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plasmonic devices
What are the Applications of Plasmonic Devices?
Plasmonic devices have a wide range of applications, including:
Biosensing
: Plasmonic sensors can detect biomolecules at extremely low concentrations due to their high sensitivity.
Medical Imaging
: Enhanced imaging techniques such as
Surface-Enhanced Raman Scattering (SERS)
rely on plasmonic nanoparticles.
Photovoltaics
: Plasmonic nanoparticles can improve the efficiency of
solar cells
by enhancing light absorption.
Data Storage
: Plasmonic devices are being explored for
high-density data storage
due to their ability to confine light to nanometer scales.
Optical Circuits
: Plasmonics can be used to develop
integrated optical circuits
that are much smaller than traditional electronic circuits.
Frequently asked queries:
How Do Plasmonic Devices Work?
What Materials are Used in Plasmonic Devices?
What are the Applications of Plasmonic Devices?
What are the Challenges in Plasmonic Devices?
What is the Future of Plasmonic Devices?
Why Are Amines Important in Nanotechnology?
What is Boron and its Significance in Nanotechnology?
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What is the Future of Nanotechnology-Based Immunosensors?
Who are the Major Competitors?
What is Surface Topography?
What Are the Applications of Graphene-Based Composites?
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How Does Patent Pooling Work?
What are Some Applications of Nanoscale CMOS?
What are the core areas of application?
What Are the Applications of Butanol in Nanotechnology?
How is Nanotechnology Applied in Energy?
What are the Challenges in High Density Storage Using Nanotechnology?
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