Upconversion Fluorescent Materials Studies to Lead the Development of Near Infrared Biophotonics

K. Soga
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Abstract

: Studies on up-conversion (UC) fluorescent materials are closely related to the emergence of materials that exhibit UC fluorescence and the development of their synthetic processes, and is also an opportunity to develop biophotonics using near-infrared light as excitation light, which has been at-tracting attention in recent years. The basis of the design of a fluorescent material is how to emit the given excitation energy as light without converting it into heat. The establishment of a method for synthesizing fluoride nanoparticles had a great influence on the development of UC fluorescent materials for biophotonics, and once a stable method for synthesizing nanoparticles is established, the design and synthesis of organic-inorganic composites using them had broken out. An important guideline in this case is again how to avoid the heat generation. It was inevitable to consider the effect of organic molecules, which have not been discussed so far, on the thermal relaxation of the excited electrons of rare earth ions in ceramic nanoparticles. This paper introduces the development of biophotonics, which originated from the studies on UC fluorescent materials, and presents the concept of the influence of organic molecular systems on electrons of rare earth ions in inorganic nanoparticles.
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上转换荧光材料研究引领近红外生物光子学的发展
上转换(UC)荧光材料的研究与UC荧光材料的出现及其合成工艺的发展密切相关,也是利用近红外光作为激发光发展生物光子学的契机,近年来备受关注。设计荧光材料的基础是如何以光的形式发射给定的激发能,而不将其转化为热。氟纳米颗粒合成方法的建立对UC生物光子学荧光材料的发展产生了很大的影响,一旦建立了稳定的纳米颗粒合成方法,利用它们设计和合成有机-无机复合材料的工作就开始了。在这种情况下,一个重要的指导方针是如何避免产生热量。有机分子对稀土离子在陶瓷纳米颗粒中激发电子的热弛豫的影响,目前尚未讨论。本文介绍了生物光子学的发展,它起源于UC荧光材料的研究,并提出了有机分子体系对无机纳米粒子中稀土离子电子影响的概念。
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