SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2320405802> ?p ?o ?g. }

Showing items 1 to 100 of ±135 with 100 items per page.

W2320405802 abstract "Using the magneto-optical Kerr effect, superconducting quantum interference device magnetometry, and magnetic circular dichroism spectroscopy, ferromagnetism was found below 4.5 K in iron phthalocyanine thin films grown by molecular-beam epitaxy. The stacking of the molecules can be controlled via deposition temperature and substrate choice. The molecules self-assemble such that quasi-one-dimensional iron chains form. The chains are limited in length by the grain size or film thickness, which are manipulated using judicious growth methods. Magnetic hysteresis loops show distinct features in the saturation magnetization and susceptibility that depend on the thin-film structure and/or substrate. We find two regimes for the magnetic behavior: below temperatures of $ensuremath{sim}$25 K, intrachain interactions couple the Fe ions and produce nontraditional paramagnetic behavior, while at low temperatures below $ensuremath{sim}$$4.5$ K interactions between the one-dimensional chains produce hysteresis, magnetic order, and slow magnetization dynamics." @default.
W2320405802 created "2016-06-24" @default.
W2320405802 creator A5044439015 @default.
W2320405802 creator A5059845938 @default.
W2320405802 creator A5060973787 @default.
W2320405802 creator A5071555016 @default.
W2320405802 date "2012-07-12" @default.
W2320405802 modified "2023-09-27" @default.
W2320405802 title "Substrate-controlled ferromagnetism in iron phthalocyanine films due to one-dimensional iron chains" @default.
W2320405802 cites W1970306934 @default.
W2320405802 cites W1975845824 @default.
W2320405802 cites W1976382559 @default.
W2320405802 cites W1976655898 @default.
W2320405802 cites W1984383701 @default.
W2320405802 cites W1984965093 @default.
W2320405802 cites W1988517497 @default.
W2320405802 cites W1997140166 @default.
W2320405802 cites W1997767310 @default.
W2320405802 cites W2004038274 @default.
W2320405802 cites W2006026792 @default.
W2320405802 cites W2009423583 @default.
W2320405802 cites W2010495717 @default.
W2320405802 cites W2020414623 @default.
W2320405802 cites W2021298424 @default.
W2320405802 cites W2021686147 @default.
W2320405802 cites W2031158625 @default.
W2320405802 cites W2038857078 @default.
W2320405802 cites W2040529537 @default.
W2320405802 cites W2044177595 @default.
W2320405802 cites W2048495890 @default.
W2320405802 cites W2050284297 @default.
W2320405802 cites W2052342704 @default.
W2320405802 cites W2054739337 @default.
W2320405802 cites W2057268588 @default.
W2320405802 cites W2061238717 @default.
W2320405802 cites W2066173818 @default.
W2320405802 cites W2079684133 @default.
W2320405802 cites W2090509992 @default.
W2320405802 cites W2100717790 @default.
W2320405802 cites W2112147791 @default.
W2320405802 cites W2123080953 @default.
W2320405802 cites W2158561755 @default.
W2320405802 cites W3016112569 @default.
W2320405802 cites W4231628233 @default.
W2320405802 doi "https://doi.org/10.1103/physrevb.86.014409" @default.
W2320405802 hasPublicationYear "2012" @default.
W2320405802 type Work @default.
W2320405802 sameAs 2320405802 @default.
W2320405802 citedByCount "32" @default.
W2320405802 countsByYear W23204058022013 @default.
W2320405802 countsByYear W23204058022014 @default.
W2320405802 countsByYear W23204058022015 @default.
W2320405802 countsByYear W23204058022017 @default.
W2320405802 countsByYear W23204058022018 @default.
W2320405802 countsByYear W23204058022019 @default.
W2320405802 countsByYear W23204058022020 @default.
W2320405802 countsByYear W23204058022021 @default.
W2320405802 countsByYear W23204058022022 @default.
W2320405802 countsByYear W23204058022023 @default.
W2320405802 crossrefType "journal-article" @default.
W2320405802 hasAuthorship W2320405802A5044439015 @default.
W2320405802 hasAuthorship W2320405802A5059845938 @default.
W2320405802 hasAuthorship W2320405802A5060973787 @default.
W2320405802 hasAuthorship W2320405802A5071555016 @default.
W2320405802 hasBestOaLocation W23204058021 @default.
W2320405802 hasConcept C110738630 @default.
W2320405802 hasConcept C111368507 @default.
W2320405802 hasConcept C115260700 @default.
W2320405802 hasConcept C121332964 @default.
W2320405802 hasConcept C123299182 @default.
W2320405802 hasConcept C124712363 @default.
W2320405802 hasConcept C127313418 @default.
W2320405802 hasConcept C1276947 @default.
W2320405802 hasConcept C171250308 @default.
W2320405802 hasConcept C19067145 @default.
W2320405802 hasConcept C192562407 @default.
W2320405802 hasConcept C26873012 @default.
W2320405802 hasConcept C2777289219 @default.
W2320405802 hasConcept C2779227376 @default.
W2320405802 hasConcept C2780761128 @default.
W2320405802 hasConcept C32546565 @default.
W2320405802 hasConcept C33347731 @default.
W2320405802 hasConcept C3792809 @default.
W2320405802 hasConcept C46141821 @default.
W2320405802 hasConcept C47441113 @default.
W2320405802 hasConcept C4839761 @default.
W2320405802 hasConcept C62520636 @default.
W2320405802 hasConcept C68563686 @default.
W2320405802 hasConcept C82217956 @default.
W2320405802 hasConceptScore W2320405802C110738630 @default.
W2320405802 hasConceptScore W2320405802C111368507 @default.
W2320405802 hasConceptScore W2320405802C115260700 @default.
W2320405802 hasConceptScore W2320405802C121332964 @default.
W2320405802 hasConceptScore W2320405802C123299182 @default.
W2320405802 hasConceptScore W2320405802C124712363 @default.
W2320405802 hasConceptScore W2320405802C127313418 @default.
W2320405802 hasConceptScore W2320405802C1276947 @default.
W2320405802 hasConceptScore W2320405802C171250308 @default.
W2320405802 hasConceptScore W2320405802C19067145 @default.
W2320405802 hasConceptScore W2320405802C192562407 @default.