Table of Contents

1 Report Overview

• 1.1 Study Scope
• 1.2 Key Market Segments
• 1.3 Players Covered
• 1.4 Market Analysis by Type
  • 1.4.1 Global Atomic Force Microscope Market Size Growth Rate by Type (2014-2025)
  • 1.4.2 Research Grade AFM
  • 1.4.3 Industrial Grade AFM
• 1.5 Market by Application
  • 1.5.1 Global Atomic Force Microscope Market Share by Application (2014-2025)
  • 1.5.2 Life Sciences and Biology
  • 1.5.3 Semiconductors and Electronics
  • 1.5.4 Nanomaterials Science
  • 1.5.5 Other
• 1.6 Study Objectives
• 1.7 Years Considered

2 Global Growth Trends

• 2.1 Atomic Force Microscope Market Size
• 2.2 Atomic Force Microscope Growth Trends by Regions
  • 2.2.1 Atomic Force Microscope Market Size by Regions (2014-2025)
  • 2.2.2 Atomic Force Microscope Market Share by Regions (2014-2019)
• 2.3 Industry Trends
  • 2.3.1 Market Top Trends
  • 2.3.2 Market Drivers
  • 2.3.3 Market Opportunities

3 Market Share by Key Players

• 3.1 Atomic Force Microscope Market Size by Manufacturers
  • 3.1.1 Global Atomic Force Microscope Revenue by Manufacturers (2014-2019)
  • 3.1.2 Global Atomic Force Microscope Revenue Market Share by Manufacturers (2014-2019)
  • 3.1.3 Global Atomic Force Microscope Market Concentration Ratio (CR5 and HHI)
• 3.2 Atomic Force Microscope Key Players Head office and Area Served
• 3.3 Key Players Atomic Force Microscope Product/Solution/Service
• 3.4 Date of Enter into Atomic Force Microscope Market
• 3.5 Mergers & Acquisitions, Expansion Plans

4 Breakdown Data by Type and Application

• 4.1 Global Atomic Force Microscope Market Size by Type (2014-2019)
• 4.2 Global Atomic Force Microscope Market Size by Application (2014-2019)

5 United States

• 5.1 United States Atomic Force Microscope Market Size (2014-2019)
• 5.2 Atomic Force Microscope Key Players in United States
• 5.3 United States Atomic Force Microscope Market Size by Type
• 5.4 United States Atomic Force Microscope Market Size by Application

6 Europe

• 6.1 Europe Atomic Force Microscope Market Size (2014-2019)
• 6.2 Atomic Force Microscope Key Players in Europe
• 6.3 Europe Atomic Force Microscope Market Size by Type
• 6.4 Europe Atomic Force Microscope Market Size by Application

7 China

• 7.1 China Atomic Force Microscope Market Size (2014-2019)
• 7.2 Atomic Force Microscope Key Players in China
• 7.3 China Atomic Force Microscope Market Size by Type
• 7.4 China Atomic Force Microscope Market Size by Application

8 Japan

• 8.1 Japan Atomic Force Microscope Market Size (2014-2019)
• 8.2 Atomic Force Microscope Key Players in Japan
• 8.3 Japan Atomic Force Microscope Market Size by Type
• 8.4 Japan Atomic Force Microscope Market Size by Application

9 Southeast Asia

• 9.1 Southeast Asia Atomic Force Microscope Market Size (2014-2019)
• 9.2 Atomic Force Microscope Key Players in Southeast Asia
• 9.3 Southeast Asia Atomic Force Microscope Market Size by Type
• 9.4 Southeast Asia Atomic Force Microscope Market Size by Application

10 India

• 10.1 India Atomic Force Microscope Market Size (2014-2019)
• 10.2 Atomic Force Microscope Key Players in India
• 10.3 India Atomic Force Microscope Market Size by Type
• 10.4 India Atomic Force Microscope Market Size by Application

11 Central & South America

• 11.1 Central & South America Atomic Force Microscope Market Size (2014-2019)
• 11.2 Atomic Force Microscope Key Players in Central & South America
• 11.3 Central & South America Atomic Force Microscope Market Size by Type
• 11.4 Central & South America Atomic Force Microscope Market Size by Application

12 International Players Profiles

• 12.1 Bruker Corporation
  • 12.1.1 Bruker Corporation Company Details
  • 12.1.2 Company Description and Business Overview
  • 12.1.3 Atomic Force Microscope Introduction
  • 12.1.4 Bruker Corporation Revenue in Atomic Force Microscope Business (2014-2019)
  • 12.1.5 Bruker Corporation Recent Development
• 12.2 JPK Instruments
  • 12.2.1 JPK Instruments Company Details
  • 12.2.2 Company Description and Business Overview
  • 12.2.3 Atomic Force Microscope Introduction
  • 12.2.4 JPK Instruments Revenue in Atomic Force Microscope Business (2014-2019)
  • 12.2.5 JPK Instruments Recent Development
• 12.3 NT-MDT
  • 12.3.1 NT-MDT Company Details
  • 12.3.2 Company Description and Business Overview
  • 12.3.3 Atomic Force Microscope Introduction
  • 12.3.4 NT-MDT Revenue in Atomic Force Microscope Business (2014-2019)
  • 12.3.5 NT-MDT Recent Development
• 12.4 Keysight Technologies
  • 12.4.1 Keysight Technologies Company Details
  • 12.4.2 Company Description and Business Overview
  • 12.4.3 Atomic Force Microscope Introduction
  • 12.4.4 Keysight Technologies Revenue in Atomic Force Microscope Business (2014-2019)
  • 12.4.5 Keysight Technologies Recent Development
• 12.5 Park Systems
  • 12.5.1 Park Systems Company Details
  • 12.5.2 Company Description and Business Overview
  • 12.5.3 Atomic Force Microscope Introduction
  • 12.5.4 Park Systems Revenue in Atomic Force Microscope Business (2014-2019)
  • 12.5.5 Park Systems Recent Development
• 12.6 Witec
  • 12.6.1 Witec Company Details
  • 12.6.2 Company Description and Business Overview
  • 12.6.3 Atomic Force Microscope Introduction
  • 12.6.4 Witec Revenue in Atomic Force Microscope Business (2014-2019)
  • 12.6.5 Witec Recent Development
• 12.7 Asylum Research (Oxford Instruments)
  • 12.7.1 Asylum Research (Oxford Instruments) Company Details
  • 12.7.2 Company Description and Business Overview
  • 12.7.3 Atomic Force Microscope Introduction
  • 12.7.4 Asylum Research (Oxford Instruments) Revenue in Atomic Force Microscope Business (2014-2019)
  • 12.7.5 Asylum Research (Oxford Instruments) Recent Development
• 12.8 Nanonics Imaging
  • 12.8.1 Nanonics Imaging Company Details
  • 12.8.2 Company Description and Business Overview
  • 12.8.3 Atomic Force Microscope Introduction
  • 12.8.4 Nanonics Imaging Revenue in Atomic Force Microscope Business (2014-2019)
  • 12.8.5 Nanonics Imaging Recent Development
• 12.9 Nanosurf
  • 12.9.1 Nanosurf Company Details
  • 12.9.2 Company Description and Business Overview
  • 12.9.3 Atomic Force Microscope Introduction
  • 12.9.4 Nanosurf Revenue in Atomic Force Microscope Business (2014-2019)
  • 12.9.5 Nanosurf Recent Development
• 12.10 Hitachi High-Technologies
  • 12.10.1 Hitachi High-Technologies Company Details
  • 12.10.2 Company Description and Business Overview
  • 12.10.3 Atomic Force Microscope Introduction
  • 12.10.4 Hitachi High-Technologies Revenue in Atomic Force Microscope Business (2014-2019)
  • 12.10.5 Hitachi High-Technologies Recent Development
• 12.11 Anasys Instruments
• 12.12 RHK Technology
• 12.13 A.P.E. Research

13 Market Forecast 2019-2025

• 13.1 Market Size Forecast by Regions
• 13.2 United States
• 13.3 Europe
• 13.4 China
• 13.5 Japan
• 13.6 Southeast Asia
• 13.7 India
• 13.8 Central & South America
• 13.9 Market Size Forecast by Product (2019-2025)
• 13.10 Market Size Forecast by Application (2019-2025)

14 Analyst's Viewpoints/Conclusions

15 Appendix

• 15.1 Research Methodology
  • 15.1.1 Methodology/Research Approach
    • 15.1.1.1 Research Programs/Design
    • 15.1.1.2 Market Size Estimation
    • 12.1.1.3 Market Breakdown and Data Triangulation
  • 15.1.2 Data Source
    • 15.1.2.1 Secondary Sources
    • 15.1.2.2 Primary Sources
• 15.2 Disclaimer

Atomic-force microscopy (AFM) or scanning-force Microscopy (SFM) is a very-high-resolution type of scanning probe microscopy (SPM), with demonstrated resolution on the order of fractions of a nanometer, more than 1000 times better than the optical diffraction limit.

AFM provides a 3D profile of the surface on a nanoscale, by measuring forces between a sharp probe (<10 nm) and surface at very short distance (0.2-10 nm probe-sample separation). The probe is supported on a flexible cantilever. The AFM tip “gently” touches the surface and records the small force between the probe and the surface.

Atomic force microscopy is arguably the most versatile and powerful microscopy technology for studying samples at nanoscale. It is versatile because an atomic force microscope can not only image in three-dimensional topography, but it also provides various types of surface measurements to the needs of scientists and engineers. It is powerful because an AFM can generate images at atomic resolution with angstrom scale resolution height information, with minimum sample preparation.
The main markets for AFM are academia, research labs and the semiconductors and electronics sector, with growing markets in biology and the life sciences and nanotechnology and nanomaterials research. In semiconductors, the measurement and manipulation of nanomaterials becomes increasingly challenging as the continuous shrinking of dimensions requires higher lateral resolution. The AFM has become a standard and widely spread instrument for characterizing such nanoscale devices and can be found in most of today’s research and development areas.
Increasing government and corporate funding in life sciences and nanotechnology is predominantly driving the microscopy market. Furthermore, technological advances that enhance ease of usage, automation, better quality imaging, faster and better analysis have also had a huge positive impact on the market.
However, the characterization of three dimensional high-aspect ratio and sidewall structures can prove problematic. And there are other microscopes can be used to replace AFM, like SNOM (Near-field scanning optical microscopy).
In 2018, the global Atomic Force Microscope market size was 320 million US$ and it is expected to reach 400 million US$ by the end of 2025, with a CAGR of 2.8% during 2019-2025.

This report focuses on the global Atomic Force Microscope status, future forecast, growth opportunity, key market and key players. The study objectives are to present the Atomic Force Microscope development in United States, Europe and China.

The key players covered in this study
Bruker Corporation
JPK Instruments
NT-MDT
Keysight Technologies
Park Systems
Witec
Asylum Research (Oxford Instruments)
Nanonics Imaging
Nanosurf
Hitachi High-Technologies
Anasys Instruments
RHK Technology
A.P.E. Research

Market segment by Type, the product can be split into
Research Grade AFM
Industrial Grade AFM

Market segment by Application, split into
Life Sciences and Biology
Semiconductors and Electronics
Nanomaterials Science
Other

Market segment by Regions/Countries, this report covers
United States
Europe
China
Japan
Southeast Asia
India
Central & South America

The study objectives of this report are:
To analyze global Atomic Force Microscope status, future forecast, growth opportunity, key market and key players.
To present the Atomic Force Microscope development in United States, Europe and China.
To strategically profile the key players and comprehensively analyze their development plan and strategies.
To define, describe and forecast the market by product type, market and key regions.

In this study, the years considered to estimate the market size of Atomic Force Microscope are as follows:
History Year: 2014-2018
Base Year: 2018
Estimated Year: 2019
Forecast Year 2019 to 2025
For the data information by region, company, type and application, 2018 is considered as the base year. Whenever data information was unavailable for the base year, the prior year has been considered.