Atomic Force Microscopy Market Size, Share, Growth Analysis, By Offering (Atomic Force Microscopes, Probes), By Grade (Industrial Grade AFM, And Research Grade AFM), By Application, By Region - Industry Forecast 2025-2032


Report ID: SQMIG45A2382 | Region: Global | Published Date: December, 2024
Pages: 194 |Tables: 87 |Figures: 76

Atomic Force Microscopy Market Insights

Atomic Force Microscopy Market size was valued at USD 580.9 Million in 2023 and is poised to grow from USD 612.44 Million in 2024 to USD 934.95 Million by 2032, growing at a CAGR of 5.43% during the forecast period (2025-2032).

Atomic force microscopy (AFM) is a powerful technique that allows imaging of virtually any surface including polymers, ceramics, composites, glass, and biological samples. AFM is used to measure and establish a wide range of forces such as adhesion strength, magnetic properties and mechanical properties. The AFM consists of a sharp edge about 10 to 20 nm in diameter, attached to the cantilever. The front moves in response to the front–back interaction, and this motion is measured by focusing the laser beam onto a photodiode. Increasing adoption of power electron microscopes and scanning force microscopes for research and manufacturing acts as a major driving force for the global atomic force microscopy market.

Moreover, atomic energy microscopes find significant application in the semiconductor field for repairing the circuits and circuit failures, raising the demand remarkably, thus driving the market development increases. Atomic force microscopy can further be used to characterize materials, study their composition, and other applications. Moreover, they are used in various industries such as food, law, medicine, pharmaceuticals and healthcare.

Market snapshot - 2024-2031

Global Market Size

USD 551 million

Largest Segment

Industrial

Fastest Growth

Semiconductors & Electronics

Growth Rate

5.43% CAGR

Global Atomic Force Microscopy Market ($ Bn)
Country Share for North America Region (%)

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Atomic Force Microscopy Market Segmental Analysis

Global Atomic Force Microscopy Market is segmented by offering, grade, application, and region. Based on Offering, the market is segmented into Atomic Force Microscopes (Contact Mode, Non-Contact Mode, and Tapping Mode), Probes, Software, and Others. Based on grade, the market is segmented into Industrial Grade AFM, And Research Grade AFM. Based on application, the market is segmented into Material Science, Life Science, Semiconductors and Electronics, Nanomaterial Science, and Others. Based on region, the market is segmented into North America, Europe, Asia Pacific, Latin America and Middle East & and Africa.

Analysis by Offering

The AFM (Atomic Force Microscopy) segment has emerged as the dominant force in the market. AFMs offer high-resolution imaging capabilities, allowing researchers to visualize surfaces at both atomic and molecular levels. This precision is crucial for detailed studies of topography, structure, and morphology. AFMs are versatile instruments suitable for various environments including air, water, and vacuum. This versatility makes them invaluable tools for investigating a wide range of materials such as biological samples, polymers, semiconductors, and more, under diverse conditions. Furthermore, AFM technology facilitates power generation spectroscopy experiments and enables researchers to measure the force interactions between the AFM tip and the sample. This capability is particularly useful for probing mechanical properties, adhesion forces, and surface interactions at the nanoscale.

The probe segment is the fastest growing segment in the market. The probe tip used in AFM is usually sharp, usually on the atomic scale. These techniques are necessary to achieve high spatial resolution during imaging and force measurements. Different types of analyzers come in, and each one is suitable for a particular application. Common materials include silicon, silicon nitride and silicon oxide. The selection of probe materials depends on the sample being analyzed and the experimental conditions. Specific molecules or coatings are used with certain probes to improve their performance in an application. For example, functional probes can be used to identify molecules, measure biomolecular interactions, and study surface properties.

Analysis by Application

The industrial segment atomic force microscopy market is expected to dominate at the highest CAGR during the forecast period. As industrial AFMs are increasingly in demand due to higher accuracy for detection and visualization of surface microparticles than research grade. AFMs Industrial AFMs can detect and process microparticles as there is even a surface that elevates material analysis to the next level. A good example of this is the use of AFM in quality control and imaging for silicon integrated circuits in the semiconductor industry.

The semiconductors & electronics segment is expected to grow at the highest CAGR during the forecast period. Atomic force microscopy can aid in nanometer-scale characterization of semiconductor materials and devices. It also provides information on electrical failure analysis and physical failure analysis, as well as three-device, mechanical and intermediate analysis of equipment, which is an important metric for quality control.

Global Atomic Force Microscopy Market By Application (%)

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Atomic Force Microscopy Market Regional Insights

North America leads the global atomic force microscopy (AFM) market, thanks to its early adoption of the latest technologies. Several key players in this segment are continuously innovating to develop high-resolution AFMs. One notable advancement is the development by Integrated Circuit Scanning Probe Instruments of an atomic force microscope featuring a single chip with the highest resolution. These companies are committed to investing in research and development and are even collaborating with competitors to further enhance performance at the micro level.

Emerging countries such as India and China are expected to register high demand for nuclear power microscopes due to their growing semiconductor industry, government funding for R&D in microscope development. Increasing knowledge and learning efforts and availability of low-cost nanomaterials boost the regional market growth.

Global Atomic Force Microscopy Market By Geography
  • Largest
  • Fastest

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Atomic Force Microscopy Market Dynamics

Drivers

Several Governments to Promote Research and Development in Nanotechnology and Nanoscience

  • Over the last 3 decades, atomic force microscopy is a powerful nanotechnology imaging tool that provides a variety of methods to investigate nanomaterial properties, such as topography, elasticity, adhesion, friction, electrical properties, and the presence of magnetism in the field of materials. Nanotechnology can be useful in a variety of industries including pharmaceutical manufacturing, water purification, information and communication systems, and the production of strong, lightweight, robust, and uniform nanomaterials so governments have the world is promoting nanotechnology research funding. For example, the German government provided funding worth about $17 million (€15.6 million) for the construction of an electron cryo-microscopy facility at the Center for Structural Systems Biology (CSSB).

Increasing Investment in OLED Production and Expansion

  • The increasing adoption of high-end smartphones with large displays boosted the demand for OLED panels across the globe. OLED panels are widely used in smartphones due to their clear image, light weight and high contrast. Samsung Display (South Korea) is a leading manufacturer of small and large AMOLED displays for smartphones. Approximately 4 trillion won (US$3.6 billion) has been invested in the OLED market between 2015 and 2017. Along with other companies such as HTC Corporation (Taiwan), Nokia Oyz (Finland), Motorola, Inc. (USA) as well as Telefónica Brasil (Vivo, headquartered in Brazil, started producing high-end mobile models equipped with OLED displays. Many technical researchers and manufacturers choose AFM if they are to review parts related to structural geometry such as feature height, pitch, critical dimension, angle, and even sidewalls a roughness analysis of OLED displays. This results from accurate measurement results, low noise in the system, high resolution and variability few occurrences of tip-to-tip using AFM imaging technology. All these factors are expected to drive the growth of the global atomic force microscopy market in the coming years.

Restraints

Damage to Samples due to Contact-mode AFM

  • In contact mode, the tip follows a trajectory consistent with a continuous and repulsive tip-sample force using a feedback loop. There are 2 types of contact-quality measures: the constant force method and the constant height method. In constant force mode, the specimen or tip uses a feedback loop to move up and down while keeping its deflection constant. The value of the Z velocity (z is height) is determined by the height change on the specimen surface. As a result, surface geophysical data can be obtained. Since the tip is in uninterrupted contact with the surface, this property is strongly influenced by shear and adhesion forces, which can damage or abrade fragile samples, such as polymers or organic macromolecules on the surface. The force applied to the background can be very high. It can damage samples and it can ignore artifacts. This can result in distortion of image details or movement of relatively weak attachments. This method is widely used to examine the surface of complex chemical compounds. This method can also be used for surface topography imaging of stationary cells when small forces are applied.

Lack of Skilled Personnel to Operate Atomic Energy Microscopes

  • Physicists and laboratory technicians can easily use standard hybrid microscopes. However, the development of advanced microscopes requires skilled labor. According to a survey by the National Association of Business Economists (NABE), 35% of the economists who participated reported that the skilled workforce in the U.S. is less than 10 percent. Atomic force microscopes are widely used in nanotechnology. Physicists or engineers using these tools must have extensive interdisciplinary knowledge in surface physics and surface analysis to study the chemical composition of organic compounds characteristics The complexity of equipment mechanisms can have a significant impact on their adoption.

High Infrastructure Costs

  • One of the most important challenges for manufacturers when developing microscopes is accuracy and calibration. Environmental factors such as temperature and pressure greatly influence the substrate under study. Low contrast and bright light can make it difficult to see specific details; Thus, lighting methods require additional effort. High-quality optics and advanced digital image processing are huge investments, further hampering market growth.

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Atomic Force Microscopy Market Competitive Landscape

The competitive environment of the Global Atomic Force Microscopy Market is dynamic and characterized by the presence of a mix of well-established brands, emerging players, and niche producers. Innovation is a key competitive factor. Established organizations within the industry leverage techniques inclusive of product innovation, strategic partnerships, and mergers and acquisitions to strengthen their market position. Additionally, the market is witnessing elevated opposition from local and neighborhood producers supplying cost-powerful options.

Top Player’s Company Profiles

  • Park Systems 
  • Bruker Corporation 
  • AFM Workshop 
  • Nanosurf AG 
  • Anton Paar GmbH 
  • HORIBA  
  • NT-MDT Spectrum Instruments  
  • Anton Paar GmbH 
  • Nanonics Imaging Ltd 
  • Nanomagnetics Instruments 
  • Advanced Technologies Center 
  • Keysight Technologies 
  • Tokyo Instruments, Inc. 
  • CSInstruments 
  • Anasys Instruments 
  • Atomic Works 
  • Angstrom Advanced Inc. 
  • Scienta Omicron 
  • Molecular Vista 
  • Shimadzu Corporation

Recent Developments

  • In June 2021, Park Systems (South Korea) announced the launch of the Park FX40, an unprecedented autonomous atomic energy microscope. The Park FX40 Atomic Force Microscope is the first AFM to perform both up-front setup and scanning setup independently.
  • In April 2021, Oxford Instruments (UK) Asylum Research announced the launch of the new Cypher VRS1250 video-rate atomic force microscope (AFM). The new AFM is twice as fast as the first-generation Cypher VRS, offering scan speeds of up to 1250 characters/second and frame rates of up to 45 frames/second. This new high speed will allow researchers to capture nanoscale data on previously inaccessible dynamics.
  • In June 2021, Danaher Corporation launched the Leica Nano business model. New living cell-based light and electron microenvironment (CLEM) workflow solutions designed to increase experimental success rates, improve repeatability, and facilitate light electron microenvironment (EM) delivery will integrate easily.

Atomic Force Microscopy Key Market Trends

  • Increased R&D Activities in Nanotechnology: Growing R&D activities in nanotechnology and nanoscience and increasing infrastructural modernization in semiconductor microelectronics sector are also driving the market growth. The study of polymers, adsorbed molecules, fibers, fibers, powders and other micro substrates in pharmaceuticals and pharmaceuticals, food and beverages, and architecture and design are very important for improving applications.
  • Increasing Adoption of Bio-imaging Technologies: Rapid advances in bio-imaging technologies, resolution capabilities, and image analysis and data management Applications of nanotechnology in medical, pharmaceutical, military defense, food, agriculture, and media and entertainment horizon expected to expand. Quantitative methods of integrated imaging are expected to have improved to open new frontiers for developed and developing countries to contribute significantly to scientific discovery. Developing countries like India and China invests heavily in AFM to study particle science and technology.

Atomic Force Microscopy Market SkyQuest Analysis

SkyQuest’s ABIRAW (Advanced Business Intelligence, Research & Analysis Wing) is our Business Information Services team that Collects, Collates, Correlates, and Analyses the Data collected by means of Primary Exploratory Research backed by robust Secondary Desk research.

The global atomic force microscopy market is expected to witness impressive growth during the forecast period, owing to growing R&D activities in nanotechnology and nanoscience scanning force microscopy and increasing infrastructural modernization in semiconductor microelectronics. Also expected to grow energy microscopy market share, popularity and growth in applications of biological and chemical applications to develop innovative solutions in science in future, is anticipated to attract significant investment, further boosting the atomic energy microscope industry. The important factors influencing the growth of the Atomic Force Microscopes market include committed support from various governments to promote nanotechnology and nanoscience research and development. Furthermore, the rapid rise of Atomic Force Microscopy in Semiconductor & Microelectronics is anticipated to create market opportunities. However, sample degradation due to contact-mode AFM is expected to restrain the market growth. Conversely, the widespread adoption of nuclear power microscopes in health and life sciences offers potential growth opportunities for the nuclear power microscopes market to a greater extent over the forecast period.

Report Metric Details
Market size value in 2022 USD 551 million
Market size value in 2031 USD 886.8 million
Growth Rate 5.43%
Base year 2023
Forecast period 2024-2031
Forecast Unit (Value) USD Million
Segments covered
  • Offering
    • Atomic Force Microscopes (Contact Mode, Non-Contact Mode, and Tapping Mode), Probes, Software, And Others
  • Grade
    • Industrial Grade AFM, And Research Grade AFM
  • Application
    • Material Science, Life Science, Semiconductors and Electronics, Nanomaterial Science, and Others
Regions covered North America (US, Canada), Europe (Germany, France, United Kingdom, Italy, Spain, Rest of Europe), Asia Pacific (China, India, Japan, Rest of Asia-Pacific), Latin America (Brazil, Rest of Latin America), Middle East & Africa (South Africa, GCC Countries, Rest of MEA)
Companies covered
  • Park Systems 
  • Bruker Corporation 
  • AFM Workshop 
  • Nanosurf AG 
  • Anton Paar GmbH 
  • HORIBA  
  • NT-MDT Spectrum Instruments  
  • Anton Paar GmbH 
  • Nanonics Imaging Ltd 
  • Nanomagnetics Instruments 
  • Advanced Technologies Center 
  • Keysight Technologies 
  • Tokyo Instruments, Inc. 
  • CSInstruments 
  • Anasys Instruments 
  • Atomic Works 
  • Angstrom Advanced Inc. 
  • Scienta Omicron 
  • Molecular Vista 
  • Shimadzu Corporation
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Table Of Content

Executive Summary

Market overview

  • Exhibit: Executive Summary – Chart on Market Overview
  • Exhibit: Executive Summary – Data Table on Market Overview
  • Exhibit: Executive Summary – Chart on Atomic Force Microscopy Market Characteristics
  • Exhibit: Executive Summary – Chart on Market by Geography
  • Exhibit: Executive Summary – Chart on Market Segmentation
  • Exhibit: Executive Summary – Chart on Incremental Growth
  • Exhibit: Executive Summary – Data Table on Incremental Growth
  • Exhibit: Executive Summary – Chart on Vendor Market Positioning

Parent Market Analysis

Market overview

Market size

  • Market Dynamics
    • Exhibit: Impact analysis of DROC, 2021
      • Drivers
      • Opportunities
      • Restraints
      • Challenges
  • SWOT Analysis

KEY MARKET INSIGHTS

  • Technology Analysis
    • (Exhibit: Data Table: Name of technology and details)
  • Pricing Analysis
    • (Exhibit: Data Table: Name of technology and pricing details)
  • Supply Chain Analysis
    • (Exhibit: Detailed Supply Chain Presentation)
  • Value Chain Analysis
    • (Exhibit: Detailed Value Chain Presentation)
  • Ecosystem Of the Market
    • Exhibit: Parent Market Ecosystem Market Analysis
    • Exhibit: Market Characteristics of Parent Market
  • IP Analysis
    • (Exhibit: Data Table: Name of product/technology, patents filed, inventor/company name, acquiring firm)
  • Trade Analysis
    • (Exhibit: Data Table: Import and Export data details)
  • Startup Analysis
    • (Exhibit: Data Table: Emerging startups details)
  • Raw Material Analysis
    • (Exhibit: Data Table: Mapping of key raw materials)
  • Innovation Matrix
    • (Exhibit: Positioning Matrix: Mapping of new and existing technologies)
  • Pipeline product Analysis
    • (Exhibit: Data Table: Name of companies and pipeline products, regional mapping)
  • Macroeconomic Indicators

COVID IMPACT

  • Introduction
  • Impact On Economy—scenario Assessment
    • Exhibit: Data on GDP - Year-over-year growth 2016-2022 (%)
  • Revised Market Size
    • Exhibit: Data Table on Atomic Force Microscopy Market size and forecast 2021-2027 ($ million)
  • Impact Of COVID On Key Segments
    • Exhibit: Data Table on Segment Market size and forecast 2021-2027 ($ million)
  • COVID Strategies By Company
    • Exhibit: Analysis on key strategies adopted by companies

MARKET DYNAMICS & OUTLOOK

  • Market Dynamics
    • Exhibit: Impact analysis of DROC, 2021
      • Drivers
      • Opportunities
      • Restraints
      • Challenges
  • Regulatory Landscape
    • Exhibit: Data Table on regulation from different region
  • SWOT Analysis
  • Porters Analysis
    • Competitive rivalry
      • Exhibit: Competitive rivalry Impact of key factors, 2021
    • Threat of substitute products
      • Exhibit: Threat of Substitute Products Impact of key factors, 2021
    • Bargaining power of buyers
      • Exhibit: buyers bargaining power Impact of key factors, 2021
    • Threat of new entrants
      • Exhibit: Threat of new entrants Impact of key factors, 2021
    • Bargaining power of suppliers
      • Exhibit: Threat of suppliers bargaining power Impact of key factors, 2021
  • Skyquest special insights on future disruptions
    • Political Impact
    • Economic impact
    • Social Impact
    • Technical Impact
    • Environmental Impact
    • Legal Impact

Market Size by Region

  • Chart on Market share by geography 2021-2027 (%)
  • Data Table on Market share by geography 2021-2027(%)
  • North America
    • Chart on Market share by country 2021-2027 (%)
    • Data Table on Market share by country 2021-2027(%)
    • USA
      • Exhibit: Chart on Market share 2021-2027 (%)
      • Exhibit: Market size and forecast 2021-2027 ($ million)
    • Canada
      • Exhibit: Chart on Market share 2021-2027 (%)
      • Exhibit: Market size and forecast 2021-2027 ($ million)
  • Europe
    • Chart on Market share by country 2021-2027 (%)
    • Data Table on Market share by country 2021-2027(%)
    • Germany
      • Exhibit: Chart on Market share 2021-2027 (%)
      • Exhibit: Market size and forecast 2021-2027 ($ million)
    • Spain
      • Exhibit: Chart on Market share 2021-2027 (%)
      • Exhibit: Market size and forecast 2021-2027 ($ million)
    • France
      • Exhibit: Chart on Market share 2021-2027 (%)
      • Exhibit: Market size and forecast 2021-2027 ($ million)
    • UK
      • Exhibit: Chart on Market share 2021-2027 (%)
      • Exhibit: Market size and forecast 2021-2027 ($ million)
    • Rest of Europe
      • Exhibit: Chart on Market share 2021-2027 (%)
      • Exhibit: Market size and forecast 2021-2027 ($ million)
  • Asia Pacific
    • Chart on Market share by country 2021-2027 (%)
    • Data Table on Market share by country 2021-2027(%)
    • China
      • Exhibit: Chart on Market share 2021-2027 (%)
      • Exhibit: Market size and forecast 2021-2027 ($ million)
    • India
      • Exhibit: Chart on Market share 2021-2027 (%)
      • Exhibit: Market size and forecast 2021-2027 ($ million)
    • Japan
      • Exhibit: Chart on Market share 2021-2027 (%)
      • Exhibit: Market size and forecast 2021-2027 ($ million)
    • South Korea
      • Exhibit: Chart on Market share 2021-2027 (%)
      • Exhibit: Market size and forecast 2021-2027 ($ million)
    • Rest of Asia Pacific
      • Exhibit: Chart on Market share 2021-2027 (%)
      • Exhibit: Market size and forecast 2021-2027 ($ million)
  • Latin America
    • Chart on Market share by country 2021-2027 (%)
    • Data Table on Market share by country 2021-2027(%)
    • Brazil
      • Exhibit: Chart on Market share 2021-2027 (%)
      • Exhibit: Market size and forecast 2021-2027 ($ million)
    • Rest of South America
      • Exhibit: Chart on Market share 2021-2027 (%)
      • Exhibit: Market size and forecast 2021-2027 ($ million)
  • Middle East & Africa (MEA)
    • Chart on Market share by country 2021-2027 (%)
    • Data Table on Market share by country 2021-2027(%)
    • GCC Countries
      • Exhibit: Chart on Market share 2021-2027 (%)
      • Exhibit: Market size and forecast 2021-2027 ($ million)
    • South Africa
      • Exhibit: Chart on Market share 2021-2027 (%)
      • Exhibit: Market size and forecast 2021-2027 ($ million)
    • Rest of MEA
      • Exhibit: Chart on Market share 2021-2027 (%)
      • Exhibit: Market size and forecast 2021-2027 ($ million)

KEY COMPANY PROFILES

  • Competitive Landscape
    • Total number of companies covered
      • Exhibit: companies covered in the report, 2021
    • Top companies market positioning
      • Exhibit: company positioning matrix, 2021
    • Top companies market Share
      • Exhibit: Pie chart analysis on company market share, 2021(%)

Methodology

For the Atomic Force Microscopy Market, our research methodology involved a mixture of primary and secondary data sources. Key steps involved in the research process are listed below:

1. Information Procurement: This stage involved the procurement of Market data or related information via primary and secondary sources. The various secondary sources used included various company websites, annual reports, trade databases, and paid databases such as Hoover's, Bloomberg Business, Factiva, and Avention. Our team did 45 primary interactions Globally which included several stakeholders such as manufacturers, customers, key opinion leaders, etc. Overall, information procurement was one of the most extensive stages in our research process.

2. Information Analysis: This step involved triangulation of data through bottom-up and top-down approaches to estimate and validate the total size and future estimate of the Atomic Force Microscopy Market.

3. Report Formulation: The final step entailed the placement of data points in appropriate Market spaces in an attempt to deduce viable conclusions.

4. Validation & Publishing: Validation is the most important step in the process. Validation & re-validation via an intricately designed process helped us finalize data points to be used for final calculations. The final Market estimates and forecasts were then aligned and sent to our panel of industry experts for validation of data. Once the validation was done the report was sent to our Quality Assurance team to ensure adherence to style guides, consistency & design.

Analyst Support

Customization Options

With the given market data, our dedicated team of analysts can offer you the following customization options are available for the Atomic Force Microscopy Market:

Product Analysis: Product matrix, which offers a detailed comparison of the product portfolio of companies.

Regional Analysis: Further analysis of the Atomic Force Microscopy Market for additional countries.

Competitive Analysis: Detailed analysis and profiling of additional Market players & comparative analysis of competitive products.

Go to Market Strategy: Find the high-growth channels to invest your marketing efforts and increase your customer base.

Innovation Mapping: Identify racial solutions and innovation, connected to deep ecosystems of innovators, start-ups, academics, and strategic partners.

Category Intelligence: Customized intelligence that is relevant to their supply Markets will enable them to make smarter sourcing decisions and improve their category management.

Public Company Transcript Analysis: To improve the investment performance by generating new alpha and making better-informed decisions.

Social Media Listening: To analyze the conversations and trends happening not just around your brand, but around your industry as a whole, and use those insights to make better Marketing decisions.

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FAQs

Global Atomic Force Microscopy Market size was valued at USD 551 million in 2022 and is poised to grow from USD 580.9 million in 2023 to USD 886.8 million by 2031, growing at a CAGR of 5.43% during the forecast period (2024-2031).

The competitive environment of the Global Atomic Force Microscopy Market is dynamic and characterized by the presence of a mix of well-established brands, emerging players, and niche producers. Innovation is a key competitive factor. Established organizations within the industry leverage techniques inclusive of product innovation, strategic partnerships, and mergers and acquisitions to strengthen their market position. Additionally, the market is witnessing elevated opposition from local and neighborhood producers supplying cost-powerful options. 'Park Systems ', 'Bruker Corporation ', 'AFM Workshop ', 'Nanosurf AG ', 'Anton Paar GmbH ', 'HORIBA  ', 'NT-MDT Spectrum Instruments  ', 'Anton Paar GmbH ', 'Nanonics Imaging Ltd ', 'Nanomagnetics Instruments ', 'Advanced Technologies Center ', 'Keysight Technologies ', 'Tokyo Instruments, Inc. ', 'CSInstruments ', 'Anasys Instruments ', 'Atomic Works ', 'Angstrom Advanced Inc. ', 'Scienta Omicron ', 'Molecular Vista ', 'Shimadzu Corporation'

Over the last 3 decades, atomic force microscopy is a powerful nanotechnology imaging tool that provides a variety of methods to investigate nanomaterial properties, such as topography, elasticity, adhesion, friction, electrical properties, and the presence of magnetism in the field of materials. Nanotechnology can be useful in a variety of industries including pharmaceutical manufacturing, water purification, information and communication systems, and the production of strong, lightweight, robust, and uniform nanomaterials so governments have the world is promoting nanotechnology research funding. For example, the German government provided funding worth about $17 million (€15.6 million) for the construction of an electron cryo-microscopy facility at the Center for Structural Systems Biology (CSSB).

Increased R&D Activities in Nanotechnology: Growing R&D activities in nanotechnology and nanoscience and increasing infrastructural modernization in semiconductor microelectronics sector are also driving the market growth. The study of polymers, adsorbed molecules, fibers, fibers, powders and other micro substrates in pharmaceuticals and pharmaceuticals, food and beverages, and architecture and design are very important for improving applications.

North America leads the global atomic force microscopy (AFM) market, thanks to its early adoption of the latest technologies. Several key players in this segment are continuously innovating to develop high-resolution AFMs. One notable advancement is the development by Integrated Circuit Scanning Probe Instruments of an atomic force microscope featuring a single chip with the highest resolution. These companies are committed to investing in research and development and are even collaborating with competitors to further enhance performance at the micro level.

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