FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2045591930> ?p ?o ?g. }

• W2045591930 abstract "Magnetic refrigeration based on the magnetocaloric effect is one of the best alternatives to compete with vapor-compression technology. Despite being already in its technology transfer stage, there is still room for optimization, namely, on the magnetic responses of the magnetocaloric material. In parallel, the demand for different magnetostrictive materials has been greatly enhanced due to the wide and innovative range of technologies that emerged in the last years (from structural evaluation to straintronics fields). In particular, the Gd5(SixGe1−x)4 compounds are a family of well-known alloys that present both giant magnetocaloric and colossal magnetostriction effects. Despite their remarkable properties, very few reports have been dedicated to the nanostructuring of these materials: here, we report a ∼800 nm Gd5Si2.7Ge1.3 thin film. The magnetic and structural investigation revealed that the film undergoes a first order magnetostructural transition and as a consequence exhibits large magnetocaloric effect (−ΔSmMAX ∼ 8.83 J kg−1 K−1, ΔH = 5T) and giant thermal expansion (12000 p.p.m). The thin film presents a broader magnetic response in comparison with the bulk compound, which results in a beneficial magnetic hysteresis reduction. The ΔSmMAX exhibited by the Gd5(Si,Ge)4 thin film makes it a promising candidate for micro/nano magnetic refrigeration area." @default.
• W2045591930 created "2016-06-24" @default.
• W2045591930 creator A5017242058 @default.
• W2045591930 creator A5024709912 @default.
• W2045591930 creator A5028511447 @default.
• W2045591930 creator A5044626728 @default.
• W2045591930 creator A5048854182 @default.
• W2045591930 creator A5055226759 @default.
• W2045591930 creator A5059358267 @default.
• W2045591930 creator A5080961460 @default.
• W2045591930 creator A5084889458 @default.
• W2045591930 date "2015-01-19" @default.
• W2045591930 modified "2023-10-15" @default.
• W2045591930 title "Gd5(Si,Ge)4 thin film displaying large magnetocaloric and strain effects due to magnetostructural transition" @default.
• W2045591930 cites W1492201106 @default.
• W2045591930 cites W1527025259 @default.
• W2045591930 cites W1587366484 @default.
• W2045591930 cites W1589469827 @default.
• W2045591930 cites W1624574948 @default.
• W2045591930 cites W194596161 @default.
• W2045591930 cites W1968813345 @default.
• W2045591930 cites W1968878852 @default.
• W2045591930 cites W1969464988 @default.
• W2045591930 cites W1970613387 @default.
• W2045591930 cites W1970767927 @default.
• W2045591930 cites W1973103152 @default.
• W2045591930 cites W1974536996 @default.
• W2045591930 cites W1978590142 @default.
• W2045591930 cites W1984071399 @default.
• W2045591930 cites W1984639696 @default.
• W2045591930 cites W1988898892 @default.
• W2045591930 cites W1990871702 @default.
• W2045591930 cites W1995303010 @default.
• W2045591930 cites W1999798432 @default.
• W2045591930 cites W2001457359 @default.
• W2045591930 cites W2004902836 @default.
• W2045591930 cites W2005285389 @default.
• W2045591930 cites W2012862860 @default.
• W2045591930 cites W2012945302 @default.
• W2045591930 cites W2013957569 @default.
• W2045591930 cites W2017121272 @default.
• W2045591930 cites W2025055580 @default.
• W2045591930 cites W2034976961 @default.
• W2045591930 cites W2038098959 @default.
• W2045591930 cites W2040695566 @default.
• W2045591930 cites W2041423041 @default.
• W2045591930 cites W2041720635 @default.
• W2045591930 cites W2044661329 @default.
• W2045591930 cites W2046050300 @default.
• W2045591930 cites W2049162375 @default.
• W2045591930 cites W2050800411 @default.
• W2045591930 cites W2052171558 @default.
• W2045591930 cites W2056075465 @default.
• W2045591930 cites W2057764991 @default.
• W2045591930 cites W2060645425 @default.
• W2045591930 cites W2062296312 @default.
• W2045591930 cites W2064390445 @default.
• W2045591930 cites W2066778025 @default.
• W2045591930 cites W2069150455 @default.
• W2045591930 cites W2069315691 @default.
• W2045591930 cites W2073013558 @default.
• W2045591930 cites W2074037980 @default.
• W2045591930 cites W2076299652 @default.
• W2045591930 cites W2077308221 @default.
• W2045591930 cites W2081186179 @default.
• W2045591930 cites W2082516473 @default.
• W2045591930 cites W2082681922 @default.
• W2045591930 cites W2085053307 @default.
• W2045591930 cites W2086284258 @default.
• W2045591930 cites W2096917442 @default.
• W2045591930 cites W2105971191 @default.
• W2045591930 cites W2117501012 @default.
• W2045591930 cites W2120212369 @default.
• W2045591930 cites W2121889640 @default.
• W2045591930 cites W2162895555 @default.
• W2045591930 cites W2317793149 @default.
• W2045591930 cites W2964679901 @default.
• W2045591930 cites W3099718212 @default.
• W2045591930 cites W3099780170 @default.
• W2045591930 cites W3104891057 @default.
• W2045591930 cites W3104966189 @default.
• W2045591930 cites W1984398631 @default.
• W2045591930 doi "https://doi.org/10.1063/1.4906056" @default.
• W2045591930 hasPublicationYear "2015" @default.
• W2045591930 type Work @default.
• W2045591930 sameAs 2045591930 @default.
• W2045591930 citedByCount "26" @default.
• W2045591930 countsByYear W20455919302015 @default.
• W2045591930 countsByYear W20455919302016 @default.
• W2045591930 countsByYear W20455919302017 @default.
• W2045591930 countsByYear W20455919302018 @default.
• W2045591930 countsByYear W20455919302019 @default.
• W2045591930 countsByYear W20455919302020 @default.
• W2045591930 countsByYear W20455919302021 @default.
• W2045591930 countsByYear W20455919302022 @default.
• W2045591930 countsByYear W20455919302023 @default.
• W2045591930 crossrefType "journal-article" @default.
• W2045591930 hasAuthorship W2045591930A5017242058 @default.
• W2045591930 hasAuthorship W2045591930A5024709912 @default.
• W2045591930 hasAuthorship W2045591930A5028511447 @default.

• next