SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4210820692> ?p ?o ?g. }

Showing items 1 to 100 of ±157 with 100 items per page.

W4210820692 endingPage "547" @default.
W4210820692 startingPage "547" @default.
W4210820692 abstract "Conventional nano-sphere lithography techniques have been extended to the fabrication of highly periodic arrays of sub-wavelength nanoholes in a thin metal film. By combining the dry etching processes of self-assembled monolayers of polystyrene colloids with metal physical deposition, the complete transition from increasing size triangular nanoprism to hexagonally distributed nanoholes array onto thin metal film has been gradually explored. The investigated nano-structured materials exhibit interesting plasmonic properties which can be precisely modulated in a desired optical spectral region. An interesting approach based on optical absorbance measurements has been adopted for rapid and non-invasive inspections of the nano-sphere monolayer after the ion etching process. By enabling an indirect and accurate evaluation of colloid dimensions in a large area, this approach allows the low-cost and reproducible fabrication of plasmonic materials with specifically modulated optical properties suitable for many application in biosensing devices or Raman enhanced effects." @default.
W4210820692 created "2022-02-08" @default.
W4210820692 creator A5021806568 @default.
W4210820692 creator A5033669182 @default.
W4210820692 creator A5055115439 @default.
W4210820692 creator A5083890654 @default.
W4210820692 date "2022-02-05" @default.
W4210820692 modified "2023-10-03" @default.
W4210820692 title "Shape Modulation of Plasmonic Nanostructures by Unconventional Lithographic Technique" @default.
W4210820692 cites W1508583549 @default.
W4210820692 cites W1649808901 @default.
W4210820692 cites W1667702574 @default.
W4210820692 cites W1966156486 @default.
W4210820692 cites W1984343994 @default.
W4210820692 cites W1988436745 @default.
W4210820692 cites W1995286407 @default.
W4210820692 cites W2006066416 @default.
W4210820692 cites W2006305892 @default.
W4210820692 cites W2016432182 @default.
W4210820692 cites W2022199999 @default.
W4210820692 cites W2022722944 @default.
W4210820692 cites W2025675557 @default.
W4210820692 cites W2036324861 @default.
W4210820692 cites W2037680640 @default.
W4210820692 cites W2040184926 @default.
W4210820692 cites W2041206982 @default.
W4210820692 cites W2047307332 @default.
W4210820692 cites W2055944585 @default.
W4210820692 cites W2057178515 @default.
W4210820692 cites W2072893292 @default.
W4210820692 cites W2073605818 @default.
W4210820692 cites W2081592007 @default.
W4210820692 cites W2083089707 @default.
W4210820692 cites W2094410289 @default.
W4210820692 cites W2094648213 @default.
W4210820692 cites W2107591861 @default.
W4210820692 cites W2121830147 @default.
W4210820692 cites W2123343298 @default.
W4210820692 cites W2123820659 @default.
W4210820692 cites W2128207454 @default.
W4210820692 cites W2131042412 @default.
W4210820692 cites W2157406321 @default.
W4210820692 cites W2158247447 @default.
W4210820692 cites W2178224149 @default.
W4210820692 cites W2233664990 @default.
W4210820692 cites W2296425647 @default.
W4210820692 cites W2321931807 @default.
W4210820692 cites W2328150247 @default.
W4210820692 cites W2332103179 @default.
W4210820692 cites W2351849827 @default.
W4210820692 cites W2411163370 @default.
W4210820692 cites W2474706806 @default.
W4210820692 cites W2486325424 @default.
W4210820692 cites W2518204252 @default.
W4210820692 cites W2552526939 @default.
W4210820692 cites W2586727320 @default.
W4210820692 cites W2593693383 @default.
W4210820692 cites W2601077554 @default.
W4210820692 cites W2739015429 @default.
W4210820692 cites W2739705061 @default.
W4210820692 cites W2751139748 @default.
W4210820692 cites W2785175387 @default.
W4210820692 cites W2894090203 @default.
W4210820692 cites W2917535482 @default.
W4210820692 cites W2920984266 @default.
W4210820692 cites W2939619760 @default.
W4210820692 cites W2964915922 @default.
W4210820692 cites W2978166361 @default.
W4210820692 cites W2980306995 @default.
W4210820692 cites W2982003279 @default.
W4210820692 cites W3009324267 @default.
W4210820692 cites W3010462609 @default.
W4210820692 cites W3020663852 @default.
W4210820692 cites W3083474065 @default.
W4210820692 cites W3121912712 @default.
W4210820692 cites W3164197037 @default.
W4210820692 cites W973550985 @default.
W4210820692 doi "https://doi.org/10.3390/nano12030547" @default.
W4210820692 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35159890" @default.
W4210820692 hasPublicationYear "2022" @default.
W4210820692 type Work @default.
W4210820692 citedByCount "4" @default.
W4210820692 countsByYear W42108206922022 @default.
W4210820692 countsByYear W42108206922023 @default.
W4210820692 crossrefType "journal-article" @default.
W4210820692 hasAuthorship W4210820692A5021806568 @default.
W4210820692 hasAuthorship W4210820692A5033669182 @default.
W4210820692 hasAuthorship W4210820692A5055115439 @default.
W4210820692 hasAuthorship W4210820692A5083890654 @default.
W4210820692 hasBestOaLocation W42108206921 @default.
W4210820692 hasConcept C100460472 @default.
W4210820692 hasConcept C110879396 @default.
W4210820692 hasConcept C120665830 @default.
W4210820692 hasConcept C121332964 @default.
W4210820692 hasConcept C136525101 @default.
W4210820692 hasConcept C142724271 @default.
W4210820692 hasConcept C159985019 @default.
W4210820692 hasConcept C162117346 @default.