Properties of Transition Metals and Their Compounds at Extreme Conditions

doi:10.3390/books978-3-0365-2322-4

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https://mdpi.com/books/pdfview/book/4772

Contributor(s)

Anzellini, Simone (editor)

Errandonea, Daniel (editor)

Language

English

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Abstract

The characterization of the physical and chemical properties of transition metals and their compounds under extreme conditions of pressure and temperature has always attracted the interest of a wide scientific community. Their properties have numerous implications in fields ranging from solid-state physics, chemistry, and materials science to Earth and planetary science. The present Special Issue represents a good example of such a broad interest and shows some of the latest advancements in the investigation of transition metals under extreme conditions of pressure and temperature.

URI

https://directory.doabooks.org/handle/20.500.12854/77154

Keywords

vanadate; kagome compound; high pressure; X-ray diffraction; equation of state; iodate; infrared spectroscopy; phase transitions; grain refinement; mechanical properties; commercial purity aluminum; zirconium; Nb3Sn; local atomic structure; XAFS; melting curves; laser-heated diamond anvil cell; extreme conditions; synchrotron radiation; transition metals; iridium; laser heating; density-functional theory; melting; radial-distribution function; quantum molecular dynamics; melting curve; solid–solid phase transition boundary; multi-phase materials; phase relation; Earth’s core; iron alloys; high-pressure; high-temperature; thermodynamics; eutectic spacing; Al-Si alloy; superheat; electrical resistivity; iron sulfides; high temperature; Ganymede; thermal convection; creep testing; ME21; magnesium alloy; size effects; miniature specimen; PbTe; substitutional disorder; thermal expansion; bulk modulus; atomic displacement; low temperature; compression; Debye temperature; n/a