Supramolecular Assembly of Organic Cu(I) Halides with Efficient Broad Emission for Real-Time Dynamic High-Resolution White Light and X-Ray Image Fusion and 3D Image Reconstruction

IF 9.8 1区物理与天体物理 Q1 OPTICS

Laser & Photonics Reviews Pub Date : 2025-02-12 DOI:10.1002/lpor.202401773

Hui Peng, Shengji Yuan, Qilin Wei, Linghang Kong, Wenjie Huang, Fei Wang, Jialong Zhao, Bingsuo Zou

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引用次数: 0

Abstract

0D organic Cu(I) halides have gained much attention for their fascinating optical properties. However, the narrow excitation in the UV region, strong afterglow, and poor stability severely limit their applications. Herein, three 0D organic Cu(I) halides of [Ba₂(18-crown-6)₂]Cu₄Cl₈·H₃PO₃·6H₂O (Compound-Cl), [Ba(18-crown-6)₂]Cu₄Br₆·CH₃OH·H₂O (Compound-Br), and [Ba(18-crown-6)₂]Cu₄I₆·H₃PO₂·H₂O (Compound-I) are synthesized via supramolecular assembly. Compared to Compound-Cl with poor stability and Compound-Br with feeble photoluminescence quantum yield (PLQY), Compound-I exhibits broadband blue light excitation characteristics, excellent stability, and efficient yellow emission with a PLQY of 99.4%. A high-performance single-component white light emitting diode is fabricated by coating Compound-I powders on a 460 nm chip, which shows ultra-high luminous efficiency of 106 lm W⁻¹. Under X-ray irradiation, Compound-I has a high light yield of 87 100 photons MeV⁻¹ and a low detection limit of 45.9 nG_airy s⁻¹. Moreover, the Compound-I scintillation screen is made using a cold pressing method, which shows a spatial resolution of 20.6 lp mm⁻¹. Based on the remarkable optical properties and short decay lifetime of 1.9 µs of Compound-I, the 3D image reconstruction of screws wrapped in capsule by combining real-time dynamic white light and X-ray image fusion, as well as multi-angle imaging is successfully demonstrated.

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来源期刊

Laser & Photonics Reviews 物理-光学

CiteScore

14.20

自引率

5.50%

发文量

314

审稿时长

2 months

期刊介绍： Laser & Photonics Reviews is a reputable journal that publishes high-quality Reviews, original Research Articles, and Perspectives in the field of photonics and optics. It covers both theoretical and experimental aspects, including recent groundbreaking research, specific advancements, and innovative applications. As evidence of its impact and recognition, Laser & Photonics Reviews boasts a remarkable 2022 Impact Factor of 11.0, according to the Journal Citation Reports from Clarivate Analytics (2023). Moreover, it holds impressive rankings in the InCites Journal Citation Reports: in 2021, it was ranked 6th out of 101 in the field of Optics, 15th out of 161 in Applied Physics, and 12th out of 69 in Condensed Matter Physics. The journal uses the ISSN numbers 1863-8880 for print and 1863-8899 for online publications.