lesquerella
♦ Evaluated the estolides of different soybean oil varieties as lubricants
♦ Tested physical and lubrication properties:
o Pour and Cloud Points
o Viscosity and Viscosity Index
o Lubricity
o Oxidative Stability
Research on Synthesis
♦ Developed amphiphilic ionic liquid catalysts for applications in oleochemical functionalization
♦ Hydroxyalkoxylation of epoxidized vegetable oil derivatives
♦ Recycling of ionic liquid catalyst
Graph showing the cold-flow properties of estolides
Using ionic liquid catalyst for epoxy ring-opening
Research on Polymers
♦ Utilization of biobased platform chemicals with unique structures to make novel polymers
♦ Synthesis of plant derived polymer additives
♦ Synthesis of linear and branched estolides
examples of studied estolides (linear and branched)
BIO:
Dr. DeMichael Winfield is a Research Chemist with expertise in polymer and organic chemistry. He received his Ph.D. in Chemistry from the University of Georgia in 2021. His doctoral work focused on the synthesis and characterization of thermoplastics from plant biomass. In 2022 Dr. Winfield worked as a Postdoctoral Research Associate in the Bio-oils research unit at NCAUR, where he developed sustainable synthetic methods for functionalizing oleochemicals for fuel and lubricant applications.
Dr. Winfield joined the Bio-oils research group as a Research Chemist in 2023. His primary research focus is on the chemical modification of plant oils for industrial applications. Current projects include utilizing new crops as biobased feedstocks for applications as lubricants, biodiesel, polymers, and polymer additives. Another area of research is developing green, metal-free synthetic methods that are competitive with traditional industrial methods.
Development of New Value-Added Processes and Products from Advancing Oilseed Crops In-House Appropriated (D) Accession Number:436964
- (Clicking on the reprint icon will take you to the publication reprint.)
- Synthesis of carboxylic esters via green zinc catalysts-(Abstract Only)
- Fuel properties of biodiesel and biodiesel blends derived from Orychophragmus violaceus-(Abstract Only)
- Fuel properties of biodiesel and biodiesel blends derived from Orychophragmus violaceus-(Abstract Only)
- Fuel properties of biodiesel and biodiesel blends derived from Orchophragmus violaceus-(Abstract Only)
- Physical properties of Orychophragmus violaceus seed oil and its estolides-(Abstract Only)
Winfield, D.D., Evangelista, R.L., Moser, J.K., Bantchev, G.B. 2024. Physical properties of Orychophragmus violaceus seed oil and its estolides [abstract]. Association for the Advancement of Industrial Crops 35th Annual Conference & Meeting, Lisbon, Portugal, September 1-5/2024.
- Physical, chemical, and thermal properties of Orychophagmus violaaceus seeds and oil-(Abstract Only)
Evangelista, R.L., Moser, B.R., Winfield, D.D., Cermak, S.C. 2024. Physical, chemical, and thermal properties of Orychophagmus violaaceus seeds and oil [abstract]. Association for the Advancement of Industrial Crops 35th Annual Conference & Meeting, Lisbon, Portugal, September 1-5, 2024.
- Bio-oils: A sustainable resource for making eco-friendly materials-(Abstract Only)
Winfield, D.D. 2024. Bio-oils: A sustainable resource for making eco-friendly materials [abstract]. Osher Lifelong Learning Institute Meeting at Bradley University.
- Cold-flow properties of estolides: The older (D97 and D2500) versus the mini-(D5773 and D5949) methods -(Peer Reviewed Journal)
Bantchev, G.B., Lew, H.N., Chen, Y., Winfield, D.D., Cermak, S.C. 2024. Cold-flow properties of estolides: The older (D97 and D2500) versus the mini-(D5773 and D5949) methods. Lubricants. https://doi.org/10.3390/lubricants12050141.
- Synthesis and application of monomers produced from oxidative cleavage of castor oil-(Abstract Only)
Winfield, D.D., Vermillion, K. 2024. Synthesis and application of monomers produced from oxidative cleavage of castor oil [abstract]. American Oil Chemists' Society Annual Meeting and Expo.
- Characterization, physical properties, and potential industrial applications of high oleic pennycress oil -(Peer Reviewed Journal)
Winfield, D.D., Dunn, R.O., Moser, J.K., Cermak, S.C., Marks, M.D. 2024. Characterization, physical properties, and potential industrial applications of high oleic pennycress oil. Industrial Crops and Products. https://doi.org/10.1016/j.indcrop.2024.118095.
- Evaluation of a high oleic soybean oil variety in lubricant and biodiesel applications -(Peer Reviewed Journal)
Winfield, D.D., Cermak, S.C., Evangelista, R.L., Moser, B.R., McKinney, J., Pantalone, V. 2023. Evaluation of a high oleic soybean oil variety in lubricant and biodiesel applications. Journal of the American Oil Chemists' Society. https://doi.org/10.1002/aocs.12788.
- Characterization, physical properties, and applications of high oleic pennycress oil-(Abstract Only)
Winfield, D.D., Dunn, R.O., Winkler-Moser, J.K. 2023. Characterization, physical properties, and applications of high oleic pennycress oil. Association for the Advancement of Industrial Crops Conference. 87.
- Synthesis and characterization of estolide diamides for use as thickeners-(Abstract Only)
Cermak, S.C., Isbell, T.A., Kenar, J.A., Vermillion, K., Winfield, D.D. 2023. Synthesis and characterization of estolide diamides for use as thickeners [abstract]. Association for the Advancement of Industrial Crops Conference. p. 86.
- Selective hydroxyalkoxylation of epoxidized methyl oleate by an amphiphilic ionic liquid catalyst-(Abstract Only)
Winfield, D.D., Moser, B.R. 2023. Selective hydroxyalkoxylation of epoxidized methyl oleate by an amphiphilic ionic liquid catalyst [abstract]. American Oil Chemists' Society Annual Meeting & Exposition.
- Selective hydroxyalkoxylation of epoxidized methyl oleate by an amphiphilic ionic liquid catalyst -(Peer Reviewed Journal)
Winfield, D.D., Moser, B.R. 2023. Selective hydroxyalkoxylation of epoxidized methyl oleate by an amphiphilic ionic liquid catalyst. Journal of the American Oil Chemists' Society. 100(3):237-243. https://doi.org/10.1002/aocs.12672.
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