Zongxu Wu scite author profile

The dissipative particle dynamics simulation method is adopted to investigate the microemulsion systems prepared with surfactant (H1T1), oil (O) and water (W), which are expressed by coarse-grained models. Two topologies of O/W and W/O microemulsions are simulated with various oil and water ratios. Inverse W/O microemulsion transform to O/W microemulsion by decreasing the ratio of oil-water from 3:1 to 1:3. The stability of O/W and W/O microemulsion is controlled by shear rate, inorganic salt and the temperature, and the corresponding results are analyzed by the translucent three-dimensional structure, the mean interfacial tension and end-to-end distance of H1T1. The results show that W/O microemulsion is more stable than O/W microemulsion to resist higher inorganic salt concentration, shear rate and temperature. This investigation provides a powerful tool to predict the structure and the stability of various microemulsion systems, which is of great importance to developing new multifunctional microemulsions for multiple applications.

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The formation and stability of microemulsions formed with organic solvent as inner/outer phases: Insight from DPD simulation

Zhang

Ding

Cai

et al. 2023

Journal of Molecular Liquids

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Supercritical carbon dioxide microemulsion stabilized with zwitterionic surfactant: A dissipative particle dynamics simulation study

Zhang

Wu³

et al. 2022

Journal of Molecular Liquids

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The formation and temperature stability of microemulsion emulsified by polyoxyethylene ether surfactant

Zhang¹,

Xia²,

Ding³

et al. 2023

Progress in Natural Science: Materials International

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Zongxu Wu

Investigation on the formation and stability of microemulsions with Gemini surfactants: DPD simulation

DPD Simulation on the Transformation and Stability of O/W and W/O Microemulsions

The formation and stability of microemulsions formed with organic solvent as inner/outer phases: Insight from DPD simulation

Supercritical carbon dioxide microemulsion stabilized with zwitterionic surfactant: A dissipative particle dynamics simulation study

The formation and temperature stability of microemulsion emulsified by polyoxyethylene ether surfactant

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