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Paper detail

Where to find lossless metals?

Hypothetical metals having optical absorption losses as low as those of the transparent insulators, if found, could revolutionize optoelectronics. We perform the first high-throughput search for lossless metals among all known inorganic materials in the databases of over 100,000 entries. The 381 candidates are identified -- having well-isolated partially-filled bands -- and are analyzed by defining the figures of merit and classifying their real-space conductive connectivity. The existing experimental evidence of most candidates being insulating, instead of conducting, is due to the limitation of current density functional theory in predicting narrow-band metals that are unstable against magnetism, structural distortion, or electron-electron interactions. We propose future research directions including conductive oxides, intercalating layered materials, and compressing these false-metal candidates under high pressures into eventual lossless metals.

preprint2022arXivOpen access
Xiaolei HuZhengran WuZhilin LiQiunan XuKun ChenKui JinHongming WengLing Lu
cond-mat.mtrl-sciphysics.optics
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Xiaolei HuZhengran WuZhilin LiQiunan XuKun ChenKui JinHongming WengLing Lu

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