SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2020255451> ?p ?o ?g. }

Showing items 1 to 100 of ±144 with 100 items per page.

W2020255451 endingPage "56" @default.
W2020255451 startingPage "50" @default.
W2020255451 abstract "We report conductivity measurements for mackinawite at atmospheric pressure and up to values of 1.64 GPa. As far as the authors are aware, this is the first low temperature transport measurements to be conducted on mackinawite. The sample shows semiconducting-like behaviour up to the maximum pressures applied but with a gradual flattening of the resistivity curve it is tentatively suggested that the system will undergo a semiconductor–metallic transition with a further application of pressure. Interestingly, this contradicts band structure and more recent density functional theory (DFT) calculations which predict a metallic system. However, the experimental data agrees with the original prediction of semiconducting behaviour made by Bertaut 1965. This research also shows that, at least in its parent form, mackinawite does not exhibit a superconductive state unlike its iso-structural counterpart tetragonal FeSe. This is also briefly discussed." @default.
W2020255451 created "2016-06-24" @default.
W2020255451 creator A5003889718 @default.
W2020255451 creator A5008639301 @default.
W2020255451 creator A5023311060 @default.
W2020255451 creator A5028662742 @default.
W2020255451 creator A5038051471 @default.
W2020255451 creator A5039235524 @default.
W2020255451 creator A5048160127 @default.
W2020255451 creator A5048322538 @default.
W2020255451 creator A5077017789 @default.
W2020255451 creator A5085606147 @default.
W2020255451 date "2014-09-01" @default.
W2020255451 modified "2023-10-03" @default.
W2020255451 title "Evidence for non-metallic behaviour in tetragonal FeS (mackinawite)" @default.
W2020255451 cites W113635665 @default.
W2020255451 cites W1548681251 @default.
W2020255451 cites W1600011230 @default.
W2020255451 cites W1659501886 @default.
W2020255451 cites W1967439980 @default.
W2020255451 cites W1968997211 @default.
W2020255451 cites W1970268153 @default.
W2020255451 cites W1973427470 @default.
W2020255451 cites W1975008370 @default.
W2020255451 cites W1978997300 @default.
W2020255451 cites W1987738869 @default.
W2020255451 cites W1992114160 @default.
W2020255451 cites W2001513047 @default.
W2020255451 cites W2001519974 @default.
W2020255451 cites W2003443687 @default.
W2020255451 cites W2003968128 @default.
W2020255451 cites W2014343812 @default.
W2020255451 cites W2016962885 @default.
W2020255451 cites W2023166097 @default.
W2020255451 cites W2024425490 @default.
W2020255451 cites W2032268113 @default.
W2020255451 cites W2034182053 @default.
W2020255451 cites W2044433850 @default.
W2020255451 cites W2045606832 @default.
W2020255451 cites W2051064642 @default.
W2020255451 cites W2056879966 @default.
W2020255451 cites W2060549405 @default.
W2020255451 cites W2065042482 @default.
W2020255451 cites W2065187155 @default.
W2020255451 cites W2070092448 @default.
W2020255451 cites W2071532761 @default.
W2020255451 cites W2075063589 @default.
W2020255451 cites W2080288331 @default.
W2020255451 cites W2080567741 @default.
W2020255451 cites W2082529398 @default.
W2020255451 cites W2085774176 @default.
W2020255451 cites W2088817960 @default.
W2020255451 cites W2092470737 @default.
W2020255451 cites W2109236524 @default.
W2020255451 cites W2171303374 @default.
W2020255451 cites W2322333272 @default.
W2020255451 cites W2511529298 @default.
W2020255451 cites W2603244812 @default.
W2020255451 cites W2993229960 @default.
W2020255451 cites W3098852559 @default.
W2020255451 cites W3102866354 @default.
W2020255451 cites W4234936398 @default.
W2020255451 cites W4244381712 @default.
W2020255451 doi "https://doi.org/10.1016/j.matchemphys.2014.04.005" @default.
W2020255451 hasPublicationYear "2014" @default.
W2020255451 type Work @default.
W2020255451 sameAs 2020255451 @default.
W2020255451 citedByCount "27" @default.
W2020255451 countsByYear W20202554512014 @default.
W2020255451 countsByYear W20202554512015 @default.
W2020255451 countsByYear W20202554512016 @default.
W2020255451 countsByYear W20202554512017 @default.
W2020255451 countsByYear W20202554512018 @default.
W2020255451 countsByYear W20202554512019 @default.
W2020255451 countsByYear W20202554512020 @default.
W2020255451 countsByYear W20202554512022 @default.
W2020255451 crossrefType "journal-article" @default.
W2020255451 hasAuthorship W2020255451A5003889718 @default.
W2020255451 hasAuthorship W2020255451A5008639301 @default.
W2020255451 hasAuthorship W2020255451A5023311060 @default.
W2020255451 hasAuthorship W2020255451A5028662742 @default.
W2020255451 hasAuthorship W2020255451A5038051471 @default.
W2020255451 hasAuthorship W2020255451A5039235524 @default.
W2020255451 hasAuthorship W2020255451A5048160127 @default.
W2020255451 hasAuthorship W2020255451A5048322538 @default.
W2020255451 hasAuthorship W2020255451A5077017789 @default.
W2020255451 hasAuthorship W2020255451A5085606147 @default.
W2020255451 hasConcept C115624301 @default.
W2020255451 hasConcept C121332964 @default.
W2020255451 hasConcept C147597530 @default.
W2020255451 hasConcept C152365726 @default.
W2020255451 hasConcept C159985019 @default.
W2020255451 hasConcept C170751736 @default.
W2020255451 hasConcept C185592680 @default.
W2020255451 hasConcept C191897082 @default.
W2020255451 hasConcept C192562407 @default.
W2020255451 hasConcept C19444555 @default.
W2020255451 hasConcept C26873012 @default.