A Single-Step Bottom-up Approach for Synthesis of Highly Uniform Mie-Resonant Crystalline Semiconductor Particles at Visible Wavelengths
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1.
California Institute of Technology
Abstract
Optically Mie-resonant crystalline silicon nanoparticles have long attracted interest for their unique scattering behaviors. Here, we report a bottom-up nonthermal plasma process that produces highly monodisperse particles, with diameters controllable between 60 and 214 nm, by temporarily electrostatically trapping nanoparticles inside a continuous-flow plasma reactor. The particle size is tuned by adjusting the gas residence time in the reactor. By dispersing the nanoparticles in water, optical extinction measurements indicate colloidal solutions of a particle-based metafluid in which particles support both strong magnetic and electric dipole resonances at visible wavelengths. The spectral overlap of the electric and magnetic resonances gives rise to directional Kerker scattering. The extinction measurements show excellent agreement with Mie theory, supporting the idea that the fabrication process enables particles with narrow distributions in size, shape, and composition. This single-step gas-phase process can also produce Mie-resonant nanoparticles of dielectric materials other than silicon and directly deposit them on the desired substrates.
Copyright and License
© 2023 American Chemical Society.
Acknowledgement
This work was supported by the Army Research Office under MURI project W911NF-18-1-0240. Portions of this work were conducted in the Minnesota Nano Center, which is supported by the National Science Foundation through the National Nanotechnology Coordinated Infrastructure (NNCI) under Award No. ECCS-2025124. Parts of this work were carried out in the Characterization Facility, University of Minnesota, which receives partial support from the NSF through the MRSEC (Award Number DMR-2011401) and the NNCI (Award Number ECCS-2025124) programs.
Contributions
M.A.E. and P.R.W. contributed equally. The manuscript was written through contributions of all authors. All authors have given approval to the final version of the manuscript.
Data Availability
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Methods; plasma conditions for the synthesis of size-controlled c-Si NPs; plasma synthesis of high-index NPs other than Si; nonidealities of Si NPs of the 214 nm mean diameter sample; comparison of extinction measurements to extinction from a delta function size distribution (PDF)
Conflict of Interest
The authors declare no competing financial interest.
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Additional details
- ISSN
- 1530-6992
- United States Army Research Office
- W911NF-18-1-0240
- National Science Foundation
- ECCS-2025124
- National Science Foundation
- DMR-2011401