An innovative addition to the chemist’s ‘toolbox’
Researchers invented a programmable clay material and “building-block” to advance discoveries in chemistry, engineering and other scientific fields
A fundamental part of the material is its electrically charged surface, said Gary Baker, co-principal investigator on the project and an associate professor in the Department of Chemistry.
“Imagine a koosh ball where the thousands of rubber strands radiating from the ball’s core each sport an electrically charged bead on the end,” Baker said. “It’s analogous to a magnet — positively charged things will stick to negatively charged things. For instance, positively charged nanoclays could attract a group of harmful fluorinated chemicals known as PFAS, or “forever chemicals” which are negatively charged. Or, by making the nanoclay negatively charged, it can stick to things such as heavy metal ions like cadmium, which are positively charged, and help remove them from a contaminated body of water.”
In addition to the electrical charge, each nanoclay can be customized with different chemical components, like mixing and matching different parts. This makes them usable in the design of diagnostic sensors for biomedical imaging or explosive and ordnance detection.
“Essentially, these nanoclays represent chemical building blocks designed with specific functions which are assembled into extremely thin, two-dimensional microscopic sheets — thinner than a strand of human DNA and 100,000 times thinner than a sheet of paper,” Baker said. “We can customize the function and shape of the chemical components presented at the surface of the nanoclay to make whatever we want to build. We’ve just exposed the tip of the iceberg for what these materials can do.”
Two-dimensional materials are highly sought after because they can superficially coat the outside of a bulky object in a thin, conformal layer and introduce completely different surface properties than the object underneath.
“By mixing and matching a few things like different ions or gold nanoparticles, we can quickly design chemistry that’s never existed before, and the more we tailor it, the more it opens a wider range of applications,” Baker said.
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