X-ray excited optical luminescence at Carnaúba, the Sirius X-ray nanoprobe beamline

Q2 Engineering
Verônica C. Teixeira , Joelson C. Silva , Francisco C.M. Silva , Rodrigo Szostak , Maria Gabriella D. Guaita , Leonardo M. Kofukuda , Antonio C. Piccino Neto , Anna P.S. Sotero , Itamar T. Neckel , Carlos A. Pérez , Douglas Galante , Hélio C.N. Tolentino
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引用次数: 0

Abstract

This work presents the developments and initial results obtained using X-ray excited optical luminescence (XEOL) at the Carnaúba, the nanoprobe beamline from Sirius, the Brazilian 4th generation synchrotron source. XEOL is a highly important tool to study luminescence mechanisms and identify optical channels in various types of materials under X-ray irradiation. Using this capability combined with a nanoprobe, one can probe optical channels, for example, in heterogenous materials, and directly correlate them with chemical composition, oxidizing state of absorbers, structure and/or morphology in simultaneous studies. Carnaúba is composed by two experimental station and at the Tarumã station, the first entering in operation, it has been possible to investigate XEOL in the integrated and emission modes, and 2D images in hyperspectral mapping with submicrometric resolution. Herein, it is showed some examples of studies combining excitation energy, emission wavelength and emission intensity in 3D spectra, 2D imaging, and XEOL emission on the study of very sensitive samples that can be easily damaged by the probe. This work also highlights some of the upcoming developments that include the time-resolved and in situ experiments, this last one using microfluidic cells, and the improvement of the covered emission wavelength up to 1700 nm, which will open new opportunities for studying optical materials.

天狼星 X 射线纳米探针光束线 Carnaúba 的 X 射线激发光学发光
这项工作介绍了巴西第四代同步辐射光源天狼星(Sirius)纳米探针光束线卡尔努瓦(Carnaúba)使用 X 射线激发光学发光(XEOL)所取得的发展和初步成果。在 X 射线照射下,XEOL 是研究发光机制和识别各类材料中光学通道的重要工具。利用这种能力并结合纳米探针,可以探测异质材料中的光学通道,并在同步研究中直接将其与化学成分、吸收剂的氧化状态、结构和/或形态联系起来。卡尔努巴有两个实验站,其中塔鲁芒站是第一个投入运行的实验站,该站能够以综合和发射模式研究 XEOL,并以亚微米分辨率研究高光谱制图中的二维图像。这里展示了一些结合三维光谱中的激发能量、发射波长和发射强度、二维成像和 XEOL 发射的研究实例,用于研究探针容易损坏的非常敏感的样品。这项工作还强调了一些即将进行的开发,包括时间分辨和原位实验(最后一项实验使用微流控细胞),以及将覆盖的发射波长提高到 1700 nm,这将为研究光学材料带来新的机遇。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Optical Materials: X
Optical Materials: X Engineering-Electrical and Electronic Engineering
CiteScore
3.30
自引率
0.00%
发文量
73
审稿时长
91 days
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