FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2321856359> ?p ?o ?g. }

• W2321856359 endingPage "2193" @default.
• W2321856359 startingPage "2184" @default.
• W2321856359 abstract "Nanoscale lithography on silicon is of interest for applications ranging from computer chip design to tissue interfacing. Block copolymer-based self-assembly, also called directed self-assembly (DSA) within the semiconductor industry, can produce a variety of complex nanopatterns on silicon, but these polymeric films typically require transformation into functional materials. Here we demonstrate how gold nanopatterns, produced via block copolymer self-assembly, can be incorporated into an optically transparent flexible PDMS stamp, termed a plasmonic stamp, and used to directly functionalize silicon surfaces on a sub-100 nm scale. We propose that the high intensity electric fields that result from the localized surface plasmons of the gold nanoparticles in the plasmonic stamps upon illumination with low intensity green light, lead to generation of electron–hole pairs in the silicon that drive spatially localized hydrosilylation. This approach demonstrates how localized surface plasmons can be used to enable functionalization of technologically relevant surfaces with nanoscale control." @default.
• W2321856359 created "2016-06-24" @default.
• W2321856359 creator A5012967837 @default.
• W2321856359 creator A5016393389 @default.
• W2321856359 creator A5032580359 @default.
• W2321856359 creator A5035775622 @default.
• W2321856359 creator A5048070823 @default.
• W2321856359 date "2015-02-09" @default.
• W2321856359 modified "2023-10-16" @default.
• W2321856359 title "Nanoscale Plasmonic Stamp Lithography on Silicon" @default.
• W2321856359 cites W1964557912 @default.
• W2321856359 cites W1964650066 @default.
• W2321856359 cites W1968463185 @default.
• W2321856359 cites W1969361334 @default.
• W2321856359 cites W1971036128 @default.
• W2321856359 cites W1974374350 @default.
• W2321856359 cites W1974600865 @default.
• W2321856359 cites W1975405443 @default.
• W2321856359 cites W1978496982 @default.
• W2321856359 cites W1982534342 @default.
• W2321856359 cites W1987880468 @default.
• W2321856359 cites W1991615398 @default.
• W2321856359 cites W1995057502 @default.
• W2321856359 cites W1997268642 @default.
• W2321856359 cites W2001720848 @default.
• W2321856359 cites W2003055041 @default.
• W2321856359 cites W2005332572 @default.
• W2321856359 cites W2005509260 @default.
• W2321856359 cites W2007808186 @default.
• W2321856359 cites W2011488302 @default.
• W2321856359 cites W2012903599 @default.
• W2321856359 cites W2014161704 @default.
• W2321856359 cites W2020071987 @default.
• W2321856359 cites W2022844698 @default.
• W2321856359 cites W2023147957 @default.
• W2321856359 cites W2027248286 @default.
• W2321856359 cites W2029482404 @default.
• W2321856359 cites W2039485707 @default.
• W2321856359 cites W2043104351 @default.
• W2321856359 cites W2045172044 @default.
• W2321856359 cites W2045430202 @default.
• W2321856359 cites W2045773481 @default.
• W2321856359 cites W2048923249 @default.
• W2321856359 cites W2056770267 @default.
• W2321856359 cites W2058924583 @default.
• W2321856359 cites W2060573689 @default.
• W2321856359 cites W2061492607 @default.
• W2321856359 cites W2062182733 @default.
• W2321856359 cites W2065055949 @default.
• W2321856359 cites W2065876888 @default.
• W2321856359 cites W2066994201 @default.
• W2321856359 cites W2068908844 @default.
• W2321856359 cites W2073712605 @default.
• W2321856359 cites W2074885699 @default.
• W2321856359 cites W2078494709 @default.
• W2321856359 cites W2081602000 @default.
• W2321856359 cites W2081875458 @default.
• W2321856359 cites W2084279813 @default.
• W2321856359 cites W2085086110 @default.
• W2321856359 cites W2086696748 @default.
• W2321856359 cites W2088525842 @default.
• W2321856359 cites W2099333948 @default.
• W2321856359 cites W2101015317 @default.
• W2321856359 cites W2103540105 @default.
• W2321856359 cites W2106832984 @default.
• W2321856359 cites W2119767565 @default.
• W2321856359 cites W2126183412 @default.
• W2321856359 cites W2128544853 @default.
• W2321856359 cites W2144347468 @default.
• W2321856359 cites W2146503939 @default.
• W2321856359 cites W2153819845 @default.
• W2321856359 cites W2154297839 @default.
• W2321856359 cites W2157406321 @default.
• W2321856359 cites W2172226575 @default.
• W2321856359 cites W2248777128 @default.
• W2321856359 cites W2314504085 @default.
• W2321856359 cites W2321696708 @default.
• W2321856359 cites W2321731103 @default.
• W2321856359 cites W2321967321 @default.
• W2321856359 cites W2323098860 @default.
• W2321856359 cites W2323603480 @default.
• W2321856359 cites W2324839749 @default.
• W2321856359 cites W2328357150 @default.
• W2321856359 cites W2332164773 @default.
• W2321856359 cites W2332243193 @default.
• W2321856359 cites W2333036219 @default.
• W2321856359 cites W2334046954 @default.
• W2321856359 cites W2334341774 @default.
• W2321856359 cites W3025800293 @default.
• W2321856359 doi "https://doi.org/10.1021/acsnano.5b00312" @default.
• W2321856359 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25654172" @default.
• W2321856359 hasPublicationYear "2015" @default.
• W2321856359 type Work @default.
• W2321856359 sameAs 2321856359 @default.
• W2321856359 citedByCount "26" @default.
• W2321856359 countsByYear W23218563592015 @default.
• W2321856359 countsByYear W23218563592016 @default.
• W2321856359 countsByYear W23218563592017 @default.

• next