File:External-stimulation-controllable-heat-storage-ceramics-ncomms8037-s6.ogv
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DescriptionExternal-stimulation-controllable-heat-storage-ceramics-ncomms8037-s6.ogv |
English: Supplementary Movie 5 Reversible pressure- and light-induced phase transition. This movie shows the pressure-induced phase transition from λ-Ti3O5 to β-Ti3O5 and light-induced phase transition from β-Ti3O5 to λ-Ti3O5. The initial part of this movie displays the pressure-induced phase transition from λ-Ti3O5 to β-Ti3O5, where the accumulated heat energy in λ-Ti3O5 is released (energy release process). Next, the pressure-produced β-Ti3O5 is irradiated with light and transforms to λ-Ti3O5, i.e., light-induced phase transition accompanying accumulation of heat energy (heat storage process). The release and accumulation of heat energy are caused repeatedly by alternating pressure application and light irradiation. Such a metal oxide is the first example. |
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Source | Video file from Tokoro H, Yoshikiyo M, Imoto K, Namai A, Nasu T, Nakagawa K, Ozaki N, Hakoe F, Tanaka K, Chiba K, Makiura R, Prassides K, Ohkoshi S (2015). "External stimulation-controllable heat-storage ceramics". Nature Communications. DOI:10.1038/ncomms8037. PMID 25962982. PMC: 4432584. | ||
Author | Tokoro H, Yoshikiyo M, Imoto K, Namai A, Nasu T, Nakagawa K, Ozaki N, Hakoe F, Tanaka K, Chiba K, Makiura R, Prassides K, Ohkoshi S | ||
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This file is licensed under the Creative Commons Attribution 4.0 International license.
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Short title | Supplementary Movie 5 |
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Author | Tokoro H, Yoshikiyo M, Imoto K, Namai A, Nasu T, Nakagawa K, Ozaki N, Hakoe F, Tanaka K, Chiba K, Makiura R, Prassides K, Ohkoshi S |
Usage terms | http://creativecommons.org/licenses/by/4.0/ |
Image title | Reversible pressure- and light-induced phase transition. This movie shows the pressure-induced phase transition from λ-Ti3O5 to β-Ti3O5 and light-induced phase transition from β-Ti3O5 to λ-Ti3O5. The initial part of this movie displays the pressure-induced phase transition from λ-Ti3O5 to β-Ti3O5, where the accumulated heat energy in λ-Ti3O5 is released (energy release process). Next, the pressure-produced β-Ti3O5 is irradiated with light and transforms to λ-Ti3O5, i.e., light-induced phase transition accompanying accumulation of heat energy (heat storage process). The release and accumulation of heat energy are caused repeatedly by alternating pressure application and light irradiation. Such a metal oxide is the first example. |
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Language | English |