Difference between revisions of "Silver Nano Prism Synthesis"
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[[Image:Different_LEDs.jpg|thumb|500px|Silver Nanoprisms synthesized under LEDs of different wavelengths. ]] | [[Image:Different_LEDs.jpg|thumb|500px|Silver Nanoprisms synthesized under LEDs of different wavelengths. ]] | ||
The prism shaped nanoparticles enhances the charge distribution around the particle. The particles cab be tuned by exposing to a precise wavelength of light tunes so they change color and absorb at a desired wavelength. | The prism shaped nanoparticles enhances the charge distribution around the particle. The particles cab be tuned by exposing to a precise wavelength of light tunes so they change color and absorb at a desired wavelength. | ||
[[Image:FDTD_on_off_res_Prism_field.jpg|thumb|300px| FDTD Simulation created with Lumerical Software ]] | [[Image:FDTD_on_off_res_Prism_field.jpg|thumb|300px| FDTD Simulation created with Lumerical Software show field enhancement around the points of the prism]] | ||
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Revision as of 10:53, 18 October 2011
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Overview
Silver nano prisms have readily tunable surface plasmon resonance in the visible and near IR spectrum.
Significance
The prism shaped nanoparticles enhances the charge distribution around the particle. The particles cab be tuned by exposing to a precise wavelength of light tunes so they change color and absorb at a desired wavelength.
Procedure
The synthesis was taken from the paper: "pH-Switchable Silver Nanoprism Growth Pathways" by Can Xue and Chad Mirkin [1]
External Links
- Supporting information for Plasmon-Enhanced Charge Carrier Generation in Organic Photovoltaic Films using Silver nanoprisms
- U of Wisc MRSEC Synthesis of Silver Nanoprisms
- Lumerical FDTD Simulation Software