超解像顕微鏡の世界市場：技術別・用途別・地域別 - 市場規模、シェア、動向、予測 (2020～2026年) (Covid-19発生後の改訂版)
Super-resolution Microscopes Market (COVID-19 Updated), By Technology, By Application, By Region - Size, Share, Trends, & Forecast Analysis From 2020 - 2026
|発行||AnalystView Market Insights||商品コード||932571|
|出版日||ページ情報||英文 206 Pages
|超解像顕微鏡の世界市場：技術別・用途別・地域別 - 市場規模、シェア、動向、予測 (2020～2026年) (Covid-19発生後の改訂版) Super-resolution Microscopes Market (COVID-19 Updated), By Technology, By Application, By Region - Size, Share, Trends, & Forecast Analysis From 2020 - 2026|
|出版日: 2020年04月01日||ページ情報: 英文 206 Pages||
The super-resolution microscopes market was valued at USD 3.28 billion by 2019, growing with 10.7% CAGR during the forecast period, 2020-2026.
The traditional microscope works when a magnified light using lenses is passed through it, which produces a magnified picture. But, these microscopes have limitations in focusses as the diffraction of light that comes to pass mostly beyond a selection of magnification. The super-resolution microscopes are the latest, modified, and the most highly specialized version of light microscopes that overcome limitations such as the diffraction. This makes the super-resolution microscopes to provide images of high resolution. This is brought about by true super-resolution method that is carried out via better axial resolution, super lens, and 4Pi microscopy method. With the help of nanometer-scale scanning devices, the super-resolution microscopes facilitate the reconstruction image which is under scan process and makes use of pre diffracted light to produce better quality or high-resolution image.
Growing focus towards nanotechnology, technological advancements, and rising applications in the life science industry are some of the significant factors boosting the growth of super-resolution microscopes market. Over the last few years, super-resolution microscopes have overshadowed the limitations of fluorescence and confocal microscopy because of their X-Y resolution feature. Also, these microscopes are estimated to generate novel insights to ongoing research in nanotechnology and medical science by resolution up to 10 to 20 nm. Researchers use these advanced microscopes for medical diagnosis and procedures. For example, the use of advanced imaging technology and micro-endoscopy for long term application in new medical treatment.
Based on technology, the global industry is segmented into SIM, FPALM, STED, STORM, and PALM. Of these technologies, the STED segment is anticipated to dominate the global market throughout the period of forecast. This dominance is majorly due to the ability of STED to deliver unlimited diffraction images, and with no additional need for computational processing. The fast beam scanners application has developed STED microscopy, which is the most rapid super-resolution techniques available. This technique does not require data processing post-acquisition. Thus, the STED technology segment is expected to grow at a rapid pace during the forecast period owing to its effectiveness, real-time cell imaging, compatibility with organic dyes, and the mounting number of R&D activities in the fields of cell biology and neurobiology.
On the other hand, the use of SIM technology has allowed the researchers to view NCPs (Nuclear Pore Complexes). This helps the researchers to directly enable them to detect and resolve various features of the nucleus superstructures. Thus, this segment is anticipated to witness significant growth by the end of 2026. Moreover, when compared to conventional fluorescent microscopy, PALM and STORM technology provide the supreme development in spatial resolution.
On the basis of application, the global industry is segmented into life science, nanotechnology, semiconductor, material science, and others. Of these applications, the life science segment accounted for the highest market share in 2018 and is projected to witness substantial growth during the forecast period. This growth is majorly due to the augmented research on the mechanism of infectious diseases, viral structure understanding, and proliferation of cancer cell mechanisms. Thus to develop a better understanding of neurological mechanism and dysfunctions, neuroscience is heavily dependent on advanced microscopy. Additionally, the applications of super-resolution microscopes are also increasing in drug development to comprehend the structural biology of macromolecules, which will further boost the segment growth.
Along with life science, the nanotechnology is predicted to grow with highest growth rate by the end of 2026. This growth is attributed to the rising application of super-resolution microscopy in understanding various biological processes is driving the segment growth. This understanding is revealing the binding of cells & nanoparticles, and also its outcomes.
Geographically, the global market is divided into North America, Asia Pacific, Europe, LATAM, and MEA. The North America super-resolution microscopes market accounted for the largest market share in 2028 and is estimated to grow at a steady pace in the projected timeframe. Technological advancements, growing R7D activities, and funding programs are some factors driving the growth in this region. As medical research need microscopes to carry out studies regarding diseases such as neurological disorders and cancer is further anticipated to drive the market growth.
Also, the Asia Pacific market for super-resolution microscopes is projected to grow at highest CAGR during the period of forecast owing to the growing adoption of microscopes across several industries. These industries include nanotechnology, pharmaceutical, biotechnology, and life science. Along with the Asia Pacific, the Europe market is estimated to hold a noteworthy market share due to the growing prevalence of infectious diseases and advancements in technology.
Key Vendor Takeaway
Some of the key players that are actively responsible for the growth of the super-resolution microscopes market include Nikon Corporation, Carl Zeiss Meditec AG, Olympus Corporation, Hitachi High Technologies, Leica Microsystems (Danaher Corporation), Applied Precision (GE Healthcare), Danaher, and Bruker. These players are adopting several strategies such as mergers, acquisitions, collaborations, product developments, and R&D activities to strengthen company position in the global industry.
For instance, in the past years, JEOL collaborated with Nikon and Seiko and Carl Zeiss collaborated with each other to enhance the products of super-resolution microscopes. This helped all the companies to establish new markets and also increase their sales.
The market size and forecast for each segment and sub-segments has been considered as below:
Historical Year - 2015 to 2018
Base Year - 2019
Estimated Year - 2020
Projected Year - 2026
Traders, Distributors, and Suppliers
Government and Regional Agencies
SCOPE OF THE REPORT
The scope of this report covers the market by its major segments, which include as follows:
Carl Zeiss Meditec AG
Hitachi High Technologies
Leica Microsystems (Danaher Corporation)
Applied Precision (GE Healthcare)
MARKET BY TECHNOLOGY
Structured-Illumination Microscopy (SIM)
Stochastic Optical Reconstruction Microscopy (STORM)
Stimulated Emission Depletion Microscopy (STED)
Fluorescence Photo-activation Localization Microscopy (FPALM)
Photo-activated Localization Microscopy (PALM)
MARKET, BY APPLICATION
MARKET, BY REGION
Rest of Europe
Rest of APAC
Rest of LATAM
Middle East and Africa
United Arab Emirates
Rest of MEA