Analysis of Scintillation Materials for Nuclear Medicine on the Basis of Patent Analytics

IF 0.6 Q3 MULTIDISCIPLINARY SCIENCES
Yu. DANYLENKO, T. NEPOKUPNA
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引用次数: 0

Abstract

Introduction. It is known that the object of intellectual property is an important source of technological information that can be used for assessing the industry development and the prospects for further study of scintillation materials, finding competitors, etc.Problem Statement. Today, nuclear medicine is very popular all over the world. Scintillation crystals are one of the main materials used in modern diagnostic devices. Therefore, the development of highly efficient scintillation materials for medical imaging systems is a relevant task.Purpose. The patent activity analysis for nuclear medicine is purposed to find out the dynamics of patenting scintillation materials used in this field for the period 1992—2022 as well as to determine the most priority and important research directions.Material and Methods. The patent search has been made with the help of special search programs: information database Lens.org and specialized database Inventions (Utility models) in Ukraine. While doing the research, we used the methods of analysis, systematization, and comparison.Results. Assessing the development of scintillation materials for nuclear medicine based on patent analysis allows us to analyse the available scintillation materials for this industry, to find new materials for it, and to identify more promising directions for its development.Conclusions. American companies have the largest number of patents on scintillation materials used in nuclear medicine, but in the Ukrainian market, there are similar patents. The main scintillators for nuclear medicine are BGO, CdWO4, ZnWO4, LSO, LYSO, GSO, NaI, CsI, BaF2, LaBr3, LuAP, LuAG, GGAG, LGSO, CaF2: Eu, ZnSe : Te, Gd2O2S : Tb or mixed scintillators such as NaBaLaBr6, Cs2NaLaCl6, etc. in the design of pixels. They are used as bulk crystals, ceramics, films and others. There appear patents on new materials, such as MAPbBr3, CeBr3+x, Tl2LiLaBr6, the properties and prospects for application of which have been currently being studied.
基于专利分析的核医学闪烁材料分析
介绍。众所周知,知识产权对象是技术信息的重要来源,可用于评估行业发展和进一步研究闪烁材料的前景,寻找竞争对手等。今天,核医学在全世界都很受欢迎。闪烁晶体是现代诊断设备中使用的主要材料之一。因此,开发用于医学成像系统的高效闪烁材料是一项相关的任务。核医学专利活动分析旨在了解1992-2022年核医学领域闪烁材料专利活动动态,确定最优先、最重要的研究方向。材料和方法。专利检索是通过专门的检索程序进行的:乌克兰信息数据库Lens.org和专门的数据库发明(实用新型)。在研究过程中,我们采用了分析、系统化、对比的方法。基于专利分析对核医学用闪烁材料的发展进行评估,使我们能够分析该行业可用的闪烁材料,为其寻找新的材料,并确定更有前景的发展方向。美国公司在核医学中使用的闪烁材料方面拥有最多的专利,但在乌克兰市场上,也有类似的专利。核医学的主要闪烁体是BGO、CdWO4、ZnWO4、LSO、LYSO、GSO、NaI、CsI、BaF2、LaBr3、LuAP、LuAG、GGAG、LGSO、CaF2: Eu、ZnSe: Te、Gd2O2S: Tb或混合闪烁体如NaBaLaBr6、Cs2NaLaCl6等。它们被用作块状晶体、陶瓷、薄膜等。已经出现了MAPbBr3、CeBr3+x、Tl2LiLaBr6等新材料的专利,目前正在研究这些新材料的性能和应用前景。
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来源期刊
Science and innovation
Science and innovation MULTIDISCIPLINARY SCIENCES-
CiteScore
1.10
自引率
0.00%
发文量
55
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