SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2120996986> ?p ?o ?g. }

Showing items 1 to 100 of ±228 with 100 items per page.

W2120996986 endingPage "52" @default.
W2120996986 startingPage "35" @default.
W2120996986 abstract "Transition metal oxides offer a wide spectrum of properties which provide the foundation for a broad range of potential applications. Many of these properties originate from intrinsic coupling between lattice deformation and nanoscale electronic and magnetic ordering. Lattice strain thus has a profound influence on the electrical, optical, and magnetic properties of these materials. Recent advances in materials processing have led to the synthesis of low-dimensional single-crystal transition metal oxides, namely, epitaxial ultra-thin films and free-standing nano/microwires. Unlike bulk materials, these systems allow external tuning of uniform strain in these materials to tailor their properties and functionalities. This paper provides a comprehensive review of recent developments in studies of strain effects in transition metal oxide ultra-thin films and nano/microwires. In epitaxial thin films, biaxial strain is developed as a result of lattice mismatch between the film and the substrate. By choosing different substrates, a wide range of strain can be established at discrete values that allows for exploration of new phase space, enhancement of order parameters, creation of complicated domain textures, and stabilization of new phases. On the other hand, continuous tuning of uniaxial strain is possible in nano/microwires, where a variety of phase transitions and their dynamics could be probed at the single or few-domain scale. We focus on the work of strain-controlled electromechanical response in piezoelectric oxides and strain-induced metal–insulator transitions as well as domain physics in strongly correlated electron oxides. Related nanoscale device applications such as strain sensing and power generation will be highlighted as well." @default.
W2120996986 created "2016-06-24" @default.
W2120996986 creator A5064222887 @default.
W2120996986 creator A5073568595 @default.
W2120996986 date "2011-01-08" @default.
W2120996986 modified "2023-10-11" @default.
W2120996986 title "Strain effects in low-dimensional transition metal oxides" @default.
W2120996986 cites W1483750694 @default.
W2120996986 cites W1486867791 @default.
W2120996986 cites W1506501852 @default.
W2120996986 cites W1512024966 @default.
W2120996986 cites W1522475845 @default.
W2120996986 cites W1528623332 @default.
W2120996986 cites W1534461957 @default.
W2120996986 cites W1534604751 @default.
W2120996986 cites W1553650702 @default.
W2120996986 cites W1575492558 @default.
W2120996986 cites W1580087561 @default.
W2120996986 cites W1580216073 @default.
W2120996986 cites W1623427689 @default.
W2120996986 cites W1624698819 @default.
W2120996986 cites W1637414252 @default.
W2120996986 cites W1651811209 @default.
W2120996986 cites W1660819248 @default.
W2120996986 cites W1676913226 @default.
W2120996986 cites W1857593571 @default.
W2120996986 cites W1964954689 @default.
W2120996986 cites W1965350997 @default.
W2120996986 cites W1965421710 @default.
W2120996986 cites W1967848178 @default.
W2120996986 cites W1970386954 @default.
W2120996986 cites W1972323378 @default.
W2120996986 cites W1972373941 @default.
W2120996986 cites W1975096473 @default.
W2120996986 cites W1975826304 @default.
W2120996986 cites W1977172092 @default.
W2120996986 cites W1980218943 @default.
W2120996986 cites W1980425760 @default.
W2120996986 cites W1980987995 @default.
W2120996986 cites W1981833025 @default.
W2120996986 cites W1982082547 @default.
W2120996986 cites W1983004831 @default.
W2120996986 cites W1983551262 @default.
W2120996986 cites W1985382620 @default.
W2120996986 cites W1985614145 @default.
W2120996986 cites W1987139914 @default.
W2120996986 cites W1988828791 @default.
W2120996986 cites W1989037039 @default.
W2120996986 cites W1990234026 @default.
W2120996986 cites W1991602691 @default.
W2120996986 cites W1991876910 @default.
W2120996986 cites W1991888029 @default.
W2120996986 cites W1992208078 @default.
W2120996986 cites W1993259928 @default.
W2120996986 cites W1993378267 @default.
W2120996986 cites W1993552027 @default.
W2120996986 cites W1993717184 @default.
W2120996986 cites W1994607326 @default.
W2120996986 cites W1994768962 @default.
W2120996986 cites W1995671881 @default.
W2120996986 cites W1995836614 @default.
W2120996986 cites W2002406419 @default.
W2120996986 cites W2002962459 @default.
W2120996986 cites W2003616082 @default.
W2120996986 cites W2004186443 @default.
W2120996986 cites W2005053362 @default.
W2120996986 cites W2005670894 @default.
W2120996986 cites W2007630574 @default.
W2120996986 cites W2010239884 @default.
W2120996986 cites W2011319002 @default.
W2120996986 cites W2012113525 @default.
W2120996986 cites W2014020383 @default.
W2120996986 cites W2014368190 @default.
W2120996986 cites W2015233485 @default.
W2120996986 cites W2015445221 @default.
W2120996986 cites W2017279968 @default.
W2120996986 cites W2017522705 @default.
W2120996986 cites W2018374957 @default.
W2120996986 cites W2021006091 @default.
W2120996986 cites W2023230223 @default.
W2120996986 cites W2023481368 @default.
W2120996986 cites W2023537357 @default.
W2120996986 cites W2025892210 @default.
W2120996986 cites W2026272203 @default.
W2120996986 cites W2027038233 @default.
W2120996986 cites W2027827130 @default.
W2120996986 cites W2028090372 @default.
W2120996986 cites W2031088882 @default.
W2120996986 cites W2032018678 @default.
W2120996986 cites W2036046648 @default.
W2120996986 cites W2036620432 @default.
W2120996986 cites W2038800943 @default.
W2120996986 cites W2041070217 @default.
W2120996986 cites W2042460494 @default.
W2120996986 cites W2047802539 @default.
W2120996986 cites W2048513911 @default.
W2120996986 cites W2049695710 @default.
W2120996986 cites W2052289375 @default.