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- 자료유형
- 학술대회자료
- 저자정보
- 발행연도
- 2021.12
- 수록면
- 101 - 101 (1page)
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Single aruon compounds, such as oxides, nitrides, or fluorides have contributed largely to our modern technological development. These compounds have been investigated extensively during decades. In contrast, mixed anions compounds, i.e., compounds that contain multiple anions in a single phase, such as oxyhydrides, oxynitrides or oxyfluorides, have been barely explored. Consequently, mixed anion compounds can potentially present new or improved functional properties awaiting to be discovered. Consider for example the phenomenon of photochromism in rare earth oxyhydrides. Traditional photochromic materials include organic pigments and inorganic compounds such as silver halides, each with their particular disadvantages: whereas silver halide glass has to be produced in bulk by a method not compatible with the usual float glass fabrication process, organic dyes are prone to fatigue and chemical instability. In contrast, photochromic rare earth oxyhydrides are inorganic compounds that promising longer durability than organic pigments which can be easily fabricated by magnetron sputtering at room temperature onto, e.g., conventional float glass or plastic substrates. In this way, oxyhydrides will broaden the applicability rage of traditional photochromic compounds. The general consensus from previous studies on these materials is that ... 전체 초록 보기
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