Screening unique two-dimensional (2D) materials with high mobility and的简体中文翻译

Screening unique two-dimensional (2

Screening unique two-dimensional (2D) materials with high mobility and applicable band gaps is motivated by not only the interest in basic science but also the practical applications for photoelectric materials. In this work, we have systematically studied a new family of 2D ternary quintuple layers (QLs), named ABC (A = Na, K, and Rb; B = Cu, Ag, and Au; C = S, Se, and Te). Our results indicate that the QLs of KCuTe, KAgS, KAgSe, KAuTe, RbCuTe, RbAgSe, and RbAgTe host direct band gaps. Moreover, KCuTe, RbCuTe, and RbAgTe QLs show extremely high mobilities of ∼104 cm2 V–1 s–1. Interestingly, the linear scaling between exciton binding energy and quasiparticle band gap for ABC QLs exhibits an unexpected deviation with the 1/4 law. In addition, KAgSe, KAgS, RbAgSe, and RbAgTe show outstanding power energy conversion efficiencies of up to 21.5%, suggesting that they are good potential donor materials. Our results provide many potential candidates for applications in photoelectric materials, which may be realized in experiments due to the possible exfoliation from their parent compounds.
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Screening unique two-dimensional (2D) materials with high mobility and applicable band gaps is motivated by not only the interest in basic science but also the practical applications for photoelectric materials. In this work, we have systematically studied a new family of 2D ternary quintuple layers (QLs), named ABC (A = Na, K, and Rb; B = Cu, Ag, and Au; C = S, Se, and Te). Our results indicate that the QLs of KCuTe, KAgS, KAgSe, KAuTe, RbCuTe, RbAgSe, and RbAgTe host direct band gaps. Moreover, KCuTe, RbCuTe, and RbAgTe QLs show extremely high mobilities of ∼104 cm2 V–1 s–1. Interestingly, the linear scaling between exciton binding energy and quasiparticle band gap for ABC QLs exhibits an unexpected deviation with the 1/4 law. In addition, KAgSe, KAgS, RbAgSe, and RbAgTe show outstanding power energy conversion efficiencies of up to 21.5%, suggesting that they are good potential donor materials. Our results provide many potential candidates for applications in photoelectric materials, which may be realized in experiments due to the possible exfoliation from their parent compounds.
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结果 (简体中文) 2:[复制]
复制成功!
筛选具有高迁移率和适用带隙的独特二维(2D)材料不仅是因为对基础科学的兴趣,也是因为光电材料的实际应用。在这项工作中,我们系统地研究了一个新的二维三元五重层家族,命名为ABC(a=Na、K和Rb;B=Cu、Ag和Au;C=S、Se和Te)。我们的结果表明,KCuTe、KAgS、KAgSe、KAuTe,RbCuTe、RbAgSe和RbAgTe的QLs具有直接带隙。此外,KCuTe、RbCuTe和RbAgTe QLs显示出约104 cm2 V–1 s–1的极高迁移率。有趣的是,ABC-QLs的激子结合能和准粒子带隙之间的线性标度表现出与1/4定律的意外偏差。此外,KAgSe、KAgS、RbAgSe和RbAgTe显示出高达21.5%的卓越功率能量转换效率,表明它们是良好的潜在供体材料。我们的结果为光电材料的应用提供了许多潜在的候选者,由于其母体化合物可能会剥落,这可能在实验中实现。
正在翻译中..
结果 (简体中文) 3:[复制]
复制成功!
筛选具有高迁移率和适用带隙的独特二维(2D)材料不仅受到基础科学兴趣的推动,而且受到光电材料实际应用的推动。在本工作中,我们系统地研究了一个新的2D三元五层(QLs)族,命名为ABC (A = Na,K,Rb;B =铜、银和金;C = S、Se和Te)。我们的结果表明KCuTe、KAgS、KAgSe、KAuTe、RbCuTe、RbAgSe和RbAgTe的量子阱具有直接带隙。此外,KCuTe、RbCuTe和RbAgTe QLs显示出极高的迁移率,为104 cm2 V–1s–1。有趣的是,激子结合能和准粒子带隙之间的线性标度与1/4定律出现了意想不到的偏差。此外,KAgSe、KAgS、RbAgSe和RbAgTe表现出高达21.5%的出色电能转换效率,表明它们是良好的潜在供体材料。我们的结果为光电材料的应用提供了许多潜在的候选物,由于可能从它们的母体化合物剥离,这可能在实验中实现。
正在翻译中..
 
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