Projects per year
Abstract
Hypothesis: Amphiphilic character of surfactants drives them at the interface of dispersed systems, such as emulsions. Hemicellulose-rich wood extracts contain assemblies (lignin-carbohydrate complexes, LCC) with natural amphiphilicity, which is expected to depend on their chemical composition resulting from the isolation method. Lignin-derived phenolic residues associated with hemicelluloses are hypothesized to contribute to emulsions' interfacial properties and stability.
Experiments: We investigated the role of phenolic residues in spruce hemicellulose extracts in the stabilization of oil-in-water emulsions by physical and chemical approach. Distribution and changes occurring in the phenolic residues at the droplet interface and in the continuous phase were studied during an accelerated storage test. Meanwhile, the physical stability and lipid oxidation in emulsions were monitored.
Findings: Naturally associated lignin residues in GGM act as vehicles for anchoring these hemicelluloses into the oil droplet interface and further enable superior stabilization of emulsions. By adjusting the isolation method of GGM regarding their phenolic profile, their functionalities, especially interfacial behavior, can be altered. Retaining the native interactions of GGM and phenolic residues is suggested for efficient physical stabilization and extended protection against lipid oxidation. The results can be widely applied as guidelines in tailoring natural or synthetic amphiphilic compounds for interfacial stabilization. (C) 2017 Elsevier Inc. All rights reserved.
Original language | English |
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Journal | Journal of Colloid and Interface Science |
Volume | 512 |
Pages (from-to) | 536–547 |
Number of pages | 12 |
ISSN | 0021-9797 |
DOIs | |
Publication status | Published - 15 Feb 2018 |
MoE publication type | A1 Journal article-refereed |
Fields of Science
- 416 Food Science
- 116 Chemical sciences
- Spruce galactoglucomannans
- Phenolic residues
- Emulsion stability
- Lipid oxidation
- CORN FIBER GUM
- LIPID OXIDATION
- PHYSICOCHEMICAL CHARACTERIZATION
- PICKERING EMULSIONS
- WHEY-PROTEIN
- STABILITY
- HYDROCOLLOIDS
- EXTRACTION
- SYSTEMS
- WOOD
Projects
- 3 Finished
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EMPOWER: POWERful bioeconomically compatible EMulsifiers (Academy of Finland)
Valoppi, F. (Participant), Kirjoranta, S. (Participant), Pitkänen, L. (Participant) & Mikkonen, K. S. (Project manager)
01/10/2016 → 30/09/2018
Project: Research project
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WOODLIPS: Novel wood-derived emulsifiers for superior lipid stabilization (Jane and Aatos Erkko Foundation)
Lehtonen, M. (Participant), Lahtinen, M. (Participant) & Mikkonen, K. S. (Project manager)
01/01/2016 → 31/12/2018
Project: Research project
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MESTA: Mechanisms of Emulsion STAbilization by novel plant-derived hydrocolloids (Academy of Finland)
Mikkonen, K. S. (Project manager)
01/09/2013 → 31/08/2016
Project: Research project