掺杂β-二酮酸铕络合物的荧光正畸键合材料的光学和色度评价

Q4 Engineering
Aiko Matsumoto, Shuichi Yamagata, S. Abe, T. Akasaka, Y. Yoshida, J. Iida
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引用次数: 2

摘要

多托架矫治器是矫正上、下牙错最常用和最有效的方法之一。多托架矫治器由一组托架和金属丝连接在上、下牙上。正畸托架通常使用甲基丙烯酸酯或二甲基丙烯酸酯树脂粘合在牙齿(牙釉质)的酸蚀表面上。在完成主动治疗后,应尽可能在对牙釉质表面造成最小医源性损伤的情况下将托槽和残留的粘接材料移除。我们一直在积极尝试将荧光成像引入正畸粘接剂中,以尽量减少这种损害,并且使用不同种类的铕掺杂纳米荧光粉取得了一些积极的结果[1,2]。由于镧系配合物具有特殊的发光特性,人们对其进行了大量详细的研究[3-6]。铕是最有用的镧系元素之一,因为它的发射带很窄,斯托克斯位移大,衰变时间长[4,7]。此外,还研究了掺杂β-二酮酸铕络合物的荧光正畸键合材料的最大激发波光学和色度评价
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optical and Chromatic Evaluation of Fluorescent Orthodontic Bonding Materials Doped with a Europium β-diketonate Complex
3 Introduction Orthodontic treatment using a multibracket appliance that consists of a set of brackets and wires attached to both the upper and lower teeth is one of the most popular and effective methods to correct malocclusions. Orthodontic brackets are usually bonded to the acid-etched surfaces of teeth (enamel) using methacrylate or dimethacrylate resins. The brackets and the residual bonding materials should be removed at the lowest possible iatrogenic damage to enamel surfaces after completing the active treatment. We have been actively attempting to introduce fluorescent imaging into orthodontic adhesives to minimize such damages, and have had some positive outcomes using different kinds of europium-doped nanophosphors [1, 2]. A large number of detailed studies have been performed on lanthanide complexes because of their particular luminescent properties [3–6]. Europium is one of the most useful lanthanides because of its very narrow emission band, large Stokes shift, and long decay time [4,7]. Moreover, the maximum excitation waveOptical and Chromatic Evaluation of Fluorescent Orthodontic Bonding Materials Doped with a Europium β-diketonate Complex
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来源期刊
Nano Biomedicine
Nano Biomedicine Engineering-Biomedical Engineering
CiteScore
0.30
自引率
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