Chemical Gradients on Graphene To Drive Droplet Motion
Abstract
This work demonstrates the production of a well-controlled, chemical gradient on the surface of graphene. By inducing a gradient of oxygen functional groups, drops of water and dimethyl-methylphosphonate (a nerve agent simulant) are “pulled” in the direction of increasing oxygen content, while fluorine gradients “push” the droplet motion in the direction of decreasing fluorine content. The direction of motion is broadly attributed to increasing/decreasing hydrophilicity, which is correlated to high/low adhesion and binding energy. Such tunability in surface chemistry provides additional capabilities in device design for applications ranging from microfluidics to chemical sensing- Text
- Journal contribution
- Biophysics
- Physiology
- Evolutionary Biology
- Computational Biology
- Space Science
- Biological Sciences not elsewhere classified
- Chemical Sciences not elsewhere classified
- droplet motion
- Drive Droplet MotionThis work
- fluorine content
- Such tunability
- chemical Gradients
- oxygen content
- surface chemistry
- device design
- chemical gradient
- binding energy
- nerve agent simulant
Similar works
This paper was published in FigShare.
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