Chapter Dendritic Cell Endocytosis Essential for Viruses and Vaccines

Nanoconstruction of metals is a significant challenge for the future manufacturing of plasmonic devices. Such a technology requires the development of ultra‐fast, high‐throughput and low cost fabrication schemes. Laser processing can be considered as such and can potentially represent an unrivalled...

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Hoofdauteurs: McCullough, Kenneth C., Sharma, Rajni
Formaat: Online
Taal:Engels
Gepubliceerd in: InTechOpen 2021
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Online toegang:ONIX_20210602_10.5772/67779_315
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author McCullough, Kenneth C.
Sharma, Rajni
author_browse McCullough, Kenneth C.
Sharma, Rajni
author_facet McCullough, Kenneth C.
Sharma, Rajni
author_sort McCullough, Kenneth C.
collection Directory of Open Access Books
description Nanoconstruction of metals is a significant challenge for the future manufacturing of plasmonic devices. Such a technology requires the development of ultra‐fast, high‐throughput and low cost fabrication schemes. Laser processing can be considered as such and can potentially represent an unrivalled tool towards the anticipated arrival of modules based in metallic nanostructures, with an extra advantage: the ease of scalability. Specifically, laser nanostructuring of either thin metal films or ceramic/metal multilayers and composites can result on surface or subsurface plasmonic patterns, respectively, with many potential applications. In this chapter, the photo‐thermal processes involved in surface and subsurface nanostructuring are discussed and processes to develop functional plasmonic nanostructures with pre‐determined morphology are demonstrated. For the subsurface plasmonic conformations, the temperature gradients that are developed spatially across the metal/dielectric structure during the laser processing can be utilized. For the surface plasmonic nanoassembling, the ability to tune the laser's wavelength to either match the absorption spectral profile of the metal or to be resonant with the plasma oscillation frequency can be utilised, i.e. different optical absorption mechanisms that are size‐selective can be probed. Both processes can serve as a platform for stimulating further progress towards the engineering of large‐scale plasmonic devices.
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spelling doab-20.500.12854ir-702552024-04-05T12:39:41Z Chapter Dendritic Cell Endocytosis Essential for Viruses and Vaccines McCullough, Kenneth C. Sharma, Rajni laser annealing, laser induce self‐assembly, plasmonics, surface plasmon resonance, plasmonic nanoparticles thema EDItEUR::P Mathematics and Science::PH Physics::PHF Materials / States of matter::PHFC Condensed matter physics (liquid state and solid state physics) Nanoconstruction of metals is a significant challenge for the future manufacturing of plasmonic devices. Such a technology requires the development of ultra‐fast, high‐throughput and low cost fabrication schemes. Laser processing can be considered as such and can potentially represent an unrivalled tool towards the anticipated arrival of modules based in metallic nanostructures, with an extra advantage: the ease of scalability. Specifically, laser nanostructuring of either thin metal films or ceramic/metal multilayers and composites can result on surface or subsurface plasmonic patterns, respectively, with many potential applications. In this chapter, the photo‐thermal processes involved in surface and subsurface nanostructuring are discussed and processes to develop functional plasmonic nanostructures with pre‐determined morphology are demonstrated. For the subsurface plasmonic conformations, the temperature gradients that are developed spatially across the metal/dielectric structure during the laser processing can be utilized. For the surface plasmonic nanoassembling, the ability to tune the laser's wavelength to either match the absorption spectral profile of the metal or to be resonant with the plasma oscillation frequency can be utilised, i.e. different optical absorption mechanisms that are size‐selective can be probed. Both processes can serve as a platform for stimulating further progress towards the engineering of large‐scale plasmonic devices. 2021-02-10T12:58:18Z 2021-06-02T10:09:19Z 2017 chapter ONIX_20210602_10.5772/67779_315 https://library.oapen.org/handle/20.500.12657/49201 https://directory.doabooks.org/handle/20.500.12854/70255 eng open access image/jpeg image/jpeg n/a n/a https://library.oapen.org/bitstream/20.500.12657/49201/1/54839.pdf https://library.oapen.org/bitstream/20.500.12657/49201/1/54839.pdf InTechOpen 10.5772/67779 10.5772/67779 035ecc65-6737-43cf-a13a-6bdf67ce01f4 open access
spellingShingle laser annealing, laser induce self‐assembly, plasmonics, surface plasmon resonance, plasmonic nanoparticles
thema EDItEUR::P Mathematics and Science::PH Physics::PHF Materials / States of matter::PHFC Condensed matter physics (liquid state and solid state physics)
McCullough, Kenneth C.
Sharma, Rajni
Chapter Dendritic Cell Endocytosis Essential for Viruses and Vaccines
title Chapter Dendritic Cell Endocytosis Essential for Viruses and Vaccines
title_full Chapter Dendritic Cell Endocytosis Essential for Viruses and Vaccines
title_fullStr Chapter Dendritic Cell Endocytosis Essential for Viruses and Vaccines
title_full_unstemmed Chapter Dendritic Cell Endocytosis Essential for Viruses and Vaccines
title_short Chapter Dendritic Cell Endocytosis Essential for Viruses and Vaccines
title_sort chapter dendritic cell endocytosis essential for viruses and vaccines
topic laser annealing, laser induce self‐assembly, plasmonics, surface plasmon resonance, plasmonic nanoparticles
thema EDItEUR::P Mathematics and Science::PH Physics::PHF Materials / States of matter::PHFC Condensed matter physics (liquid state and solid state physics)
topic_facet laser annealing, laser induce self‐assembly, plasmonics, surface plasmon resonance, plasmonic nanoparticles
thema EDItEUR::P Mathematics and Science::PH Physics::PHF Materials / States of matter::PHFC Condensed matter physics (liquid state and solid state physics)
url ONIX_20210602_10.5772/67779_315
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