SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1971375853> ?p ?o ?g. }

Showing items 1 to 100 of ±143 with 100 items per page.

W1971375853 endingPage "11934" @default.
W1971375853 startingPage "11928" @default.
W1971375853 abstract "Simple galvanic reactions between highly doped n-type GaAs wafers and a pure aqueous solution of AgNO3 at room temperature provide an easy and efficient protocol to directly deposit uniform Ag nanoplates with tunable dimensions on the GaAs substrates. The anisotropic growth of the Ag nanoplates in the absence of surfactant molecules might be partially ascribed to the codeposition of oxides of gallium and arsenic, which are revealed by extensive data from electron microscopy, X-ray photoelectron spectroscopy, and Raman spectroscopy, during the growth of the Ag nanoplates. The electron microscopic characterization shows that each Ag nanoplate has a “necked” geometry, that is, it pins on the GaAs lattices through only a tiny neck (with sizes of <10 nm). In addition, the as-grown Ag nanoplates exhibit strong enhancement toward Raman scattering of materials on (or around) their surfaces." @default.
W1971375853 created "2016-06-24" @default.
W1971375853 creator A5007339824 @default.
W1971375853 creator A5068778877 @default.
W1971375853 creator A5069497115 @default.
W1971375853 creator A5082007505 @default.
W1971375853 date "2008-09-13" @default.
W1971375853 modified "2023-09-26" @default.
W1971375853 title "Formation of Oxides and Their Role in the Growth of Ag Nanoplates on GaAs Substrates" @default.
W1971375853 cites W1964038479 @default.
W1971375853 cites W1966801034 @default.
W1971375853 cites W1971018912 @default.
W1971375853 cites W1971036128 @default.
W1971375853 cites W1977279162 @default.
W1971375853 cites W1977956286 @default.
W1971375853 cites W1981082831 @default.
W1971375853 cites W1981782713 @default.
W1971375853 cites W1982016260 @default.
W1971375853 cites W1982161876 @default.
W1971375853 cites W1984143159 @default.
W1971375853 cites W1985717589 @default.
W1971375853 cites W1986829915 @default.
W1971375853 cites W1989989548 @default.
W1971375853 cites W1995880076 @default.
W1971375853 cites W1998789938 @default.
W1971375853 cites W1999857812 @default.
W1971375853 cites W2000523776 @default.
W1971375853 cites W2004087331 @default.
W1971375853 cites W2015925651 @default.
W1971375853 cites W2016446677 @default.
W1971375853 cites W2017662581 @default.
W1971375853 cites W2019107265 @default.
W1971375853 cites W2024609819 @default.
W1971375853 cites W2026395240 @default.
W1971375853 cites W2035437421 @default.
W1971375853 cites W2036635221 @default.
W1971375853 cites W2038923910 @default.
W1971375853 cites W2040823757 @default.
W1971375853 cites W2042339659 @default.
W1971375853 cites W2042774924 @default.
W1971375853 cites W2045715355 @default.
W1971375853 cites W2046711552 @default.
W1971375853 cites W2050692656 @default.
W1971375853 cites W2052812951 @default.
W1971375853 cites W2054923042 @default.
W1971375853 cites W2054985204 @default.
W1971375853 cites W2068346293 @default.
W1971375853 cites W2074452951 @default.
W1971375853 cites W2075382952 @default.
W1971375853 cites W2076998593 @default.
W1971375853 cites W2082304328 @default.
W1971375853 cites W2084004487 @default.
W1971375853 cites W2089370884 @default.
W1971375853 cites W2107403829 @default.
W1971375853 cites W2108717274 @default.
W1971375853 cites W2112340203 @default.
W1971375853 cites W2122699850 @default.
W1971375853 cites W2123194342 @default.
W1971375853 cites W2126408127 @default.
W1971375853 cites W2127384451 @default.
W1971375853 cites W2132872911 @default.
W1971375853 cites W2135701048 @default.
W1971375853 cites W2143304789 @default.
W1971375853 cites W2148552920 @default.
W1971375853 cites W2152620209 @default.
W1971375853 cites W4241456496 @default.
W1971375853 doi "https://doi.org/10.1021/la801698s" @default.
W1971375853 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/18788821" @default.
W1971375853 hasPublicationYear "2008" @default.
W1971375853 type Work @default.
W1971375853 sameAs 1971375853 @default.
W1971375853 citedByCount "24" @default.
W1971375853 countsByYear W19713758532012 @default.
W1971375853 countsByYear W19713758532013 @default.
W1971375853 countsByYear W19713758532014 @default.
W1971375853 countsByYear W19713758532016 @default.
W1971375853 countsByYear W19713758532017 @default.
W1971375853 countsByYear W19713758532018 @default.
W1971375853 countsByYear W19713758532019 @default.
W1971375853 countsByYear W19713758532021 @default.
W1971375853 countsByYear W19713758532022 @default.
W1971375853 countsByYear W19713758532023 @default.
W1971375853 crossrefType "journal-article" @default.
W1971375853 hasAuthorship W1971375853A5007339824 @default.
W1971375853 hasAuthorship W1971375853A5068778877 @default.
W1971375853 hasAuthorship W1971375853A5069497115 @default.
W1971375853 hasAuthorship W1971375853A5082007505 @default.
W1971375853 hasConcept C120665830 @default.
W1971375853 hasConcept C121332964 @default.
W1971375853 hasConcept C127413603 @default.
W1971375853 hasConcept C147789679 @default.
W1971375853 hasConcept C159985019 @default.
W1971375853 hasConcept C160671074 @default.
W1971375853 hasConcept C169573571 @default.
W1971375853 hasConcept C171250308 @default.
W1971375853 hasConcept C175708663 @default.
W1971375853 hasConcept C184651966 @default.
W1971375853 hasConcept C185592680 @default.