Organic superconductor
http://dbpedia.org/resource/Organic_superconductor an entity of type: WikicatOrganicCompounds
Un supraconducteur organique est un composé organique synthétique supraconducteur à basse température. Les supraconducteurs organiques présentent un intérêt non seulement d'un point de vue fondamental pour la compréhension de la supraconductivité et l'étude de systèmes modèles expliquant l’origine de celle-ci, mais aussi pour des problèmes pratiques, car les composés organiques sont principalement constitués de carbone et d’hydrogène qui font partie des éléments les plus abondants sur Terre contrairement au cuivre ou à l'osmium couramment utilisés dans les oxydes supraconducteurs inorganiques.
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물리화학과 응집물질물리학에서 유기 초전도체는 낮은 온도에서 초전도를 보이는 유기 화합물이다. 2007년에 유기 초전도체 중 최고의 임계온도는 33 켈빈으로 알칼리 도핑된 풀러렌 RbCs2C60이었다. 유기 초전도체로 기술될 많은 재료가 있다. 이들은 유사 1차원인 베크고르 염과 파브르 염을 포함한다.준이차원물질은 카파 BEDT-TTF 2X,람다-BETS2X 등이 있다.
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An organic superconductor is a synthetic organic compound that exhibits superconductivity at low temperatures. As of 2007 the highest achieved critical temperature for an organic superconductor at standard pressure is 33 K (−240 °C; −400 °F), observed in the alkali-doped fullerene RbCs2C60. In 1979 Klaus Bechgaard synthesized the first organic superconductor (TMTSF)2PF6 (the corresponding material class was named after him later) with a transition temperature of TC = 0.9 K, at an external pressure of 11 kbar.
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Supraconducteur organique
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유기 초전도체
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Organic superconductor
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4636552
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1121851267
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Un supraconducteur organique est un composé organique synthétique supraconducteur à basse température. Les supraconducteurs organiques présentent un intérêt non seulement d'un point de vue fondamental pour la compréhension de la supraconductivité et l'étude de systèmes modèles expliquant l’origine de celle-ci, mais aussi pour des problèmes pratiques, car les composés organiques sont principalement constitués de carbone et d’hydrogène qui font partie des éléments les plus abondants sur Terre contrairement au cuivre ou à l'osmium couramment utilisés dans les oxydes supraconducteurs inorganiques.
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An organic superconductor is a synthetic organic compound that exhibits superconductivity at low temperatures. As of 2007 the highest achieved critical temperature for an organic superconductor at standard pressure is 33 K (−240 °C; −400 °F), observed in the alkali-doped fullerene RbCs2C60. In 1979 Klaus Bechgaard synthesized the first organic superconductor (TMTSF)2PF6 (the corresponding material class was named after him later) with a transition temperature of TC = 0.9 K, at an external pressure of 11 kbar. Many materials may be characterized as organic superconductors. These include the Bechgaard salts and Fabre salts which are both quasi-one-dimensional, and quasi-two-dimensional materials such as k-BEDT-TTF2X charge-transfer complex, λ-BETS2X compounds, graphite intercalation compounds and three-dimensional materials such as the alkali-doped fullerenes. Organic superconductors are of special interest not only for scientists, looking for room-temperature superconductivity and for model systems explaining the origin of superconductivity but also for daily life issues as organic compounds are mainly built of carbon and hydrogen which belong to the most common elements on earth in contrast to copper or osmium.
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물리화학과 응집물질물리학에서 유기 초전도체는 낮은 온도에서 초전도를 보이는 유기 화합물이다. 2007년에 유기 초전도체 중 최고의 임계온도는 33 켈빈으로 알칼리 도핑된 풀러렌 RbCs2C60이었다. 유기 초전도체로 기술될 많은 재료가 있다. 이들은 유사 1차원인 베크고르 염과 파브르 염을 포함한다.준이차원물질은 카파 BEDT-TTF 2X,람다-BETS2X 등이 있다.
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14257