市场调查报告书
商品编码
1114953
全球电子显微镜市场规模、份额、行业趋势分析报告:按类型(扫描类型、传输类型)、按应用(半导体、生命科学、材料科学)、按最终用户、按地区、展望和预测,2022-2028年Global Electron Microscopy Market Size, Share & Industry Trends Analysis Report By Type (Scanning and Transmission), By Application (Semiconductors, Life Sciences, and Material Sciences), By End User, By Regional Outlook and Forecast, 2022 - 2028 |
预计到 2028 年,全球电子显微镜市场规模将达到 52 亿美元,在预测期内以 7.8% 的复合年增长率增长。
由于初级电子束与靠近表面的原子相互作用,光栅中的每个点都会发射粒子。它还发射低能二次电子、高能背散射电子、X射线和光子。这些由各种探测器收集,阴极射线管上每个相似位置的亮度可以从它们的相对数量计算出来。最终图像是样品的放大图像,因为样品上的光栅尺寸远小于 CRT 显示屏。正确设置辅助检测器、反向散射检测器和 X 射线检测器,SEM 可以研究样品表面形态、原子组成、免疫标记分布等。
COVID-19 影响分析
COVID-19 的爆发影响了全世界的贸易和经济活动。预计汽车和航空航天行业的小型软件行业将受到影响,而医疗保健和半导体行业的小型软件市场预计将增长。全球多个国家已宣布全州范围内的封锁和各行业的临时关闭,这对生产和製造业产生了重大影响。贸易限制加剧了供需不匹配。 COVID-19 流行病将以多种方式影响为电子显微镜市场製造半导体的公司,无论是现在还是未来。
市场增长因素
改进显微镜技术
数字化、超分辨率、活细胞成像、高通量技术等都是显微镜技术发展的例子。这些进步有助于降低产品和检验成本。最近,已经开发出各种显微镜,包括扩展显微镜、扫描氦显微镜(SHeM)、多视图显微镜和集成显微镜系统。电子显微镜和样品製备的最新发展是数字显微镜。数字图像处理提供了更好的图像分辨率和准确性,可以更好地观察样品并减少图像失真。此外,玻片扫描装置的完成,也加速了数码显微镜的普及。
增加的放大倍率和景深
可见光的最短波长约为 0.4 微米,是科学家用光学显微镜所能看到的最大波长。任何比它小的东西都不会反射光,也不能用光学仪器看到。原子、分子、病毒颗粒等。电子显微镜可以对这些物体进行成像,因为它们不依赖于反射的可见光。电子显微镜用高能电子照射样品,并将电子在样品反射或偏转时的行为成像作为信息。
市场障碍
专业人才短缺
标准复合显微镜易于物理学家和研究人员使用,但高级显微镜需要训练有素的人员。例如,广泛应用于纳米技术的原子力显微镜,在原子和分子水平上研究化学和生物化合物的性质,让物理学家和工程师研究表面物理和表面分析,这需要在该领域具有深厚的跨学科知识。 .电子显微镜是一项精密技术,会受到外部磁场和振动的极大破坏。电子显微镜必须由经验丰富的人员在专用空间内始终保持良好的工作状态。
按类型划分的前景
电子显微镜市场按类型分为扫描和透射类型。扫描在 2021 年占据了电子显微镜市场的最高收入份额。这是因为扫描电子显微镜 (SEM) 利用聚焦的高能电子流在固体样品表面产生各种信号。 SEM 可放大 100,000 倍。可以获得具有深景深、高分辨率(低于 TEM 的分辨率)的 3D 图像,以及物体的形状、形态和组成信息。
应用前景
电子显微镜市场按应用细分为半导体、生命科学、材料科学等。 2021 年,生命科学部门在电子显微镜市场的收入份额相当可观。生物标本是生命科学电子显微镜的主要关注点。这也适用于药物开发、病毒检测、食品和饮料业务检测等。由于高技术能力,医学中的分子生物学和细胞生物学学科取得了长足的进步。
最终用户展望
电子显微镜市场按最终用户细分为工业、学术和研究机构等。 2021 年,工业部门在电子显微镜市场的收入份额最高。製药和生物技术、半导体和电子、纺织、采矿和材料科学以及自然资源(石油和天然气)行业包含在行业细分预览中。电子行业在开发和生产半导体和其他电子产品时使用电子显微镜进行高分辨率成像。
地区概览
对北美、欧洲、亚太地区和 LAMEA 地区的电子显微镜市场进行了分析。 2021 年,亚太地区将在电子显微镜市场获得可观的收入份额。亚太地区将增加显微镜研究的研发资金,扩大相关显微镜在生命科学和纳米技术研究中的应用,建立显微镜研究合作中心,并增加原始设备製造商的原材料和熟练劳动力的可用性。作为价格。
市场参与者采取的主要策略是产品发布。基于 Cardinal Matrix 中的分析,赛默飞世尔科技是电子显微镜市场的先驱。 Advantest Corporation、Carl Zeiss AG 和 Bruker Corporation 等公司是电子显微镜市场的主要创新者。
The Global Electron Microscopy Market size is expected to reach $5.2 billion by 2028, rising at a market growth of 7.8% CAGR during the forecast period.
Electron microscopy (EM) is a technique for taking high-resolution pictures of both biological and non-biological material. It is employed in biomedical research to look at the precise structure of organelles, macromolecular complexes, tissues, cells, and cells. The utilization of electrons as the source of illuminating radiation, which has extremely short wavelengths, contributes to the great resolution of EM pictures. To address particular issues, electron microscopy is combined with a range of auxiliary methods (such as thin sectioning, immuno-labeling, and negative staining.
For traditional scanning electron microscopy to work, secondary electrons must be emitted from a specimen's surface. A scanning electron microscope is the equivalent of a stereo light microscope in the EM because of its superior depth of focus. It offers intricate pictures of the surfaces of cells and entire organisms, which TEM cannot do. Additionally, it can be utilized for process control, particle size analysis, and counting. Because the image is created by rastering a focused electron beam across the specimen's surface, it is known as a scanning electron microscope.
Each point in the raster emits particles as a result of the primary electron beam's interaction with atoms close to the surface low energy secondary electrons, high-energy backscatter electrons, X-rays, and even photons. These can be gathered using a variety of detectors, and the brightness at each analogous position on a cathode ray tube can be calculated from their relative number. The final image is an enlarged image of the specimen since the size of the raster at the specimen is significantly smaller than the viewing screen of the CRT. SEMs that are properly set up (with secondary, backscatter, and X-ray detectors) can be used to examine specimen topography, atomic composition, as well as, the distribution of immuno-labels on the specimen's surface.
COVID-19 Impact Analysis
Trade and economic activity have been impacted by the COVID-19 outbreak everywhere in the world. While the small software industry for the automotive and aerospace industries is expected to suffer, the tiny software market for the healthcare and semiconductor industries is expected to grow. Production and manufacturing have been significantly impacted as a result of several countries around the world declaring statewide lockdowns and temporary closures of various industries. Trade restrictions have made the demand-supply mismatch worse. The COVID-19 pandemic will affect companies that make semiconductors for the electron microscope market in a variety of ways, both now and in the future.
Market Growth Factors
Improvements In Microscopy Technology
Digitization, super-resolution, live-cell imaging, and high throughput techniques are examples of technological developments in microscopy. These advancements contribute to lower product and testing costs. A number of microscopes have developed recently, including expansion microscopes, scanning helium microscopes (SHeM), multi-view microscopes, and integrated microscopy systems. Among the most recent developments in electron microscopy and sample preparation is digital microscopy. Better sample viewing and fewer distorted images are produced by digital imaging's greater image resolution and precision. The creation of complete slide scanning equipment has accelerated the adoption of digital microscopy.
Magnification And Depth Of Field Are Increased
The shortest wavelength of visible light, or about 0.4 micrometers, is the largest item that a scientist can view through a light microscope. Any object smaller than that in diameter won't reflect light and won't be seen by light-based equipment. These tiny items include individual atoms, molecules, and virus particles, to name a few. Because they do not rely on light from the visible spectrum to be reflected by them, electron microscopes may produce images of these objects. Instead, the sample being investigated is bombarded with high-energy electrons, and an image is created using information about how these electrons behaved as they were reflected and deflected by the sample.
Market Restraining Factors
Lack Of Professional Expertise
Standard compound microscopes are simple for physicists and lab professionals to use, but as sophisticated microscopes are developed, trained personnel are needed. For instance, to study the characterization of chemical and biological compounds at the atomic or molecular level, atomic force scanning tunneling microscopes widely used in nanotechnology require physicists or technicians to have in-depth interdisciplinary knowledge in the area of surface physics and surface analyses. A particularly sensitive piece of technology, an electron microscope can be severely harmed by external magnetic fields and vibrations. It must be kept in working order by experienced personnel in a dedicated space.
Type Outlook
On the basis of type, the Electron Microscopy Market is divided into Scanning and Transmission. The scanning segment acquired the highest revenue share in the electron microscopy market in 2021. it is because a focused stream of high-energy electrons is utilized by scanning electron microscopes (SEMs) to produce a range of signals at the surface of solid samples. Up to 100,000x of magnification is possible with SEMs. These microscopes create 3-dimensional images with a high depth of field, high resolution (less resolution than TEMs), and information on the topography, morphology, and composition of objects.
Application Outlook
Based on the Application, the Electron Microscopy Market is classified into Semiconductors, Life Sciences, Material Sciences & Others. The life sciences segment recorded a substantial revenue share in the electron microscopy market in 2021. Biological samples are the primary focus of life science electron microscopy. This also applies to medicine development, viral testing, and testing for the food and beverage business. The subject of molecular and cellular biology in medicine has made strides because of high technology.
End-User Outlook
By End-user, the Electron Microscopy Market is bifurcated into Industries, Academic & Research Institutes, and Others. The industries segment garnered the highest revenue share in the electron microscopy market in 2021. It is because pharmaceutical and biotechnology, semiconductor and electronics, textiles, mining, and material science, and natural resources (oil and gas) industries are all included in the industries segment's preview. When developing and producing semiconductors and other types of electronics, the electronics industry uses electron microscopes for high-resolution imaging.
Regional Outlook
Region-wise, the Electron Microscopy Market is analyzed across North America, Europe, Asia Pacific, and LAMEA. The Asia pacific region acquired a promising revenue share in the electron microscopy market in 2021. The Asia Pacific is fueled due to the factors such as the rising R&D funding for microscopy research, expanding use of correlative microscopy in life science and nanotechnology research, the establishment of collaboration centers for microscopy research, and the affordability of raw materials and skilled labor for OEMs.
The major strategies followed by the market participants are Product Launches. Based on the Analysis presented in the Cardinal matrix; Thermo Fisher Scientific, Inc. is the forerunners in the Electron Microscopy Market. Companies such as Advantest Corporation, Carl Zeiss AG, Bruker Corporation are some of the key innovators in Electron Microscopy Market.
The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include Bruker Corporation, Carl Zeiss AG, Thermo Fisher Scientific, Inc., JEOL Ltd., Nikon Instruments, Inc. (Nikon Corporation), Hitachi High-Technologies Corporation (Hitachi Ltd.), Oxford Instruments plc, TESCAN ORSAY HOLDING, a.s., Delong Instruments AS, and Advantest Corporation.
Recent Strategies Deployed in Electron Microscopy Market
Partnerships, Collaborations and Agreements:
Jun-2022: ZEISS Microscopy came into a partnership with LabCentral, a non-profit organization founded as a launchpad for biotech start-ups. Together, the companies aimed to deliver image analysis and innovative microscopy resources to high-potential life science investigators in a two-year incubator program.
May-2022: Bruker Corporation came into a partnership with TOFWERK, A Global Leader in TOF Mass Spectrometry. With this partnership, the companies aimed to deliver ultra-sensitive, high-speed spread and industrial analytical solutions, in convergence with a Bruker minority investment in TOFWERK. Moreover, the companies offer a basis for technology collaborations to promote instrument abilities and for the growth of novel analytical applications where ultra-sensitivity and high-speed matter.
Product Launches and Product Expansions:
Jun-2022: Bruker Corporation launched XFlash 7 detector series for its QUANTAXTM energy dispersive X-ray spectrometer systems. The new XFlash 7 detector series allow a chemical breakdown of material models in electron microscopes with maximum sensitivity, speed, and dependability.
Apr-2022: Advantest Corporation launched the Euclid, a new 3D image observer for its Hadatomo series of photoacoustic microscopes. The new Euclid can portray 3D images by superimposing data on the melanin in the vascular network, the skin, and the skin structure, as estimated by a Hadatomo tool, and can also efficiently form tomographic pictures. Additionally, picture production requirements can be imported as a composition file, allowing easy differentiation of measurement data.
Mar-2022: Imaris, an Oxford Instruments company introduced Imaris 9.9, the modern version of microscopy image analysis software. The new Imaris 9.9 is the most brilliant and adaptable version ever, offering segmentation with machine learning, along with open-source connections. Moreover, the addition of machine learning pixel classification, with a reflexive and interactive training mode, widens the variety of images for research as it allows electron microscopy segmentation and shapes identification.
Jan-2022: JEOL USA Inc, a wholly-owned subsidiary of JEOL unveiled JSM-IT510, a new scanning electron microscope providing automated montaging, automated imaging, and live EDS analysis. The new IT510 features JEOL Intelligent Technology allows easy navigation from optical to SEM imaging, Live EDS and 3D analysis, and auto operations from alignment to focus for clear, fast, and sharp pictures.
Dec-2021: Nikon Instruments launched the Digital Sight 10 Microscope Camera. The new camera allows the addition of both monochrome and color photos with a resolution of 6K pixels within a large field of view utilizing a single camera.
Nov-2021: Nikon Instruments unveiled AX R MP multiphoton confocal microscope. The new device provides a large area of view images, high resolution, within living organisms at a quick speed.
Nov-2021: JEOL launched the JSM-IT510 series, a new scanning electron microscope. The new JSM-IT510 series is launched to fulfill the requirements and increase throughput, developed JSM-IT510 series, which also develops the operability of JEOL famous InTouchScope. Additionally, SEM applications are expanding for basic research along with quality control at manufacturing locations.
Sep-2021: Imaris, an Oxford Instruments label launched Imaris 9.8, the advanced version of its market-leading microscopy image analysis software. The new Imaris 9.8 provides entity visualization on raised sections, jointly with the raw information which unlocks new ways of validating discovery and cleansing in Imaris. Additionally, consumers can see the accuracy of the Spots and Surfaces detection, even in a "messy" data volume with thousands of things.
Jul-2021: Thermo Fisher Scientific introduced Thermo Scientific Phenom Pharos G2 Desktop Field Emission Gun, Scanning Electron Microscope. The new FEG-SEM is designed to extend the permit to advanced nanomaterial research abilities. Additionally, The new device makes it possible for consumers to utilize a tabletop microscope to intuitively characterize the shape, size, and chemical design of a broad range of nanoparticles at high resolution.
Jul-2021-Jul Tescan Orsay introduced the AutoSlicer module for the semi-automated transmission electron microscope. the new TESCAN's AutoSlicer allows high output TEM specimen practice at numerous sites or on various samples and delivers full authority over the specific parameters required for optimal sample quality for both Plasma FIB-SEM instruments and Gallium (Ga) focused ion beam (FIB)-scanning electron microscope (SEM).
Jun-2021: Hitachi High-Tech introduced AFM100 along with AFM100 Plus systems, entry-level and advanced-level models of Hitachi's concise and adaptable Atomic Force Microscopes. The new devices are developed to deliver comfort of use and prominent dependability for high-throughput R&D or grade control applications.
Feb-2021: Thermo Fisher Scientific launched Helios 5 PXL Wafer DualBeam, a plasma-focused ion beam scanning electron microscope. The new Helios 5 PXL can decrease time-to-data from days to hours for inline via-stack metrology and verify high-aspect-ratio systems. Additionally, The microscope has high-contrast imaging, high-resolution, and large-area sample preparation, oblique milling, and cross-sectioning of 3D semiconductor instruments.
Nov-2020: ZEISS introduced ZEISS GeminiSEM, a new generation of its field emission scanning electron microscope. The ZEISS GeminiSEM new models 360, 460, and 560 are designed for sub-nanometer imaging and intuitive analytics. Additionally, The new ZEISS GeminiSEM family produces more information from any model, decreases sample damage, and retains sample artifacts.
Oct-2020: The Bruker Nanomechanical Testing business unveiled Hysitron PI 89 SEM PicoIndenter. The new system delivers nanomechanical testing abilities within a scanning electron microscope (SEM) at higher loads and in more severe conditions than earlier possible. Additionally, the Hysitron PI 89 SEM PicoIndenter integrates Bruker's high-performance regulator with unique resistive transducer and intrinsic removal technologies to allow unmatched power and displacement ranges.
Jul-2020: JEOL unveiled the JSM-IT800 FE-SEM, the most powerful Scanning electron microscope. The new microscope delivers two models with two types of objective lenses such as the Hybrid Lens for general-purpose SEM and the Super Hybrid Lens for improved resolution obedience and diverse analyses. Additionally, the JSM-IT800 FE-SEM delivers a resolution of 0.5nm @ 15kV and 0.9nm at 500V.
Jun-2020: Bruker launched Flash XS, a new electron backscatter diffraction (EBSD) detector. The new e-Flash XS allows the analysis of the microstructure of crystalline materials in tabletop and other small, entry-level scanning electron microscopes (SEM).
Jun-2020: Oxford Instruments NanoAnalysis unveiled Relate, an image analysis software platform. The new software supplies a highly precise interaction of EDS, EM, EBSD, and AFM data for the consumer of Oxford Instrument's superior-edge materials description tools, in association with Digital Surf, founder of the industry-standard Mountains surface and image analysis software forum.
Acquisitions and Mergers:
Jun-2022: Advantest Corporation took over Collaudi Elettronici Automatizzati, an Italy-based enterprise. With this acquisition, CREA would expand Advantest Corporation's trial and measurement solutions within the evolving semiconductor value chain to fulfill a broader capacity of consumer demands.
Nov-2021: Bruker Corporation took over MOLECUBES, a vibrant developer in benchtop preclinical nuclear molecular imaging (NMI) systems. With this acquisition, Bruker reinforces its position as a foremost NMI solutions supplier in translational and preclinical imaging research.
Jun-2021: Oxford Instruments completed the acquisition of WITec Wissenschaftliche Instrumente und Technologie GmbH, a leading supplier of Raman microscopy imaging solutions. With this acquisition, the company aimed to sustain consumers in stunning end markets, improving its offering of solutions for a variety of applications such as life science, semiconductors, and advanced materials.
Dec-2020: Zeiss completed the acquisition of the Arivis, a scientific imaging platform. With this acquisition, Zeiss aimed to reinforce its software capabilities and market position in image processing, 3D image visualization, and examination software for research microscopy.
Market Segments covered in the Report:
By Type
By Application
By End User
By Geography
Companies Profiled
Unique Offerings from KBV Research
List of Figures