Eric Jaquay
University of Southern California
17 Papers
123 Citations
Eric Jaquay is an academic researcher from University of Southern California. The author has contributed to research in topics: Photonic crystal & Nanoparticle. The author has an hindex of 7, co-authored 17 publications. Previous affiliations of Eric Jaquay include City College of New York.
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Papers
Light-assisted, templated self assembly using a photonic-crystal slab
TL;DR: In this article, a light-assisted, templated self assembly is proposed, where an optical potential landscape is created above a photonic-crystal slab, which results in stably trapped, periodic patterns of particles at potential minima.
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Light-assisted, templated self-assembly using a photonic-crystal slab.
TL;DR: In this article, a light-assisted, templated self-assembly (LATS) was used to fabricate reconfigurable structures with symmetries different from traditional colloidal selfassembly, which is limited by free energetic constraints.
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Near-Field, On-Chip Optical Brownian Ratchets.
TL;DR: An optical Brownian ratchet based on the near-field traps of an asymmetrically patterned photonic crystal is demonstrated that yields over 25 times greater trap stiffness than conventional optical tweezers and opens up new possibilities for particle manipulation in a microfluidic, lab-on-chip environment.
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Light-assisted templated self assembly using photonic crystal slabs
TL;DR: This work experimentally demonstrates the technique of light-assisted, templated self-assembly (LATS), which can be used to fabricate reconfigurable structures with symmetries different from traditional colloidal self- assembly, which is limited by free energetic constraints.
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Light-Assisted, Templated Self-Assembly of Gold Nanoparticle Chains
Eric Jaquay,Luis Martinez,Ningfeng Huang,Camilo A. Mejia,Debarghya Sarkar,Michelle L. Povinelli +5 more
TL;DR: The technique of light-assisted, templated self-assembly (LATS) to trap and assemble 200 nm diameter gold nanoparticles is experimentally demonstrated to find that the interparticle interactions play a significant role in the resulting particle patterns.
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