SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2062932004> ?p ?o ?g. }

Showing items 1 to 100 of ±172 with 100 items per page.

W2062932004 endingPage "034015" @default.
W2062932004 startingPage "034015" @default.
W2062932004 abstract "Pulsed laser deposition (PLD) is shown to be highly effective for growing plasmonic metal nanoparticle (PMN) films exhibiting strong surface plasmon resonance (SPR) under different process parameters. For PLD of PMN films the threshold fluences of ablation for the commonest plasmonic metals such as gold and silver are found to be in the range 1.3–1.6 J cm−2 using a KrF excimer laser. It is also found that the PLD-grown metal nanoparticle films generally have high packaging density of the nanoparticles, typically in the range 1010–1011 particles cm−2, which makes particles' shapes, particle–particle and particle–substrate interactions significant parameters for the ensuing plasmonic properties. The PLD is also shown to be a viable methodology of growing silver/gold alloy nanoparticle plasmonic films. The morphological and compositional characteristics of the metals and their alloy nanoparticle films are found to be controllable by the deposition parameters such as laser fluence, number of laser ablation pulses, target-to-substrate distance, substrate temperature and the gaseous ambience during the PLD or by the post-growth thermal annealing. These morphological and compositional characteristics in turn influence the plasmonic responses of the metal nanoparticle films, which enable one to vary the SPR wavelength typically in the spectral range of about 400–750 nm. The PMNs embedded in different dielectric layers with tuneable plasmon resonance characteristics, which can be grown effectively using PLD, appear to hold significant potential for the future photonic, photovoltaic and biomedical applications." @default.
W2062932004 created "2016-06-24" @default.
W2062932004 creator A5007060619 @default.
W2062932004 creator A5049818776 @default.
W2062932004 creator A5061132446 @default.
W2062932004 creator A5078251765 @default.
W2062932004 date "2013-12-23" @default.
W2062932004 modified "2023-10-18" @default.
W2062932004 title "Pulsed laser deposition of plasmonic-metal nanostructures" @default.
W2062932004 cites W1969006983 @default.
W2062932004 cites W1969694312 @default.
W2062932004 cites W1972723593 @default.
W2062932004 cites W1977254425 @default.
W2062932004 cites W1977362439 @default.
W2062932004 cites W1979645847 @default.
W2062932004 cites W1982464522 @default.
W2062932004 cites W1983314165 @default.
W2062932004 cites W1983646599 @default.
W2062932004 cites W1985291146 @default.
W2062932004 cites W1985881084 @default.
W2062932004 cites W1987990407 @default.
W2062932004 cites W1990206893 @default.
W2062932004 cites W1990682674 @default.
W2062932004 cites W1991200597 @default.
W2062932004 cites W1991977939 @default.
W2062932004 cites W1997173964 @default.
W2062932004 cites W1999766661 @default.
W2062932004 cites W2001224077 @default.
W2062932004 cites W2004827387 @default.
W2062932004 cites W2004848142 @default.
W2062932004 cites W2005018072 @default.
W2062932004 cites W2006279772 @default.
W2062932004 cites W2009176847 @default.
W2062932004 cites W2010820482 @default.
W2062932004 cites W2012677777 @default.
W2062932004 cites W2015724088 @default.
W2062932004 cites W2017958117 @default.
W2062932004 cites W2018799527 @default.
W2062932004 cites W2020183670 @default.
W2062932004 cites W2023121877 @default.
W2062932004 cites W2023907175 @default.
W2062932004 cites W2024142492 @default.
W2062932004 cites W2024539289 @default.
W2062932004 cites W2026083388 @default.
W2062932004 cites W2026227198 @default.
W2062932004 cites W2027808845 @default.
W2062932004 cites W2031920877 @default.
W2062932004 cites W2032101644 @default.
W2062932004 cites W2032164506 @default.
W2062932004 cites W2032528755 @default.
W2062932004 cites W2034236995 @default.
W2062932004 cites W2035990829 @default.
W2062932004 cites W2037233119 @default.
W2062932004 cites W2041902883 @default.
W2062932004 cites W2042629337 @default.
W2062932004 cites W2045148042 @default.
W2062932004 cites W2045829396 @default.
W2062932004 cites W2048930067 @default.
W2062932004 cites W2049100360 @default.
W2062932004 cites W2058862077 @default.
W2062932004 cites W2059745710 @default.
W2062932004 cites W2063275837 @default.
W2062932004 cites W2065555679 @default.
W2062932004 cites W2068904110 @default.
W2062932004 cites W2069424618 @default.
W2062932004 cites W2075130888 @default.
W2062932004 cites W2075904399 @default.
W2062932004 cites W2076663530 @default.
W2062932004 cites W2077369206 @default.
W2062932004 cites W2082454215 @default.
W2062932004 cites W2094547765 @default.
W2062932004 cites W2096279562 @default.
W2062932004 cites W2100725917 @default.
W2062932004 cites W2101829177 @default.
W2062932004 cites W2105963759 @default.
W2062932004 cites W2110645648 @default.
W2062932004 cites W2115797520 @default.
W2062932004 cites W2115859497 @default.
W2062932004 cites W2121660354 @default.
W2062932004 cites W2129868042 @default.
W2062932004 cites W2135225452 @default.
W2062932004 cites W2149825984 @default.
W2062932004 cites W2151536042 @default.
W2062932004 cites W2157559075 @default.
W2062932004 cites W2159084010 @default.
W2062932004 cites W2323894529 @default.
W2062932004 cites W2482098144 @default.
W2062932004 cites W3099866675 @default.
W2062932004 cites W3100987604 @default.
W2062932004 cites W4249820263 @default.
W2062932004 doi "https://doi.org/10.1088/0022-3727/47/3/034015" @default.
W2062932004 hasPublicationYear "2013" @default.
W2062932004 type Work @default.
W2062932004 sameAs 2062932004 @default.
W2062932004 citedByCount "28" @default.
W2062932004 countsByYear W20629320042015 @default.
W2062932004 countsByYear W20629320042016 @default.
W2062932004 countsByYear W20629320042017 @default.