Nano Select (Dec 2021)

Impressively printing patterns of gold and silver nanoparticles

  • Fathima S. Ameer,
  • Meenakshi Ranasinghe,
  • Shilpa Varahagiri,
  • Donald W. Benza,
  • Longyu Hu,
  • Daniel R. Willett,
  • Yimei Wen,
  • Sriparna Bhattacharya,
  • George Chumanov,
  • Apparao M. Rao,
  • Jeffrey N. Anker

DOI
https://doi.org/10.1002/nano.202000278
Journal volume & issue
Vol. 2, no. 12
pp. 2407 – 2418

Abstract

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Abstract The optical and chemical properties of gold and silver nanoparticles make them useful for many applications, including surface enhanced spectroscopy‐based biosensors, photostable colorants, enhanced photovoltaic, and nanoscale optical elements. We report a simple technique to generate patterns of gold and silver nanoparticles with controlled shape and shape‐dependent optical properties using metal stamps to impress them onto a glass substrate or flexible polymers. The pressure flattens the nanoparticles, converting initially spherical nanoparticles into discs with reduced height and increased diameter. This deformation causes their localized surface plasmon resonance wavelength to red‐shift. Nanoparticles were characterized by electron microscopy, atomic force microscopy, and dark field optical scattering spectroscopy. The deformed nanoparticle patterns had a lateral resolution limited by the nanoparticle diameter (single particles are partly flattened only where they contact the stamp). The method also (i) transfers the stamp's topography, with smooth stamps generating flattened nanoparticles with uniform height, and small changes in stamp height are evident in the nanoparticle height and scattering wavelength, and (ii) allows facile removal of undeformed nanoparticles using scotch tape, and patterns of deformed nanoparticles can be transferred to a flexible polymer film. The patterning process is simple and inexpensive. It can be performed by hand for demonstrations or artistic applications, with controlled force for plasmonics research, and potentially automated on reel‐to‐reel presses for large scale production.

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