Partition of nanoswimmers between two immiscible phases: a soft and penetrable boundary

Ying Shuo Peng; Yu Jane Sheng; Heng Kwong Tsao

doi:10.1039/d0sm00298d

Partition of nanoswimmers between two immiscible phases: a soft and penetrable boundary

Ying Shuo Peng, Yu Jane Sheng, Heng Kwong Tsao

化學工程與材料工程學系

研究成果: 雜誌貢獻 › 期刊論文 › 同行評審

1 引文斯高帕斯（Scopus）

摘要

The behavior of run-and-tumble nanoswimmers which can self-propel in two immiscible liquids such as water-oil systems and are able to cross the interface is investigated by dissipative particle dynamics. At the steady-state, the partition ratio (φ) of nanoswimmers between the two immiscible liquids is obtained, and it depends on the active force (F_a), run time (τ), and swimmer-solvent interactions. The partition ratioφis found to grow generally with increasingF_a²τ. At sufficiently largeF_a, it is surprising to find that hydrophilic nanoswimmers prefer to stay in the oil phase rather than in the water phase. The partition ratio is also influenced by the hydrophobicity of swimmers in the oil phase. Two simple models are proposed to describe the partition ratio, including a near-equilibrium model and a kinetic model. Surface accumulation appearing at an impenetrable interface is also observed at the fluid-fluid interface for smallF_abut it vanishes for sufficiently largeF_a

原文	???core.languages.en_GB???
頁（從 - 到）	5054-5061
頁數	8
期刊	Soft Matter
卷	16
發行號	21
DOIs	https://doi.org/10.1039/d0sm00298d
出版狀態	已出版 - 7 6月 2020

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10.1039/d0sm00298d

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title = "Partition of nanoswimmers between two immiscible phases: a soft and penetrable boundary",

abstract = "The behavior of run-and-tumble nanoswimmers which can self-propel in two immiscible liquids such as water-oil systems and are able to cross the interface is investigated by dissipative particle dynamics. At the steady-state, the partition ratio (φ) of nanoswimmers between the two immiscible liquids is obtained, and it depends on the active force (Fa), run time (τ), and swimmer-solvent interactions. The partition ratioφis found to grow generally with increasingFa2τ. At sufficiently largeFa, it is surprising to find that hydrophilic nanoswimmers prefer to stay in the oil phase rather than in the water phase. The partition ratio is also influenced by the hydrophobicity of swimmers in the oil phase. Two simple models are proposed to describe the partition ratio, including a near-equilibrium model and a kinetic model. Surface accumulation appearing at an impenetrable interface is also observed at the fluid-fluid interface for smallFabut it vanishes for sufficiently largeFa",

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T2 - a soft and penetrable boundary

AU - Peng, Ying Shuo

AU - Sheng, Yu Jane

AU - Tsao, Heng Kwong

N1 - Publisher Copyright: © The Royal Society of Chemistry 2020.

PY - 2020/6/7

Y1 - 2020/6/7

N2 - The behavior of run-and-tumble nanoswimmers which can self-propel in two immiscible liquids such as water-oil systems and are able to cross the interface is investigated by dissipative particle dynamics. At the steady-state, the partition ratio (φ) of nanoswimmers between the two immiscible liquids is obtained, and it depends on the active force (Fa), run time (τ), and swimmer-solvent interactions. The partition ratioφis found to grow generally with increasingFa2τ. At sufficiently largeFa, it is surprising to find that hydrophilic nanoswimmers prefer to stay in the oil phase rather than in the water phase. The partition ratio is also influenced by the hydrophobicity of swimmers in the oil phase. Two simple models are proposed to describe the partition ratio, including a near-equilibrium model and a kinetic model. Surface accumulation appearing at an impenetrable interface is also observed at the fluid-fluid interface for smallFabut it vanishes for sufficiently largeFa

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Partition of nanoswimmers between two immiscible phases: a soft and penetrable boundary

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