상세 보기
- Jang, Jeong-Ho;
- Bae, Ji Kwon;
- Kwun, Hyung Jun;
- Lee, Sang Hoon;
- Kim, Youngho;
- ... Lee, Jae-Hyun;
- 외 2명
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0초록
Here, we introduce Bi2SiO5(BSO), an intrinsically UV-B selective oxide with a 4.17 eV bandgap (297 nm), and present a cost-effective, scalable conversion approach for its synthesis. A single-step reaction between Bi2O3 vapor and SiO2 in fused silica converts the glass directly into crystalline BSO. To enable scalable integration, SiO2 is first patterned on Al2O3; the same conversion then proceeds exclusively within those patterns, yielding pixel-defined BSO films with sharply defined edges. Devices fabricated on these films exhibit a UV-B photoresponse more than 360-fold stronger than their UV-A response, evidencing strong spectral selectivity. Owing to the clean selective-area conversion, arrays of devices show a relative standard deviation in responsivity of good 5.3%, underlining excellent uniformity and reproducibility. The synergy of intrinsic UV-B selectivity, high material quality, and patternable growth positions BSO as a compelling platform for next-generation UV-B photodetectors and integrated optical sensor arrays.
키워드
- 제목
- Scalable Selective Growth of Bi2SiO5 for Uniform UV-B Photodetector Arrays
- 저자
- Jang, Jeong-Ho; Bae, Ji Kwon; Kwun, Hyung Jun; Lee, Sang Hoon; Kim, Youngho; Lee, Jae-Hyun; Jang, Ho Won; Yu, Hak Ki
- 발행일
- 2026-01-28
- 유형
- Article
- 권
- 18
- 호
- 3
- 페이지
- 5507 ~ 5518