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市场调查报告书
商品编码
1467776
2024-2032 年闪烁体市场报告(按材料成分、最终产品、应用和地区划分)Scintillator Market Report by Composition of Material, End Product, Application, and Region 2024-2032 |
IMARC Group年全球闪烁体市场规模达5.659亿美元。
闪烁体是指能够吸收高能量光子和质子、电子、中子等入射粒子的材料。常见的闪烁体材料包括无机和有机晶体、有机液体、稀有气体和闪烁气体。它们有助于将收集到的能量转换为可见光或紫外线范围的光子,从而确保光电倍增管和光电二极体的检测。除此之外,闪烁体有助于有效地决定入射辐射的能量和时间。与其他类型的辐射探测器相比,这些材料对沉积能量更敏感,反应时间更快,构造和操作更简单、可靠且经济高效。因此,它们在核电厂、医学影像、製造业、高能量粒子实验和国家安全等领域有着广泛的应用。
在医疗保健行业,闪烁体用于检测和分析心血管和神经系统疾病。随着这些疾病的发生越来越多,全球对闪烁体的需求也不断增加。此外,世界各国政府正在对医疗设备的使用实施严格的法规,这反过来又迫使医院和医疗机构采用技术先进的闪烁和辐射探测器。此外,这些材料被世界各地的安全和国防组织用来加强国土安全并避免人员伤亡。例如,美国国土安全部(DHS)一直在探索性研究和小型企业创新研究计画下支持固体有机闪烁体的开发,以检测放射性物质和预防放射性威胁。
The global scintillator market size reached US$ 565.9 Million in 2023. Looking forward, IMARC Group expects the market to reach US$ 828.0 Million by 2032, exhibiting a growth rate (CAGR) of 4.2% during 2024-2032.
Scintillators refer to materials which can absorb high-energy photons and incident particles such as protons, electrons and neutrons. The common scintillator materials include inorganic and organic crystals, organic liquids, and noble and scintillating gases. They assist in converting the gathered energy into visible or ultraviolet range of photons which ensures detection by photomultipliers and photodiodes. Besides this, scintillators help in efficiently determining the energy and time of incident radiation. When compared to other types of radiation detectors, these materials are more sensitive to deposited energy and have a faster response time with simpler, reliable and cost-efficient construction and operation. As a result, they find vast applications in nuclear plants, medical imaging, manufacturing industries, high-energy particle experiments and national security.
In the healthcare industry, scintillators are used to detect and analyze cardiovascular and neurological diseases. With the increasing occurrence of these ailments, the demand for scintillators is increasing across the globe. Moreover, the governments across the globe are implementing stringent regulations on the use of medical devices which, in turn, is pressurizing hospitals and healthcare organizations to adopt technologically advanced scintillation and radiation detectors. Additionaly, these materials are used by security and defense organizations worldwide to tighten homeland security and avert human loss. For instance, the Department of Homeland Security (DHS) in the United States has been supporting the development of solid organic scintillators under the Exploratory Research and Small Business Innovative Research programs for detecting radioactive substances and preventing radiological threats.
IMARC Group provides an analysis of the key trends in each sub-segment of the global scintillator market report, along with forecasts at the global and regional level from 2024-2032. Our report has categorized the market based on composition of material, end product and application.
In-Organic Scintillators
Alkali Halides
Oxide Based Scintillators
Others
Organic Scintillators
Single Crystal
Liquid Scintillators
Plastic Scintillators
Personal or Pocket Size Instruments
Hand-Held Instruments
Fixed, Installed, and Automatic Instruments
Healthcare
Nuclear Power Plants
Manufacturing Industries
Homeland Security and Defense
Others
North America
Europe
Asia Pacific
Middle East and Africa
Latin America
The report has also analysed the competitive landscape of the market with some of the key players being Scintacor Ltd., Hamamatsu Photonics K.K., Proterial, Ltd. (Hitachi Ltd.), Ludlum Measurements Inc., Mirion Technologies Inc., Radiation Monitoring Devices Inc. (Dynasil Corporation of America), Rexon Components, Inc., Zecotek Photonics Inc., etc.