Cerium-Sensitized Highly Emissive 0D Cesium Cerium Terbium Chloride Alloy Nanocrystals for White Light Emissionopen access
- Authors
- Samanta, Tuhin; Yadav, Amar Nath; Han, Joo Hyeong; Kim, Minji; Jang, Sung Woo; Viswanath, Noolu Srinivasa Manikanta; Im, Won Bin
- Issue Date
- Aug-2024
- Publisher
- John Wiley and Sons Inc.
- Keywords
- 0D metal halides; energy transfer; lanthanides; sensitization; thermal stability
- Citation
- Advanced Optical Materials, v.12, no.23, pp 1 - 8
- Pages
- 8
- Indexed
- SCIE
SCOPUS
- Journal Title
- Advanced Optical Materials
- Volume
- 12
- Number
- 23
- Start Page
- 1
- End Page
- 8
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/211448
- DOI
- 10.1002/adom.202400909
- ISSN
- 2195-1071
2195-1071
- Abstract
- Recently, lanthanide-based 0D metal halides have garnered considerable attention owing to their applications in light–emitting diodes (LEDs), X-ray imaging, and photodetectors. Among these materials, 0D Cs3TbCl6 (CTC) nanocrystals (NCs) have demonstrated promising performance in X-ray imaging and light-emitting diodes. However, a considerable drawback of CTC NCs is their limited absorption coefficient in the UV-A region (315–380 nm). To address this limitation and enhance the absorption coefficient in the UV-A region, Ce3+ is incorporated into CTC NCs—advantageous owing to the high absorption coefficient of Ce3+ in the UV-A region, attributed to—4f-5d orbital coupling. In addition, Ce3+ ions sensitize the luminescence of CTC NCs and enhance the photoluminescence quantum yield from 75% to 87%. Energy transfer from Ce3+ to Tb3+ is investigated at different dopant ratios. Furthermore, Cs3CeTbCl6 (CCTC) NCs have been utilized in white LED devices. Understanding such competitive energy transfer in lanthanide-based perovskite-inspired metal halides will facilitate the development of novel luminescent metal halides for lighting applications.
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