SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2166183902> ?p ?o ?g. }

Showing items 1 to 100 of ±166 with 100 items per page.

W2166183902 endingPage "3450" @default.
W2166183902 startingPage "3445" @default.
W2166183902 abstract "Abstract The successful thin‐film deposition of a pyrene‐substituted nitronyl nitroxide radical under controlled conditions has been demonstrated. The electronic properties, chemical environment at the interface, and morphology of the thin films have been investigated by a multitechnique approach. Spectroscopic and morphological analyses indicate a Stranski–Krastanov growth mode and weak physisorption of molecules onto the metallic surface. Electron spin resonance (ESR) spectroscopy shows that evaporation processes and deposition do not affect the paramagnetic character of the molecules. Useful concepts for the engineering of new, purely organic‐based magnets, which may open the way to fruitful exploitation of organic molecular‐beam deposition for assembly on solid surfaces in view of future technological applications, are presented." @default.
W2166183902 created "2016-06-24" @default.
W2166183902 creator A5021530387 @default.
W2166183902 creator A5030443856 @default.
W2166183902 creator A5037716604 @default.
W2166183902 creator A5045681059 @default.
W2166183902 creator A5059551907 @default.
W2166183902 creator A5065195324 @default.
W2166183902 creator A5073984469 @default.
W2166183902 creator A5076893765 @default.
W2166183902 date "2013-01-25" @default.
W2166183902 modified "2023-09-26" @default.
W2166183902 title "Nanoscale Assembly of Paramagnetic Organic Radicals on Au(111) Single Crystals" @default.
W2166183902 cites W1584622118 @default.
W2166183902 cites W1969885761 @default.
W2166183902 cites W1986779698 @default.
W2166183902 cites W1988590756 @default.
W2166183902 cites W1989802143 @default.
W2166183902 cites W1993197740 @default.
W2166183902 cites W1997599212 @default.
W2166183902 cites W1997693250 @default.
W2166183902 cites W1998563353 @default.
W2166183902 cites W1999126564 @default.
W2166183902 cites W1999213367 @default.
W2166183902 cites W1999853300 @default.
W2166183902 cites W2000779493 @default.
W2166183902 cites W2003505331 @default.
W2166183902 cites W2008531952 @default.
W2166183902 cites W2010397121 @default.
W2166183902 cites W2022327079 @default.
W2166183902 cites W2027805759 @default.
W2166183902 cites W2034128569 @default.
W2166183902 cites W2036157845 @default.
W2166183902 cites W2041495561 @default.
W2166183902 cites W2044118579 @default.
W2166183902 cites W2044671846 @default.
W2166183902 cites W2054007236 @default.
W2166183902 cites W2059183284 @default.
W2166183902 cites W2060841462 @default.
W2166183902 cites W2064813419 @default.
W2166183902 cites W2067209992 @default.
W2166183902 cites W2070925890 @default.
W2166183902 cites W2073248942 @default.
W2166183902 cites W2079868543 @default.
W2166183902 cites W2081618095 @default.
W2166183902 cites W2086385396 @default.
W2166183902 cites W2091868762 @default.
W2166183902 cites W2091972531 @default.
W2166183902 cites W2092488895 @default.
W2166183902 cites W2101630303 @default.
W2166183902 cites W2112969083 @default.
W2166183902 cites W2120586601 @default.
W2166183902 cites W2123080953 @default.
W2166183902 cites W2135705672 @default.
W2166183902 cites W2155805802 @default.
W2166183902 cites W2167203708 @default.
W2166183902 cites W2310530212 @default.
W2166183902 cites W2314649911 @default.
W2166183902 cites W2318855545 @default.
W2166183902 cites W2333594780 @default.
W2166183902 cites W2950275812 @default.
W2166183902 cites W4233939566 @default.
W2166183902 cites W4252119965 @default.
W2166183902 cites W4254844556 @default.
W2166183902 doi "https://doi.org/10.1002/chem.201203247" @default.
W2166183902 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/23355391" @default.
W2166183902 hasPublicationYear "2013" @default.
W2166183902 type Work @default.
W2166183902 sameAs 2166183902 @default.
W2166183902 citedByCount "39" @default.
W2166183902 countsByYear W21661839022013 @default.
W2166183902 countsByYear W21661839022014 @default.
W2166183902 countsByYear W21661839022015 @default.
W2166183902 countsByYear W21661839022016 @default.
W2166183902 countsByYear W21661839022018 @default.
W2166183902 countsByYear W21661839022019 @default.
W2166183902 countsByYear W21661839022020 @default.
W2166183902 countsByYear W21661839022021 @default.
W2166183902 countsByYear W21661839022022 @default.
W2166183902 countsByYear W21661839022023 @default.
W2166183902 crossrefType "journal-article" @default.
W2166183902 hasAuthorship W2166183902A5021530387 @default.
W2166183902 hasAuthorship W2166183902A5030443856 @default.
W2166183902 hasAuthorship W2166183902A5037716604 @default.
W2166183902 hasAuthorship W2166183902A5045681059 @default.
W2166183902 hasAuthorship W2166183902A5059551907 @default.
W2166183902 hasAuthorship W2166183902A5065195324 @default.
W2166183902 hasAuthorship W2166183902A5073984469 @default.
W2166183902 hasAuthorship W2166183902A5076893765 @default.
W2166183902 hasBestOaLocation W21661839021 @default.
W2166183902 hasConcept C111998727 @default.
W2166183902 hasConcept C121332964 @default.
W2166183902 hasConcept C124712363 @default.
W2166183902 hasConcept C127413603 @default.
W2166183902 hasConcept C139066938 @default.
W2166183902 hasConcept C151730666 @default.
W2166183902 hasConcept C15920480 @default.
W2166183902 hasConcept C159467904 @default.