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Super-resolution Microscopes Market Estimated to Cross US$ 8.5 Bn by 2030

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The worldwide Super-resolution Microscopes market measurement is anticipated to achieve USD 8.5 billion by 2030 and is anticipated to increase at a CAGR of 10.9% from 2021 to 2030.

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Growth Factors

 Increasing application in cell biology and biomedical imaging and technological advancements are factors expected to drive the market over the forecast period.

In the nanotechnology application segment, techniques such as Stochastic Super-resolution Microscopy (SSRM) have proved to give better results for various catalysis processes, such as metal nanoparticle catalysis, and they promise to accelerate the development and discovery of new and better catalysts. The SIM technology segment is projected to account for the largest market share by 2030. STORM technology is estimated to register the fastest CAGR from 2021 to 2030.

Report Highlights

Stimulated Emission Depletion (STED) microscopy technology accounted for the largest share of over 33.0% in 2020 and will grow at a steady CAGR over the forecast period due to its ability to deliver diffraction-unlimited images, with no need for further computational processing.

The STORM and PALM technologies provide the greatest improvement in spatial resolution in comparison to conventional fluorescence microscopy.

The life science segment held the largest share of over 50.0% in 2020. To develop a proper understanding of neurological dysfunctions and mechanisms, neuroscience significantly relies on advanced microscopy, especially for in vivo brain imaging.

North America held the largest share of over 43.0% in 2020 and will retain its leading position throughout the forecast period. Advanced healthcare facilities, high investment in R&D for understanding the mechanism of various diseases, and extensive drug development activities in the region are projected to drive the market.

Asia Pacific is expected to register the highest CAGR during the forecast period. This is attributed to the increasing adoption of such microscopy across industries, such as academic life science, pharmaceutical, and nanotechnology.

Report Coverage Details
Market Size US$ 8.5 billion by 2030
Growth Rate CAGR of 10.9% From 2021 to 2030
Base Year 2020
Historic Data 2017 to 2020
Forecast Period 2021 to 2030
Segments Covered Technology, Application
Regional Scope North America, Latin America, Europe, Asia Pacific, MEA
Companies Mentioned ZEISS; Nikon Corporation; Olympus Corporation; Leica Microsystems (Danaher Corporation); Hitachi High Technologies; Applied Precision (GE Healthcare); Bruker Corporation

Key Players

  • ZEISS
  • Applied Precision (GE Healthcare)
  • Nikon Corporation
  • Olympus Corporation
  • Leica Microsystems (Danaher Corporation)
  • BrukerCorporation
  • Hitachi High Technologies

Market Segmentation

  • Technology Outlook
    • Stimulated Emission Depletion (STED) Microscopy
    • Structured-Illumination Microscopy (SIM)
    • Stochastic Optical Reconstruction Microscopy (STORM)
    • Fluorescence Photoactivation Localization Microscopy (FPALM)
    • Photoactivated Localization Microscopy (PALM)
  • Application Outlook
    • Nanotechnology
    • Life Science
    • Material Science
    • Semi-conductor
    • Other Applications
  • Regional Outlook
    • North America
      • U.S.
      • Canada
    • Europe
      • U.K.
      • Germany
      • France
      • Italy
      • Spain
    • Asia Pacific
      • Japan
      • China
    • Latin America
      • Brazil
      • Mexico
    • Middle East & Africa (MEA)
      • South Africa

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Reasons to Purchase this Report:

– Market segmentation analysis including qualitative and quantitative research incorporating the impact of economic and policy aspects
– Regional and country level analysis integrating the demand and supply forces that are influencing the growth of the market.
– Market value USD Million and volume Units Million data for each segment and sub-segment
– Competitive landscape involving the market share of major players, along with the new projects and strategies adopted by players in the past five years
– Comprehensive company profiles covering the product offerings, key financial information, recent developments, SWOT analysis, and strategies employed by the major market players

Table of Contents

Chapter 1.  Introduction

1.1.  Research Objective

1.2.  Scope of the Study

1.3.  Definition

Chapter 2.  Research Methodology

2.1.  Research Approach

2.2.  Data Sources

2.3.  Assumptions & Limitations

Chapter 3.  Executive Summary

3.1.  Market Snapshot

Chapter 4.  Market Variables and Scope

4.1.  Introduction

4.2.  Market Classification and Scope

4.3.  Industry Value Chain Analysis

4.3.1.    Raw Material Procurement Analysis

4.3.2.    Sales and Distribution Channel Analysis

4.3.3.    Downstream Buyer Analysis

Chapter 5.  Market Dynamics Analysis and Trends

5.1.  Market Dynamics

5.1.1.    Market Drivers

5.1.2.    Market Restraints

5.1.3.    Market Opportunities

5.2.  Porter’s Five Forces Analysis

5.2.1.    Bargaining power of suppliers

5.2.2.    Bargaining power of buyers

5.2.3.    Threat of substitute

5.2.4.    Threat of new entrants

5.2.5.    Degree of competition

Chapter 6.  Competitive Landscape

6.1.1.    Company Market Share/Positioning Analysis

6.1.2.    Key Strategies Adopted by Players

6.1.3.    Vendor Landscape

6.1.3.1.        List of Suppliers

6.1.3.2.        List of Buyers

Chapter 7.  Global Super-resolution Microscopes Market, By Technology

7.1.  Super-resolution Microscopes Market, by Technology, 2021-2030

7.1.1.    Stimulated Emission Depletion (STED) Microscopy

7.1.1.1.        Market Revenue and Forecast (2016-2030)

7.1.2.    Structured-Illumination Microscopy (SIM)

7.1.2.1.        Market Revenue and Forecast (2016-2030)

7.1.3.    Stochastic Optical Reconstruction Microscopy (STORM)

7.1.3.1.        Market Revenue and Forecast (2016-2030)

7.1.4.    Fluorescence Photoactivation Localization Microscopy (FPALM)

7.1.4.1.        Market Revenue and Forecast (2016-2030)

7.1.5.    Photoactivated Localization Microscopy (PALM)

7.1.5.1.        Market Revenue and Forecast (2016-2030)

Chapter 8.  Global Super-resolution Microscopes Market, By Application

8.1.  Super-resolution Microscopes Market, by Application, 2021-2030

8.1.1.    Nanotechnology

8.1.1.1.        Market Revenue and Forecast (2016-2030)

8.1.2.    Life Science

8.1.2.1.        Market Revenue and Forecast (2016-2030)

8.1.3.    Material Science

8.1.3.1.        Market Revenue and Forecast (2016-2030)

8.1.4.    Semi-conductor

8.1.4.1.        Market Revenue and Forecast (2016-2030)

8.1.5.    Other Applications

8.1.5.1.        Market Revenue and Forecast (2016-2030)

Chapter 9.  Global Super-resolution Microscopes Market, Regional Estimates and Trend Forecast

9.1.  North America

9.1.1.    Market Revenue and Forecast, by Technology (2016-2030)

9.1.2.    Market Revenue and Forecast, by Application (2016-2030)

9.1.3.    U.S.

9.1.3.1.        Market Revenue and Forecast, by Technology (2016-2030)

9.1.3.2.        Market Revenue and Forecast, by Application (2016-2030)

9.1.4.    Rest of North America

9.1.4.1.        Market Revenue and Forecast, by Technology (2016-2030)

9.1.4.2.        Market Revenue and Forecast, by Application (2016-2030)

9.2.  Europe

9.2.1.    Market Revenue and Forecast, by Technology (2016-2030)

9.2.2.    Market Revenue and Forecast, by Application (2016-2030)

9.2.3.    UK

9.2.3.1.        Market Revenue and Forecast, by Technology (2016-2030)

9.2.3.2.        Market Revenue and Forecast, by Application (2016-2030)

9.2.4.    Germany

9.2.4.1.        Market Revenue and Forecast, by Technology (2016-2030)

9.2.4.2.        Market Revenue and Forecast, by Application (2016-2030)

9.2.5.    France

9.2.5.1.        Market Revenue and Forecast, by Technology (2016-2030)

9.2.5.2.        Market Revenue and Forecast, by Application (2016-2030)

9.2.6.    Rest of Europe

9.2.6.1.        Market Revenue and Forecast, by Technology (2016-2030)

9.2.6.2.        Market Revenue and Forecast, by Application (2016-2030)

9.3.  APAC

9.3.1.    Market Revenue and Forecast, by Technology (2016-2030)

9.3.2.    Market Revenue and Forecast, by Application (2016-2030)

9.3.3.    India

9.3.3.1.        Market Revenue and Forecast, by Technology (2016-2030)

9.3.3.2.        Market Revenue and Forecast, by Application (2016-2030)

9.3.4.    China

9.3.4.1.        Market Revenue and Forecast, by Technology (2016-2030)

9.3.4.2.        Market Revenue and Forecast, by Application (2016-2030)

9.3.5.    Japan

9.3.5.1.        Market Revenue and Forecast, by Technology (2016-2030)

9.3.5.2.        Market Revenue and Forecast, by Application (2016-2030)

9.3.6.    Rest of APAC

9.3.6.1.        Market Revenue and Forecast, by Technology (2016-2030)

9.3.6.2.        Market Revenue and Forecast, by Application (2016-2030)

9.4.  MEA

9.4.1.    Market Revenue and Forecast, by Technology (2016-2030)

9.4.2.    Market Revenue and Forecast, by Application (2016-2030)

9.4.3.    GCC

9.4.3.1.        Market Revenue and Forecast, by Technology (2016-2030)

9.4.3.2.        Market Revenue and Forecast, by Application (2016-2030)

9.4.4.    North Africa

9.4.4.1.        Market Revenue and Forecast, by Technology (2016-2030)

9.4.4.2.        Market Revenue and Forecast, by Application (2016-2030)

9.4.5.    South Africa

9.4.5.1.        Market Revenue and Forecast, by Technology (2016-2030)

9.4.5.2.        Market Revenue and Forecast, by Application (2016-2030)

9.4.6.    Rest of MEA

9.4.6.1.        Market Revenue and Forecast, by Technology (2016-2030)

9.4.6.2.        Market Revenue and Forecast, by Application (2016-2030)

9.5.  Latin America

9.5.1.    Market Revenue and Forecast, by Technology (2016-2030)

9.5.2.    Market Revenue and Forecast, by Application (2016-2030)

9.5.3.    Brazil

9.5.3.1.        Market Revenue and Forecast, by Technology (2016-2030)

9.5.3.2.        Market Revenue and Forecast, by Application (2016-2030)

9.5.4.    Rest of LATAM

9.5.4.1.        Market Revenue and Forecast, by Technology (2016-2030)

9.5.4.2.        Market Revenue and Forecast, by Application (2016-2030)

Chapter 10.  Company Profiles

10.1.              ZEISS

10.1.1.  Company Overview

10.1.2.  Product Offerings

10.1.3.  Financial Performance

10.1.4.  Recent Initiatives

10.2.              Applied Precision (GE Healthcare)

10.2.1.  Company Overview

10.2.2.  Product Offerings

10.2.3.  Financial Performance

10.2.4.  Recent Initiatives

10.3.              Nikon Corporation

10.3.1.  Company Overview

10.3.2.  Product Offerings

10.3.3.  Financial Performance

10.3.4.  Recent Initiatives

10.4.              Olympus Corporation

10.4.1.  Company Overview

10.4.2.  Product Offerings

10.4.3.  Financial Performance

10.4.4.  Recent Initiatives

10.5.              Leica Microsystems (Danaher Corporation)

10.5.1.  Company Overview

10.5.2.  Product Offerings

10.5.3.  Financial Performance

10.5.4.  Recent Initiatives

10.6.              BrukerCorporation

10.6.1.  Company Overview

10.6.2.  Product Offerings

10.6.3.  Financial Performance

10.6.4.  Recent Initiatives

10.7.              Hitachi High Technologies

10.7.1.  Company Overview

10.7.2.  Product Offerings

10.7.3.  Financial Performance

10.7.4.  Recent Initiatives

Chapter 11.  Research Methodology

11.1.              Primary Research

11.2.              Secondary Research

11.3.              Assumptions

Chapter 12.  Appendix

12.1.              About Us

Glossary of Terms

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