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Hydrogen absorption and desorption kinetics in fullerite C60 single crystals. Low-temperature micromechanical and structural characteristics of the interstitial solid solution C60(H2)x
The microhardness HV and lattice parameter a of C60 single crystals are measured at room temperature as functions of the hydrogen saturation time t for several values of the saturation temperature (250, 300, and 350°C) at a fixed hydrogen pressure p=30atm. According to the measurements of HV and a,...
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| Published in: | Low temperature physics (Woodbury, N.Y.) N.Y.), 2008-01, Vol.34 (1), p.69-74 |
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| creator | Fomenko, L. S. Lubenets, S. V. Natsik, V. D. Stetsenko, Yu. E. Yagotintsev, K. A. Strzhemechny, M. A. Prokhvatilov, A. I. Osipyan, Yu. A. Izotov, A. N. Sidorov, N. S. |
| description | The microhardness HV and lattice parameter a of C60 single crystals are measured at room temperature as functions of the hydrogen saturation time t for several values of the saturation temperature (250, 300, and 350°C) at a fixed hydrogen pressure p=30atm. According to the measurements of HV and a, the kinetics of hydrogen absorption is described by a simple exponential law with a single, temperature-dependent characteristic time. In highly saturated samples the microhardness is 4 times greater than for the initial C60 crystal, while the lattice parameter is 0.2% larger. The temperature dependence of the microhardness HV and lattice parameter a of C60(H2)x crystals is investigated in the temperature interval 77–300K. The introduction of hydrogen lowers the temperature of the fcc–sc phase transition, and the transition becomes strongly broadened in temperature. The dependence of the microhardness of the saturated sample on the hold time in air at room temperature is described by the sum of two exponentials with different characteristic times. Kinetics of this kind is presumably due to two processes: desorption of hydrogen from the sample, which causes a decrease of the microhardness, and a simultaneous penetration of gaseous impurities into the sample from the surrounding air, which is accompanied by hardening. The influence of the H2 molecules on the characteristic of the intermolecular interaction in fullerite C60 is discussed and the intercalation-induced processes of dislocation slip and microfracture. |
| doi_str_mv | 10.1063/1.2832358 |
| format | article |
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Low-temperature micromechanical and structural characteristics of the interstitial solid solution C60(H2)x</title><source>American Institute of Physics:Jisc Collections:Transitional Journals Agreement 2021-23 (Reading list)</source><creator>Fomenko, L. S. ; Lubenets, S. V. ; Natsik, V. D. ; Stetsenko, Yu. E. ; Yagotintsev, K. A. ; Strzhemechny, M. A. ; Prokhvatilov, A. I. ; Osipyan, Yu. A. ; Izotov, A. N. ; Sidorov, N. S.</creator><creatorcontrib>Fomenko, L. S. ; Lubenets, S. V. ; Natsik, V. D. ; Stetsenko, Yu. E. ; Yagotintsev, K. A. ; Strzhemechny, M. A. ; Prokhvatilov, A. I. ; Osipyan, Yu. A. ; Izotov, A. N. ; Sidorov, N. S.</creatorcontrib><description>The microhardness HV and lattice parameter a of C60 single crystals are measured at room temperature as functions of the hydrogen saturation time t for several values of the saturation temperature (250, 300, and 350°C) at a fixed hydrogen pressure p=30atm. According to the measurements of HV and a, the kinetics of hydrogen absorption is described by a simple exponential law with a single, temperature-dependent characteristic time. In highly saturated samples the microhardness is 4 times greater than for the initial C60 crystal, while the lattice parameter is 0.2% larger. The temperature dependence of the microhardness HV and lattice parameter a of C60(H2)x crystals is investigated in the temperature interval 77–300K. The introduction of hydrogen lowers the temperature of the fcc–sc phase transition, and the transition becomes strongly broadened in temperature. The dependence of the microhardness of the saturated sample on the hold time in air at room temperature is described by the sum of two exponentials with different characteristic times. Kinetics of this kind is presumably due to two processes: desorption of hydrogen from the sample, which causes a decrease of the microhardness, and a simultaneous penetration of gaseous impurities into the sample from the surrounding air, which is accompanied by hardening. The influence of the H2 molecules on the characteristic of the intermolecular interaction in fullerite C60 is discussed and the intercalation-induced processes of dislocation slip and microfracture.</description><identifier>ISSN: 1063-777X</identifier><identifier>EISSN: 1090-6517</identifier><identifier>DOI: 10.1063/1.2832358</identifier><language>eng</language><ispartof>Low temperature physics (Woodbury, N.Y.), 2008-01, Vol.34 (1), p.69-74</ispartof><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c144t-27708c2a012bae57a9daee72c7ec6b037a096f230a36f706ece572ddb7a7b3ca3</citedby><cites>FETCH-LOGICAL-c144t-27708c2a012bae57a9daee72c7ec6b037a096f230a36f706ece572ddb7a7b3ca3</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,778,782,27907,27908</link.rule.ids></links><search><creatorcontrib>Fomenko, L. 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According to the measurements of HV and a, the kinetics of hydrogen absorption is described by a simple exponential law with a single, temperature-dependent characteristic time. In highly saturated samples the microhardness is 4 times greater than for the initial C60 crystal, while the lattice parameter is 0.2% larger. The temperature dependence of the microhardness HV and lattice parameter a of C60(H2)x crystals is investigated in the temperature interval 77–300K. The introduction of hydrogen lowers the temperature of the fcc–sc phase transition, and the transition becomes strongly broadened in temperature. The dependence of the microhardness of the saturated sample on the hold time in air at room temperature is described by the sum of two exponentials with different characteristic times. Kinetics of this kind is presumably due to two processes: desorption of hydrogen from the sample, which causes a decrease of the microhardness, and a simultaneous penetration of gaseous impurities into the sample from the surrounding air, which is accompanied by hardening. The influence of the H2 molecules on the characteristic of the intermolecular interaction in fullerite C60 is discussed and the intercalation-induced processes of dislocation slip and microfracture.</description><issn>1063-777X</issn><issn>1090-6517</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2008</creationdate><recordtype>article</recordtype><recordid>eNo9UE1PwzAMjRBIjMGBf5AjO3TkY0vWI5qAIU3iAhK3yk3cLdA2U5IK9s_4eWQDcbH9nq33bBNyzdmUMyVv-VQspJDzxQkZcVayQs25Pj3UShZa67dzchHjO2M8d8sR-V7tbfAb7CnU0Yddcj6XvaUW_-GH6zE5E6nraTO0LQaXkC4Vo9H1mxapCfuYoI1TuvafRcJuhwHSEJB2zgTfodlC7wy0R-WYwmByN8PMBzApC8ajgW9o2mL2yVRmkssz0bfOHuJwXCbb3qzE5OuSnDXZEq_-8pi8Pty_LFfF-vnxaXm3LgyfzVIhtGYLI4BxUQPONZQWELUwGo2qmdTAStUIyUCqRjOFJg8Ja2sNupYG5JhMfnXzITEGbKpdcB2EfcVZdfhqxau_l8sf3JN5HA</recordid><startdate>20080101</startdate><enddate>20080101</enddate><creator>Fomenko, L. S.</creator><creator>Lubenets, S. V.</creator><creator>Natsik, V. D.</creator><creator>Stetsenko, Yu. 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S.</creatorcontrib><collection>CrossRef</collection><jtitle>Low temperature physics (Woodbury, N.Y.)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Fomenko, L. S.</au><au>Lubenets, S. V.</au><au>Natsik, V. D.</au><au>Stetsenko, Yu. E.</au><au>Yagotintsev, K. A.</au><au>Strzhemechny, M. A.</au><au>Prokhvatilov, A. I.</au><au>Osipyan, Yu. A.</au><au>Izotov, A. N.</au><au>Sidorov, N. S.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Hydrogen absorption and desorption kinetics in fullerite C60 single crystals. Low-temperature micromechanical and structural characteristics of the interstitial solid solution C60(H2)x</atitle><jtitle>Low temperature physics (Woodbury, N.Y.)</jtitle><date>2008-01-01</date><risdate>2008</risdate><volume>34</volume><issue>1</issue><spage>69</spage><epage>74</epage><pages>69-74</pages><issn>1063-777X</issn><eissn>1090-6517</eissn><abstract>The microhardness HV and lattice parameter a of C60 single crystals are measured at room temperature as functions of the hydrogen saturation time t for several values of the saturation temperature (250, 300, and 350°C) at a fixed hydrogen pressure p=30atm. According to the measurements of HV and a, the kinetics of hydrogen absorption is described by a simple exponential law with a single, temperature-dependent characteristic time. In highly saturated samples the microhardness is 4 times greater than for the initial C60 crystal, while the lattice parameter is 0.2% larger. The temperature dependence of the microhardness HV and lattice parameter a of C60(H2)x crystals is investigated in the temperature interval 77–300K. The introduction of hydrogen lowers the temperature of the fcc–sc phase transition, and the transition becomes strongly broadened in temperature. The dependence of the microhardness of the saturated sample on the hold time in air at room temperature is described by the sum of two exponentials with different characteristic times. Kinetics of this kind is presumably due to two processes: desorption of hydrogen from the sample, which causes a decrease of the microhardness, and a simultaneous penetration of gaseous impurities into the sample from the surrounding air, which is accompanied by hardening. The influence of the H2 molecules on the characteristic of the intermolecular interaction in fullerite C60 is discussed and the intercalation-induced processes of dislocation slip and microfracture.</abstract><doi>10.1063/1.2832358</doi><tpages>6</tpages></addata></record> |
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| title | Hydrogen absorption and desorption kinetics in fullerite C60 single crystals. Low-temperature micromechanical and structural characteristics of the interstitial solid solution C60(H2)x |
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