The introduction and comparison of two techniques of fluid transport at the microscale
Open Access
- 20 January 2021
- journal article
- research article
- Published by IOP Publishing in Journal of Physics: Conference Series
- Vol. 1759 (1), 012008
- https://doi.org/10.1088/1742-6596/1759/1/012008
Abstract
With the development of human society, people's level of science and technology is also improving. In the process of continuous exploration, people often find some new unknown areas. Although we are very unfamiliar with these uncharted areas, they can have a significant impact on our lives, such as the field of microfluidics. It can perform small tasks at the micro and nano level, reducing our resource consumption, reducing some of our risks, but increasing our safety and new application tools. The exploration and development of the field of microscopic fluids can bring great help to our lives, especially in medicine, and significantly increase our surgical success rate. This article is summarized by analyzing and comparing the academic research of many experts. In this era, the role of the microfluid field is still significant.This publication has 10 references indexed in Scilit:
- A Survey of Chip-level Thermal SimulatorsACM Computing Surveys, 2019
- Temperature Gradients Drive Bulk Flow Within Microchannel Lined by Fluid–Fluid InterfacesSmall, 2019
- Superhydrophobic Surfaces Developed by Mimicking Hierarchical Surface Morphology of Lotus LeafMolecules, 2014
- Influence of Surface Tension Inhomogeneity on the Wave Flow of a Liquid FilmJournal of Engineering Physics and Thermophysics, 2014
- The hydrodynamic function of shark skin and two biomimetic applicationsJournal of Experimental Biology, 2012
- Formation of Nanopillar Arrays in Ultrathin Viscous Films: The Critical Role of Thermocapillary StressesPhysical Review Letters, 2009
- A bubble-driven microfluidic transport element for bioengineeringProceedings of the National Academy of Sciences of the United States of America, 2004
- Patterning liquid flow on the microscopic scaleNature, 1999
- Lithographically induced self-construction of polymer microstructures for resistless patterningApplied Physics Letters, 1999
- The spreading of a drop by capillary actionJournal of Fluid Mechanics, 1982