SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2322607785> ?p ?o ?g. }

Showing items 1 to 100 of ±139 with 100 items per page.

W2322607785 endingPage "23935" @default.
W2322607785 startingPage "23929" @default.
W2322607785 abstract "Measuring the surface energy of highly hygroscopic materials has remained a thorny problem for many years, mainly because obtaining an anhydrous surface state and maintaining this condition during the surface energy assessment has been considered an impractical task. In this work, we developed synthetic and calorimetric approaches that overcome these difficulties and applied them to measure the surface energy of anhydrous nanocrystalline magnesium oxide. Anhydrous MgO with specific surface area of ∼300 m2 g–1 was synthesized by laser ablation in a controlled oxygen partial pressure environment. High resolution transmission electron microscopy and X-ray diffraction showed cubic nanoparticles with sizes ranging from 5 to 10 nm (as controlled by the partial pressure) and with the periclase crystal structure. The surface energy of the anhydrous state was assessed using high temperature oxide melt drop solution calorimetry and differential scanning calorimetry; the surface energies were 1.2 ± 0.1 and 1.3 ± 0.1 J m–2, respectively. These values are slightly higher than from previously reported experiments and are consistent with a less hydrated surface." @default.
W2322607785 created "2016-06-24" @default.
W2322607785 creator A5002468254 @default.
W2322607785 creator A5032474743 @default.
W2322607785 creator A5038785993 @default.
W2322607785 creator A5050245819 @default.
W2322607785 creator A5069114357 @default.
W2322607785 creator A5074885018 @default.
W2322607785 creator A5082986600 @default.
W2322607785 date "2011-11-10" @default.
W2322607785 modified "2023-10-12" @default.
W2322607785 title "Experimental Methodologies for Assessing the Surface Energy of Highly Hygroscopic Materials: The Case of Nanocrystalline Magnesia" @default.
W2322607785 cites W1969669176 @default.
W2322607785 cites W1981184885 @default.
W2322607785 cites W1989550054 @default.
W2322607785 cites W1994744828 @default.
W2322607785 cites W1996214740 @default.
W2322607785 cites W1997682677 @default.
W2322607785 cites W1998739138 @default.
W2322607785 cites W1999208601 @default.
W2322607785 cites W1999402667 @default.
W2322607785 cites W2001009161 @default.
W2322607785 cites W2012362980 @default.
W2322607785 cites W2017793009 @default.
W2322607785 cites W2019278546 @default.
W2322607785 cites W2022718697 @default.
W2322607785 cites W2027406213 @default.
W2322607785 cites W2028400063 @default.
W2322607785 cites W2038367435 @default.
W2322607785 cites W2038468988 @default.
W2322607785 cites W2039553775 @default.
W2322607785 cites W2042155693 @default.
W2322607785 cites W2051325544 @default.
W2322607785 cites W2054037526 @default.
W2322607785 cites W2056025563 @default.
W2322607785 cites W2057492587 @default.
W2322607785 cites W2058026924 @default.
W2322607785 cites W2059084698 @default.
W2322607785 cites W2059699536 @default.
W2322607785 cites W2060424983 @default.
W2322607785 cites W2063155355 @default.
W2322607785 cites W2067369389 @default.
W2322607785 cites W2072405376 @default.
W2322607785 cites W2073179911 @default.
W2322607785 cites W2078339737 @default.
W2322607785 cites W2091190993 @default.
W2322607785 cites W2110538102 @default.
W2322607785 cites W2113054955 @default.
W2322607785 cites W2146276785 @default.
W2322607785 cites W2154825187 @default.
W2322607785 cites W2155274970 @default.
W2322607785 cites W2321803913 @default.
W2322607785 cites W2334529166 @default.
W2322607785 cites W2334610556 @default.
W2322607785 cites W2994039657 @default.
W2322607785 doi "https://doi.org/10.1021/jp2087434" @default.
W2322607785 hasPublicationYear "2011" @default.
W2322607785 type Work @default.
W2322607785 sameAs 2322607785 @default.
W2322607785 citedByCount "37" @default.
W2322607785 countsByYear W23226077852012 @default.
W2322607785 countsByYear W23226077852013 @default.
W2322607785 countsByYear W23226077852014 @default.
W2322607785 countsByYear W23226077852015 @default.
W2322607785 countsByYear W23226077852016 @default.
W2322607785 countsByYear W23226077852017 @default.
W2322607785 countsByYear W23226077852018 @default.
W2322607785 countsByYear W23226077852019 @default.
W2322607785 countsByYear W23226077852020 @default.
W2322607785 countsByYear W23226077852021 @default.
W2322607785 countsByYear W23226077852022 @default.
W2322607785 countsByYear W23226077852023 @default.
W2322607785 crossrefType "journal-article" @default.
W2322607785 hasAuthorship W2322607785A5002468254 @default.
W2322607785 hasAuthorship W2322607785A5032474743 @default.
W2322607785 hasAuthorship W2322607785A5038785993 @default.
W2322607785 hasAuthorship W2322607785A5050245819 @default.
W2322607785 hasAuthorship W2322607785A5069114357 @default.
W2322607785 hasAuthorship W2322607785A5074885018 @default.
W2322607785 hasAuthorship W2322607785A5082986600 @default.
W2322607785 hasConcept C113196181 @default.
W2322607785 hasConcept C121332964 @default.
W2322607785 hasConcept C127413603 @default.
W2322607785 hasConcept C140676511 @default.
W2322607785 hasConcept C159985019 @default.
W2322607785 hasConcept C171250308 @default.
W2322607785 hasConcept C178790620 @default.
W2322607785 hasConcept C185592680 @default.
W2322607785 hasConcept C187714232 @default.
W2322607785 hasConcept C191897082 @default.
W2322607785 hasConcept C192562407 @default.
W2322607785 hasConcept C195839 @default.
W2322607785 hasConcept C202270520 @default.
W2322607785 hasConcept C2778758504 @default.
W2322607785 hasConcept C2779851234 @default.
W2322607785 hasConcept C39519442 @default.
W2322607785 hasConcept C42360764 @default.
W2322607785 hasConcept C543218039 @default.