Abstract
Saponins are naturally occurring biosurfactants present in a wide range of plant species. They are highly surface active glycosides, and are used to stabilise foams and emulsions in foods, beverages and cosmetics. They have great potential for an even wider range of applications, especially when mixed with different synthetic surfactants. Understanding those mixing properties are key to the exploitation of saponins in that wider range of potential applications. The surface adsorption properties of the saponin, escin, with two conventional nonionic surfactants, polyethylene glycol surfactants, have been studied at the air-water interface using neutron reflectivity, NR, and surface tension, ST. Although the saponin and polyethylene glycol, CnEOm, surfactants are both nonionic the disparity in the relative surface activities and packing constraints result in non-ideal mixing. Comparison with the predictions of the pseudo phase approximation requires the inclusion of the quadratic, cubic and quartic terms in the expansion of the excess free energy of mixing to explain the variations in the surface composition. For escin/pentaethylene glycol monododecyl ether, C12EO5, the interaction is attractive and close to ideal. For escin/octaethylene glycol monododecyl ether, C12EO8, it is repulsive and close to the criteria for demixing. The differences in mixing behaviour are attributed to greater packing constraints imposed by the larger ethylene oxide headgroup of the C12EO8 compared to C12EO5.
Original language | English |
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Pages (from-to) | 385-392 |
Number of pages | 8 |
Journal | Journal of Colloid and Interface Science |
Volume | 574 |
DOIs | |
State | Published - Aug 15 2020 |
Externally published | Yes |
Funding
The provision of beam time on the SURF and INTER reflectometers at ISIS is acknowledged. The invaluable scientific and technical assistance of the Instrument Scientists and support staff is greatly appreciated. IMT, AB, REP, and SLH thank Innovate UK for funding under the IB catalyst scheme, grant no. 131168, “A synthetic biology-based approach to engineering triterpenoid saponins and optimisation for industrial applications”. All the authors have contributed to the different aspects of the paper, which include the experimental design and measurement, interpretation and analysis of the data, preparation and approval/editing of the manuscript, and management of resources; and specifically IMT, AB, REP, RKT, JP, PXL, KM, JRPW and RW have been involved in the measurement and interpretation of the data and experimental design, JRPW and SLH in the management of resources, and IMT, RKT, JP, PXL, JRPW, and SLH in the editing of the manuscript. Funded through the beam time awarded at the STFC's ISIS Facility, and funding from Innovate UK under the IB catalyst scheme, grant no. 131168, “A synthetic biology-based approach to engineering triterpenoid saponins and optimisation for industrial applications”. Funded through the beam time awarded at the STFC’s ISIS Facility, and funding from Innovate UK under the IB catalyst scheme, grant no. 131168 , “A synthetic biology-based approach to engineering triterpenoid saponins and optimisation for industrial applications”.
Funders | Funder number |
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ISIS | |
SURF | |
Science and Technology Facilities Council | |
Innovate UK | 131168 |
Keywords
- Adsorption
- Air-water interface
- Escin
- Mixed surfactants
- Neutron reflectivity
- Nonionic surfactants
- Pseudo phase approximation
- Saponins