Inorganic Surface Coating with Fast Wetting-Dewetting Transitions for Liquid Manipulations

Yajie Yang; Liaoliao Zhang; Jue Wang; Xinwei Wang; Libing Duan; Nan Wang; Fajun Xiao; Yanbo Xie; Jianlin Zhao

doi:10.1021/acsami.8b02537

Inorganic Surface Coating with Fast Wetting-Dewetting Transitions for Liquid Manipulations

Yajie Yang, Liaoliao Zhang, Jue Wang, Xinwei Wang, Libing Duan, Nan Wang, Fajun Xiao, Yanbo Xie, Jianlin Zhao

Research output: Contribution to journal › Article › peer-review

16 Scopus citations

Abstract

Liquid manipulation is a fundamental issue for microfluidics and miniaturized sensors. Fast wetting-state transitions by optical methods have proven being efficient for liquid manipulations by organic surface coatings, however rarely been achieved by using inorganic coatings. Here, we report a fast optical-induced wetting-state transition surface achieved by inorganic coating, enabling tens of second transitions for a wetting-dewetting cycle, shortened from an hour, as typically reported. Here, we demonstrate a gravity-driven microfluidic reactor and switch it to a mixer after a second-step exposure in a minimum of within 80 s of UV exposure. The fast wetting-dewetting transition surfaces enable the fast switchable or erasable smart surfaces for water collection, miniature chemical reaction, or sensing systems by using inorganic surface coatings.

Original language	English
Pages (from-to)	19182-19188
Number of pages	7
Journal	ACS Applied Materials and Interfaces
Volume	10
Issue number	22
DOIs	https://doi.org/10.1021/acsami.8b02537
State	Published - 6 Jun 2018

Keywords

atomic layer deposition
liquid manipulations
microfluidics
photoresponsive wetting transition
ZnO

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10.1021/acsami.8b02537

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abstract = "Liquid manipulation is a fundamental issue for microfluidics and miniaturized sensors. Fast wetting-state transitions by optical methods have proven being efficient for liquid manipulations by organic surface coatings, however rarely been achieved by using inorganic coatings. Here, we report a fast optical-induced wetting-state transition surface achieved by inorganic coating, enabling tens of second transitions for a wetting-dewetting cycle, shortened from an hour, as typically reported. Here, we demonstrate a gravity-driven microfluidic reactor and switch it to a mixer after a second-step exposure in a minimum of within 80 s of UV exposure. The fast wetting-dewetting transition surfaces enable the fast switchable or erasable smart surfaces for water collection, miniature chemical reaction, or sensing systems by using inorganic surface coatings.",

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AU - Yang, Yajie

AU - Zhang, Liaoliao

AU - Wang, Jue

AU - Wang, Xinwei

AU - Duan, Libing

AU - Wang, Nan

AU - Xiao, Fajun

AU - Xie, Yanbo

AU - Zhao, Jianlin

PY - 2018/6/6

Y1 - 2018/6/6

N2 - Liquid manipulation is a fundamental issue for microfluidics and miniaturized sensors. Fast wetting-state transitions by optical methods have proven being efficient for liquid manipulations by organic surface coatings, however rarely been achieved by using inorganic coatings. Here, we report a fast optical-induced wetting-state transition surface achieved by inorganic coating, enabling tens of second transitions for a wetting-dewetting cycle, shortened from an hour, as typically reported. Here, we demonstrate a gravity-driven microfluidic reactor and switch it to a mixer after a second-step exposure in a minimum of within 80 s of UV exposure. The fast wetting-dewetting transition surfaces enable the fast switchable or erasable smart surfaces for water collection, miniature chemical reaction, or sensing systems by using inorganic surface coatings.

AB - Liquid manipulation is a fundamental issue for microfluidics and miniaturized sensors. Fast wetting-state transitions by optical methods have proven being efficient for liquid manipulations by organic surface coatings, however rarely been achieved by using inorganic coatings. Here, we report a fast optical-induced wetting-state transition surface achieved by inorganic coating, enabling tens of second transitions for a wetting-dewetting cycle, shortened from an hour, as typically reported. Here, we demonstrate a gravity-driven microfluidic reactor and switch it to a mixer after a second-step exposure in a minimum of within 80 s of UV exposure. The fast wetting-dewetting transition surfaces enable the fast switchable or erasable smart surfaces for water collection, miniature chemical reaction, or sensing systems by using inorganic surface coatings.

KW - atomic layer deposition

KW - liquid manipulations

KW - microfluidics

KW - photoresponsive wetting transition

KW - ZnO

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Inorganic Surface Coating with Fast Wetting-Dewetting Transitions for Liquid Manipulations

Abstract

Keywords

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