Droplet mixing using electrically tunable superhydrophobic nanostructured surfaces

被引:0
|
作者
Evelyn N. Wang
Michael A. Bucaro
J. Ashley Taylor
Paul Kolodner
Joanna Aizenberg
Tom Krupenkin
机构
[1] Alcatel-Lucent,Bell Laboratories
[2] MIT,Department of Mechanical Engineering
[3] University of Wisconsin-Madison,Department of Mechanical Engineering
[4] Harvard University,School of Engineering and Applied Sciences
来源
Microfluidics and Nanofluidics | 2009年 / 7卷
关键词
Droplet mixing; Tunable superhydrophobic surface; DNA hybridization; Nanostructures;
D O I
暂无
中图分类号
学科分类号
摘要
We demonstrate effective mixing of microliter droplets using electrically tunable superhydrophobic nanostructured surfaces. By applying electrical voltage and current, droplets can be reversibly switched from a wetting to a non-wetting state, which induces fluid motion within the droplet. This mixing concept was verified using a DNA hybridization assay, in which a single droplet reversibility accelerated the hybridization reaction by an order of magnitude as compared to mixing by passive diffusion. This work offers a new method to effectively mix droplets for a variety of microfluidics applications.
引用
收藏
页码:137 / 140
页数:3
相关论文
共 50 条
  • [31] Fabrication of superhydrophobic surfaces with tunable water droplet adhesion force by a two-step method
    Lu, Zhenzhen
    He, Yang
    CERAMICS INTERNATIONAL, 2019, 45 (11) : 14389 - 14396
  • [32] Fabrication of Novel Superhydrophobic Surfaces and Droplet Bouncing Behavior - Part 2: Water Droplet Impact Experiment on Superhydrophobic Surfaces Constructed Using ZnO Nanoparticles
    Wang, Bin-Bin
    Zhao, Ya-Pu
    Yu, Tongxi
    JOURNAL OF ADHESION SCIENCE AND TECHNOLOGY, 2011, 25 (1-3) : 93 - 108
  • [33] Droplet behavior analysis on inclined, highly sticky, or slippery superhydrophobic nanostructured surfaces by observation and SPH simulation
    Natsui, Shungo
    Tonya, Kazui
    Nakajima, Daiki
    Kikuchi, Tatsuya
    Nogami, Hiroshi
    CHEMICAL ENGINEERING SCIENCE, 2022, 248
  • [34] Microscopic Droplet Formation and Energy Transport Analysis of Condensation on Scalable Superhydrophobic Nanostructured Copper Oxide Surfaces
    Li, GuanQiu
    Alhosani, Mohamed H.
    Yuan, ShaoJun
    Liu, HaoRan
    Al Ghaferi, Amal
    Zhang, TieJun
    LANGMUIR, 2014, 30 (48) : 14498 - 14511
  • [35] States of a Water Droplet on Nanostructured Surfaces
    Chen, Shuai
    Wang, Jiadao
    Chen, Darong
    JOURNAL OF PHYSICAL CHEMISTRY C, 2014, 118 (32): : 18529 - 18536
  • [36] Droplet condensation and jumping on structured superhydrophobic surfaces
    Ashrafi-Habibabadi, Amir
    Moosavi, Ali
    INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER, 2019, 134 : 680 - 693
  • [37] Droplet impact and rebound dynamics on superhydrophobic surfaces
    Zhang, Fangfang
    Che, Shuyan
    Tang, Jingdan
    Zhao, Chuangyao
    PHYSICS OF FLUIDS, 2024, 36 (07)
  • [38] Water droplet impact on elastic superhydrophobic surfaces
    Patricia B. Weisensee
    Junjiao Tian
    Nenad Miljkovic
    William P. King
    Scientific Reports, 6
  • [39] Droplet bouncing on moving superhydrophobic groove surfaces
    Qian, Lijuan
    Huo, Benjie
    Chen, Zhongli
    Li, Erqiang
    Ding, Hang
    INTERNATIONAL JOURNAL OF MULTIPHASE FLOW, 2023, 165
  • [40] Droplet Retention on Superhydrophobic Surfaces: A Critical Review
    Jiang, Youhua
    Choi, Chang-Hwan
    ADVANCED MATERIALS INTERFACES, 2021, 8 (02)
12345