Atomic Force Microscopes Market Size, Share, Opportunities, And Trends By Offering (Atomic Force Microscopy, Probes, Software), By Grade (Industrial Grade, Research Grade), By End-User (Semiconductor and electronics, Academics, Material Science, Life Sciences), And By Geography - Forecasts From 2024 To 2029
- Published : Mar 2024
- Report Code : KSI061616800
- Pages : 140
The atomic force microscopes (AFMs) market is anticipated to grow significantly over the forecast period.
Atomic Force Microscopes (AFMs) are sophisticated microscopy tools that can image, measure, and manipulate materials at the nanoscale. They provide high-resolution imaging and exact surface characterization by scanning a sharp probe tip across a sample surface and detecting tip-to-sample contacts.
Some of the key components of force gauge are probe tip, cantilever, scanner, detection systems, and imaging modes. An AFM probe tip, commonly made of sharp silicon or silicon nitride, detects electrostatic, and chemical bonding forces on the sample's surface.
Capacitive sensors employ probe tip deflection on flexible cantilever beams to detect sample surface topography and mechanical features, allowing for the precise imaging of sample quality and surface topography as well as analysis of sample properties and mechanical behavior.
AFMs are used in a variety of scientific disciplines, including materials science, life science, nanotechnology, semiconductor wafer inspection, surface chemistry, and biophysics, to characterize nanomaterials, image biomolecules, analyze nanostructures, and investigate biomolecular interactions.
AFMs are powerful tools for nanoscale research, enabling scientists and engineers to explore and understand the properties and behavior of materials and biological systems with unprecedented resolution and precision.
Market Drivers
- Advancements in nanotechnology and materials science are fueling the atomic force microscopes market growth
Technological advancements in nanotechnology, materials science, and related fields fuel the demand for high-resolution imaging and precise surface analysis tools like AFMs. As researchers strive to understand and manipulate materials at the nanoscale level, the need for advanced microscopy techniques, including AFMs, continues to grow.
Among various atomic scope microscopes available in the market ezAFM is one of them. This is a tiny atomic force microscopy system with two distinct scan heads, 40x40x4 µm and 120x120x40 µm. It allows for easy, safe, and frequent head replacement for varied scan sizes, Z ranges, or air/liquid media.
Another force gauge is the APEXVIEW APX100 all-in-one microscope makes it quick and easy to capture expert-quality microscope pictures. Built with renowned Olympus optics, an intuitive user interface, a strong AI, and a suite of smart features, the APX100 system combines the convenience of an all-in-one microscope with high-quality picture data to meet your research needs.
Advances in nanotechnology and materials science are driving the AFMs market expansion by allowing for detailed characterization of nanomaterials and supporting novel products and technologies with nanoscale characteristics. As nanotechnology advances, AFMs' importance in nanoscale research and manipulation is projected to expand even more.
- Increasing technological innovations and product developments are contributing to the atomic force microscopes market growth
Continuous advancements in AFM technology, such as improvements in scanning speed, resolution, automation, and multi-modal imaging capabilities, enhance the performance and versatility of AFMs.
Manufacturers are investing in research and development to introduce innovative AFM systems, accessories, and software solutions tailored to the evolving needs of users across different industries and applications.
ICSPI, a pioneer in benchtop nanoscale imaging technology, has released Redux AFM, an automated atomic force microscope that allows scientists and engineers to rapidly gather 3D data at the nanoscale. The Redux AFM allows the user to effortlessly acquire 3D topography data with sub-nanometer resolution on your benchtop. In minutes, the user may obtain quantitative data on topography, roughness, film thickness, particle size, and other parameters.
The AFMs market is booming as a result of technical advancements that improve imaging capabilities, increase user accessibility, and open up new avenues for scientific research. This expansion is fueled by continual research, industry cooperation, and market response.
Market Restraints
- Limited throughput and scanning speed hampers the market growth
AFMs are slow microscopy methods, particularly for large-area imaging or three-dimensional mapping, which may restrict their use for high-throughput applications or time-sensitive investigations, limiting their use in some research and industrial environments.
The atomic force microscopes market is segmented based on its grade type
The atomic force microscopes market is segmented based on its different grade types. Industrial-grade AFMs are rugged devices built for industrial usage, delivering precise measurements for process monitoring, defect analysis, and surface metrology while assuring throughput, reliability, and ease of use, making them perfect for high-volume manufacturing environments.
Research-grade atomic force microscopes are high-resolution, sensitive, and flexible scientific research tools for investigating nanoscale events, characterizing materials, and undertaking fundamental physics, chemistry, biology, and materials science research.
North America is anticipated to hold a significant share of the atomic force microscopes market.
The North American region is anticipated to hold a significant share of the atomic force microscopes market. It is home to some of the world's leading manufacturers of AFMs, including Bruker Corporation, Park Systems, and Keysight Technologies. These companies have a strong presence in the region and cater to a wide range of research institutions, universities, and industrial customers.
North America's research environment, backed by prestigious universities, national labs, and institutes, is prospering in nanotechnology, materials science, and life sciences, creating a strong need for sophisticated microscopy methods. The region is a technological innovation hotspot, encouraging collaboration between academics and businesses to create sophisticated AFM systems and accessories.
Overall, North America's leadership in research, innovation, and industry, together with extensive acceptance of AFMs in the academic, industrial, and healthcare sectors, establishes the area as an important market for Atomic Force Microscopes.
Key Developments
- April 2023 – Oxford Instruments asylum released the Cypher ES Battery Edition, a high-performance atomic force microscope kit intended for battery research. This configuration combines rapid scanning, a dynamic process captured, and unparalleled stability and resolution, even when linked to a glovebox for lithium battery research.
- January 2023 - Park Devices, a leading manufacturer of AFM and nanometrology devices, released the ParkedNX-IR R300, a nanoscale infrared spectroscopy device that combines infrared spectroscopy with atomic forced microscopy to offer high-resolution chemical property data and defect analysis.
Company Products
- Park NX-TSH – The Park NX-TSH, equipped with a Tip Scanning Head, is an effective instrument for getting high-resolution AFM pictures on a variety of materials, including OLEDs, LCDs, and photomasks, overcoming nanometrology problems and producing accurate, non-destructive results.
- MFP-3D Origin+– The MFP-3D Origin+ is a flexible and high-performance AFM with vast capabilities at a reasonable price when compared to other low-cost variants. It supports a wide variety of imaging modes and accessories, making it perfect for busy labs. The durable, dependable design provides a wide range of imaging modes and accessories, allowing for experimental freedom without losing performance.
Market Segmentation-
- By Offering
- Atomic Force Microscopy
- Probes
- Software
- By Grade
- Industrial Grade
- Research Grade
- By End-User
- Semiconductor and electronics
- Academics
- Material Science
- Life Sciences
- By Geography
- North America
- USA
- Canada
- Mexico
- South America
- Brazil
- Argentina
- Others
- Europe
- Germany
- France
- UK
- Spain
- Others
- Middle East and Africa
- Saudi Arabia
- UAE
- Israel
- Others
- Asia Pacific
- China
- Japan
- India
- South Korea
- Indonesia
- Taiwan
- Others
- North America
1. INTRODUCTION
1.1. Market Overview
1.2. Market Definition
1.3. Scope of the Study
1.4. Market Segmentation
1.5. Currency
1.6. Assumptions
1.7. Base, and Forecast Years Timeline
1.8. Key benefits to the stakeholder
2. RESEARCH METHODOLOGY
2.1. Research Design
2.2. Research Process
3. EXECUTIVE SUMMARY
3.1. Key Findings
3.2. Analyst View
4. MARKET DYNAMICS
4.1. Market Drivers
4.2. Market Restraints
4.3. Porter’s Five Forces Analysis
4.3.1. Bargaining Power of Suppliers
4.3.2. Bargaining Power of Buyers
4.3.3. Threat of New Entrants
4.3.4. Threat of Substitutes
4.3.5. Competitive Rivalry in the Industry
4.4. Industry Value Chain Analysis
4.5. Analyst View
5. ATOMIC FORCE MICROSCOPY MARKET BY OFFERING
5.1. Introduction
5.2. Atomic force microscopy
5.2.1. Market opportunities and trends
5.2.2. Growth prospects
5.2.3. Geographic lucrativeness
5.3. Probes
5.3.1. Market opportunities and trends
5.3.2. Growth prospects
5.3.3. Geographic lucrativeness
5.4. Software
5.4.1. Market opportunities and trends
5.4.2. Growth prospects
5.4.3. Geographic lucrativeness
6. ATOMIC FORCE MICROSCOPES BY GRADE
6.1. Introduction
6.2. Industrial Grade
6.2.1. Market opportunities and trends
6.2.2. Growth prospects
6.2.3. Geographic lucrativeness
6.3. Research Grade
6.3.1. Market opportunities and trends
6.3.2. Growth prospects
6.3.3. Geographic lucrativeness
7. ATOMIC FORCE MICROSCOPY MARKET BY END-USER
7.1. Introduction
7.2. Semiconductor and electronics
7.2.1. Market opportunities and trends
7.2.2. Growth prospects
7.2.3. Geographic lucrativeness
7.3. Academics
7.3.1. Market opportunities and trends
7.3.2. Growth prospects
7.3.3. Geographic lucrativeness
7.4. Material Science
7.4.1. Market opportunities and trends
7.4.2. Growth prospects
7.4.3. Geographic lucrativeness
7.5. Life Sciences
7.5.1. Market opportunities and trends
7.5.2. Growth prospects
7.5.3. Geographic lucrativeness
8. ATOMIC FORCE MICROSCOPY MARKET BY GEOGRAPHY
8.1. Introduction
8.2. North America
8.2.1. By Offering
8.2.2. By Grade
8.2.3. By End-user
8.2.4. By Country
8.2.4.1. United States
8.2.4.1.1. Market Trends and Opportunities
8.2.4.1.2. Growth Prospects
8.2.4.2. Canada
8.2.4.2.1. Market Trends and Opportunities
8.2.4.2.2. Growth Prospects
8.2.4.3. Mexico
8.2.4.3.1. Market Trends and Opportunities
8.2.4.3.2. Growth Prospects
8.3. South America
8.3.1. By Offering
8.3.2. By Grade
8.3.3. By End-user
8.3.4. By Country
8.3.4.1. Brazil
8.3.4.1.1. Market Trends and Opportunities
8.3.4.1.2. Growth Prospects
8.3.4.2. Argentina
8.3.4.2.1. Market Trends and Opportunities
8.3.4.2.2. Growth Prospects
8.3.4.3. Others
8.3.4.3.1. Market Trends and Opportunities
8.3.4.3.2. Growth Prospects
8.4. Europe
8.4.1. By Offering
8.4.2. By Grade
8.4.3. By End-user
8.4.4. By Country
8.4.4.1. Germany
8.4.4.1.1. Market Trends and Opportunities
8.4.4.1.2. Growth Prospects
8.4.4.2. France
8.4.4.2.1. Market Trends and Opportunities
8.4.4.2.2. Growth Prospects
8.4.4.3. UK
8.4.4.3.1. Market Trends and Opportunities
8.4.4.3.2. Growth Prospects
8.4.4.4. Spain
8.4.4.4.1. Market Trends and Opportunities
8.4.4.4.2. Growth Prospects
8.4.4.5. Others
8.4.4.5.1. Market Trends and Opportunities
8.4.4.5.2. Growth Prospects
8.5. Middle East and Africa
8.5.1. By Offering
8.5.2. By Grade
8.5.3. By End-user
8.5.4. By Country
8.5.4.1. Saudi Arabia
8.5.4.1.1. Market Trends and Opportunities
8.5.4.1.2. Growth Prospects
8.5.4.2. UAE
8.5.4.2.1. Market Trends and Opportunities
8.5.4.2.2. Growth Prospects
8.5.4.3. Israel
8.5.4.3.1. Market Trends and Opportunities
8.5.4.3.2. Growth Prospects
8.5.4.4. Others
8.5.4.4.1. Market Trends and Opportunities
8.5.4.4.2. Growth Prospects
8.6. Asia Pacific
8.6.1. By Offering
8.6.2. By Grade
8.6.3. By End-user
8.6.4. By Country
8.6.4.1. China
8.6.4.1.1. Market Trends and Opportunities
8.6.4.1.2. Growth Prospects
8.6.4.2. Japan
8.6.4.2.1. Market Trends and Opportunities
8.6.4.2.2. Growth Prospects
8.6.4.3. India
8.6.4.3.1. Market Trends and Opportunities
8.6.4.3.2. Growth Prospects
8.6.4.4. South Korea
8.6.4.4.1. Market Trends and Opportunities
8.6.4.4.2. Growth Prospects
8.6.4.5. Indonesia
8.6.4.5.1. Market Trends and Opportunities
8.6.4.5.2. Growth Prospects
8.6.4.6. Taiwan
8.6.4.6.1. Market Trends and Opportunities
8.6.4.6.2. Growth Prospects
8.6.4.7. Others
8.6.4.7.1. Market Trends and Opportunities
8.6.4.7.2. Growth Prospects
9. COMPETITIVE ENVIRONMENT AND ANALYSIS
9.1. Major Players and Strategy Analysis
9.2. Market Share Analysis
9.3. Mergers, Acquisition, Agreements, and Collaborations
9.4. Competitive Dashboard
10. COMPANY PROFILES
10.1. Park Systems
10.2. Nanosurf AG
10.3. AFM Workshop
10.4. Modi Laboratory
10.5. Bruker
10.6. Hitachi
10.7. Oxford Instruments
10.8. Nanomagnetics Instruments
10.9. Nanonics Imaging Ltd
10.10. Anton Paar GmbH
Park Systems
Nanosurf AG
Modi Laboratory
Bruker
Hitachi
Oxford Instruments
Nanomagnetics Instruments
Nanonics Imaging Ltd
Anton Paar GmbH
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