DUBLIN, Aug. 19, 2022 /PRNewswire/ -- The "Global Super-resolution Microscopes Market Size, Share & Industry Trends Analysis Report By Technology, By Application (Life Science, Material Science, Semi-conductor, Nanotechnology), By Regional Outlook and Forecast, 2022-2028" report has been added to ResearchAndMarkets.com's offering.
The Global Super-resolution Microscopes Market size is expected to reach $5.7 billion by 2028, rising at a market growth of 9.9% CAGR during the forecast period.
A super-resolution microscope is a form of light microscope that captures an object's picture at a higher resolution than the diffraction limit allows. There are two types of super-resolution microscopes viz. stochastically super-resolution and deterministic super-resolution.
Researchers can also use these microscopes to get a close look at bacteria like the malaria virus, HIV, and other tiny microbes, which help them understand how microbes affect the human immune system. Super-resolution microscopes offer unrivaled detail and insight into the molecular world. Various companies all over the world are manufacturing a variety of super-resolution solutions for high-speed imaging applications as well as single-molecule imaging needs.
Ultrafast imaging rates enable super-resolution features in 3D samples as well as live-cell experiments to be revealed quickly with super-resolution microscopes. Super-resolution microscopes allow scientists and researchers to conduct time-lapse investigations with longer cell viability. Even with dense materials, super-resolution microscopes provide crisp super-resolution microscope images with minimal blurring. OSR methods function in real-time in order to eliminate delays caused by frame averaging and image reconstruction, resulting in instant super-resolution images and speedier results. It enables super-resolution investigations to incorporate live-cell tests, which are further enhanced by the ultrafast imaging speeds as well as multichannel acquisition capabilities of confocal.
Researchers can investigate subcellular dynamics and structures in greater detail with super-resolution light microscopy. While lightening technology doubles the spatial resolution of confocal image capture, STED technology can give nanoscale insights. Moreover, super-resolution technologies also help researchers in virology, immunology, neurology, and cancer research make breakthroughs. The diffraction limit, a physical barrier that limits optical resolution to about 250 nm and was formerly assumed to be impenetrable, is bypassed by super-resolution microscopy (SRM).
COVID-19 Impact Analysis
Due to the sudden shutdown of activities to prevent the spread of infection, there has been a drop in the manufacturing and supply of all types of medical devices, especially super-resolution microscopes, during the pandemic. However, the COVID-19 outbreak has propelled scientific innovation, resulting in the emergence of a wide range of applications for super-resolution microscopes since 2020. In addition, with the relaxation of production and supply constraints following COVID-19, the demand for super-resolution microscopes is likely to increase.
The application of super-resolution microscopes to vital healthcare research on diseases, such as cancer is anticipated to develop, with high-order chromatin folding in preclinical carcinogenesis being revealed. The most modern microscopes, which are based on new technologies developed during the pandemic, are estimated to be in high demand.
Market Growth Factors
Increased clarity and precision
Super-resolution microscope is clearer than various other technologies across the market. By removing background fluorescence, axial spatial resolution and contrast can be significantly improved. In addition, eliminating background disruptions can also substantially aid in the signal-to-noise (SNR) ratio. Total internal reflectance fluorescence (TIRF), as well as related evanescent wave techniques, can improve resolution if features of concern are found within 100 nm of the tissue culture or coverslip container. These techniques benefit from a phenomenon that happens when light approaching a system at an incident angle reflects at the junction between the sample medium and the coverslip.
Significant number of applications
Exploring the inner workings of cells and learning about the complexities of animal and plant growth provides the essential knowledge necessary for disease modeling and the creation of future therapeutic resources. SML microscopy's biological imaging can be utilized to track specific biomolecules or monitor biological processes. The SML microscope can view single fluorophores at significantly high speed and in three dimensions because samples are marked with chemical dyes, proteins, or quantum dots. Any scientist wishing to record real-time biological motion, which is challenging with many other microscopes will find this procedure to be of great benefit.
Market Restraining Factors
Lack of flexibility
In the super-resolution technique known as stimulated emission depletion (STED) microscopy, two laser beams are sequentially used to stimulate and then cancel out the light. The sample is activated by the first powerful laser, which promotes fluorescence emission. All fluorescence saves that happening in a small, sub-resolution volume of the specimen is drained by the second laser, which is administered in the shape of a circle at the original site of excitation.
The device scans the sample, gathering picture data from the exciting fluorochromes at each spot scanned one at a time. Although, various researchers find STED to be impracticable due to its difficult optical alignment issues. The excitation required to make an image can also be harmful to samples because STED only photographs a small portion of the fluorochromes it excites.
Key Topics Covered:
Chapter 1. Market Scope & Methodology
Chapter 2. Market Overview
2.1 Introduction
2.1.1 Overview
2.1.1.1 Market composition and scenario
2.2 Key Factors Impacting the Market
2.2.1 Market Drivers
2.2.2 Market Restraints
Chapter 3. Competition Analysis - Global
3.1 Cardinal Matrix
3.2 Recent Industry Wide Strategic Developments
3.2.1 Partnerships, Collaborations and Agreements
3.2.2 Product Launches and Product Expansions
3.3 Top Winning Strategies
3.3.1 Key Leading Strategies Percentage Distribution (2018-2022)
3.3.2 Key Strategic Move (Product Launches and Product Expansions 2018, Mar - 2021, Nov) Leading Players
Chapter 4. Global Super-resolution Microscopes Market by Technology
4.1 Global Stimulated Emission Depletion (STED) Microscopy Market by Region
4.2 Global Structured-Illumination Microscopy (SIM) Market by Region
4.3 Global Stochastic Optical Reconstruction Microscopy (STORM) Market by Region
4.4 Global Fluorescence Photoactivated Localization Microscopy (FPALM) Market by Region
4.5 Global Photoactivated Localization Microscopy (PALM) Market by Region
Chapter 5. Global Super-resolution Microscopes Market by Application
5.1 Global Life Science Market by Region
5.2 Global Material Science Market by Region
5.3 Global Semi-conductor Market by Region
5.4 Global Nanotechnology Market by Region
5.5 Global Others Market by Region
Chapter 6. Global Super-resolution Microscopes Market by Region
Chapter 7. Company Profiles
7.1 General Electric (GE) Co. (GE Healthcare)
7.1.1 Company Overview
7.1.1 Financial Analysis
7.1.2 Segmental and Regional Analysis
7.1.3 Research & Development Expense
7.1.4 Recent strategies and developments
7.1.4.1 Product Launches and Product Expansions
7.1.5 SWOT Analysis
7.2 Carl Zeiss AG
7.2.1 Company Overview
7.2.2 Financial Analysis
7.2.3 Segmental and Regional Analysis
7.2.4 Research & Development Expenses
7.2.5 Recent strategies and developments
7.2.5.1 Partnerships, Collaborations, and Agreements
7.2.5.2 Product Launches and Product Expansions
7.3 Nikon Corporation
7.3.1 Company Overview
7.3.2 Financial Analysis
7.3.3 Segmental and Regional Analysis
7.3.4 Research & Development Expense
7.3.5 Recent strategies and developments
7.3.5.1 Partnerships, Collaborations, and Agreements
7.3.5.2 Product Launches and Product Expansions
7.4 Olympus Corporation
7.4.1 Company Overview
7.4.2 Financial Analysis
7.4.3 Segmental and Regional Analysis
7.4.4 Research & Development Expense
7.4.5 Recent strategies and developments
7.4.5.1 Product Launches and Product Expansions
7.5 Leica Microsystems GmbH (Danaher Corporation)
7.5.1 Company Overview
7.5.2 Financial Analysis
7.5.3 Segmental and Regional Analysis
7.5.4 Research & Development Expense
7.5.5 Recent strategies and developments
7.5.5.1 Partnerships, Collaborations, and Agreements
7.5.5.2 Product Launches and Product Expansions
7.6 Bruker Corporation
7.6.1 Company Overview
7.6.2 Financial Analysis
7.6.3 Segmental and Regional Analysis
7.6.4 Research & Development Expense
7.6.5 Recent strategies and developments
7.6.5.1 Product Launches and Product Expansions
7.7 Hitachi High Technologies Corporation (Hitachi, Ltd.)
7.7.1 Company Overview
7.7.2 Financial Analysis
7.7.3 Segmental and Regional Analysis
7.7.4 Research & Development Expenses
7.7.5 Recent strategies and developments
7.7.5.1 Product Launches and Product Expansions
For more information about this report visit https://www.researchandmarkets.com/r/oavdan?
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