AI Article Synopsis
- The goal of nanotechnology is to create functional devices by assembling nanoscale components, but accurately positioning single nanoparticles on a substrate is a key challenge.
- Using a method called electrophoretic deposition, researchers have successfully assembled thousands of single nanoparticles quickly, including gold nanospheres and nanorods.
- They achieved precise patterns on transparent conductive substrates in just seconds, even maintaining the orientation of the rods, and showcased their technique by creating large-scale patterns with over 1 million gold nanorods.
Article Abstract
A major goal of nanotechnology is the assembly of nanoscale building blocks into functional optical, electrical, or chemical devices. Many of these applications depend on an ability to optically or electrically address single nanoparticles. However, positioning large numbers of single nanocrystals with nanometer precision on a substrate for integration into solid-state devices remains a fundamental roadblock. Here, we report fast, scalable assembly of thousands of single nanoparticles using electrophoretic deposition. We demonstrate that gold nanospheres down to 30 nm in size and gold nanorods <100 nm in length can be assembled into predefined patterns on transparent conductive substrates within a few seconds. We find that rod orientation can be preserved during deposition. As proof of high fidelity scale-up, we have created centimeter scale patterns comprising more than 1 million gold nanorods.
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| http://dx.doi.org/10.1021/acsnano.8b02932 | DOI Listing |
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