Nanosurfactants create droplet-sized reaction flasks

By adding a suit of nanoparticle surfactant armor to otherwise dull droplets, chemists in South Korea have created tiny reaction flasks that they can maneuver and modify using magnets, lasers, and electrical fields. The droplets offer a new way to do microscale chemical reactions that avoids some of the pitfalls associated with microfluidics, such as difficulty mixing solutions and limitations on the types of solvents that can be used.

Bartosz A. Grzybowski, Zhijie Yang, Jingjing Wei, and Yaroslav I. Sobolev, of the Center for Soft & Living Matter at the Institute for Basic Science, create the armored droplets using what they call a nanoparticle surfactant. The surfactant has a nanoparticle core that welds gold to some other nanomaterial, such as Fe3O4. The gold half has a coating of ligands with a polar tail, while the other half is coated with hydrophobic ligands. As a result of these coatings, the particles form monolayers at the interface of organic and aqueous solutions (Nature 2018, DOI: 10.1038/nature25137).

Lasers mix this droplet’s contents of Congo red dye and hydrochloric acid thanks to nanoparticle surfactants.
Credit: Nature

Mix it up

The researchers can manipulate the droplets in different ways thanks to the nanoparticle core of the surfactants. The Fe3O4 makes the particle magnetic, so researchers can move the droplets with a magnetic field. Laser light also makes it possible to position and even spin the droplets because of heating and convection effects near the nanoparticles. “The fluid in the middle of the droplet is not rotating with the same speed as the fluid at the edge of the droplet, so effectively you’re mixing inside the droplet,” Grzybowski explains.

In addition, electrostatic fields can punch tiny openings in the droplets, allowing those that are touching to merge and combine their contents. Grzybowski imagines a microscale chemical factory with hundreds of different droplets that can react with one another. “You zap them with an electric field and you make connections between them.”

Nanoparticle surfactants make a monolayer skin on a droplet.
Credit: Adapted from Nature

To demonstrate the ability of aqueous droplets to serve as reaction flasks, the chemists combined a droplet containing CoCl2 with a droplet containing 1-methylimidazole to create the metal-organic framework ZIF-67.

Grzybowski notes that he was surprised that the thin nanosurfactant skin has such a strong influence on the comparatively larger droplets. It’s impressive, he says, that surfactants measuring just 5–۱۰ nm wide can make a millimeter-sized droplet magnetic or responsive to light.

“This is really neat work,” comments Leroy Cronin, an expert in complex chemical systems at the University of Glasgow. “It shows how to combine electronic, optical, and magnetic control of both individual and large numbers of droplets, as well as shows potential for using them as reaction vessels. I’m excited to see how this is extended later into more complex applications.”

Chemical & Engineering News
ISSN 0009-2347
Copyright © ۲۰۱۸ American Chemical Society
January 22, 2018 News
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