Market Overview:
The global Raman-AFM market is expected to grow at a CAGR of 7.5% during the forecast period from 2018 to 2030. The growth in this market can be attributed to the increasing demand for Raman-AFM systems from various application areas such as material science, biology, and others. Additionally, the growing demand for miniaturization of devices is also contributing to the growth of this market. However, factors such as high cost and complexity associated with these systems are restraining its growth in certain regions.
Product Definition:
Raman-atomic force microscopy (AFM) is a technique that combines Raman spectroscopy with atomic force microscopy (AFM). This combination allows for the visualization of both the topography and the chemical composition of a sample simultaneously. The importance of Raman-AFM is that it can be used to identify and map the distribution of different molecules in a sample.
Atomic Force Microscopy:
Atomic force microscopy (AFM) is a surface analysis technique that utilizes the atomic-scale resolution of electrons to provide a magnified image of surfaces. It is one of the most advanced technologies available in the market and has gained popularity among researchers as well as students over recent years. The primary advantage offered by this technology includes high spatial resolution, which helps in gaining information about very small features of surfaces, i.e., at or below 100 nm scale.
Raman Spectrum:
Raman spectrum is the line-scanning technique that utilizes the phenomenon of Raman effect to analyze molecular structures and composition. It is used for various applications such as protein fingerprinting, food analysis, forensic science, biotechnology research and clinical diagnosis. The primary application of this technique in AFM market includes detection of analytes (e.g., drugs or biomarkers) by determining their characteristic vibrations at different frequencies using spectroscopy mode microscopy (SMM).
Application Insights:
The others segment includes applications such as food science and technology, material science, biology and medicine. The Raman-AFM technique is widely used in the field of materials science for various purposes including structural analysis of materials by observing their characteristic vibrations on a spectrometer. It also finds application in the study of biological systems where it can be used to analyze molecular structures, dynamics and interactions at the atomic level.
Material Science Application Analysis: Material Sciences accounted for over 40% market share in 2017 owing to increasing demand from industrial users who require high resolution imaging capabilities for gaining insights into their samples. Biology Application Analysis: The usage of this technique has increased significantly across a wide range within the life sciences sector which includes medical research & diagnosis as well as understanding cellular processes at an atomic level using molecular probes like molecules or ions with dimensions smaller than 1 nanometer (nm).
Regional Analysis:
Asia Pacific dominated the global market in 2017. This is attributed to the presence of a large number of research organizations and universities in this region, which has resulted in high demand for Raman-AFM systems. Moreover, increasing government funding for R&D activities related to nanomaterials and biotechnology is also expected to drive regional growth over the forecast period.
North America accounted for a significant share owing to growing material science research focusing on advanced materials with unique properties such as optical transparency, magnetic permeability etc., Furthermore, growing interest among researchers towards bio-Raman spectroscopy due to its advantages over other techniques used for chemical analysis coupled with rising healthcare expenditure by governments are some factors driving regional growth.
Growth Factors:
- Increasing demand for miniaturization in electronics industry is expected to drive the Raman-AFM market growth.
- Rising research and development expenditure by pharmaceutical and biotechnology companies is also anticipated to propel the Raman-AFM market growth over the forecast period.
- Growing number of conferences and symposiums related to nanotechnology is projected to fuel the Raman-AFM market demand in near future.
- Increasing use of Raman spectroscopy for quality control and process monitoring in various industries is likely to boost the Raman-AFM market growth rate during forecast period.
Scope Of The Report
Report Attributes
Report Details
Report Title
Raman-AFM Market Research Report
By Type
Atomic Force Microscopy, Raman Spectrum
By Application
Material Science, Biology, Others
By Companies
Bruker, Renishaw, Park Systems, HORIBA, Bruker
Regions Covered
North America, Europe, APAC, Latin America, MEA
Base Year
2021
Historical Year
2019 to 2020 (Data from 2010 can be provided as per availability)
Forecast Year
2030
Number of Pages
137
Number of Tables & Figures
96
Customization Available
Yes, the report can be customized as per your need.
Global Raman-AFM Market Report Segments:
The global Raman-AFM market is segmented on the basis of:
Types
Atomic Force Microscopy, Raman Spectrum
The product segment provides information about the market share of each product and the respective CAGR during the forecast period. It lays out information about the product pricing parameters, trends, and profits that provides in-depth insights of the market. Furthermore, it discusses latest product developments & innovation in the market.
Applications
Material Science, Biology, Others
The application segment fragments various applications of the product and provides information on the market share and growth rate of each application segment. It discusses the potential future applications of the products and driving and restraining factors of each application segment.
Some of the companies that are profiled in this report are:
- Bruker
- Renishaw
- Park Systems
- HORIBA
- Bruker
Highlights of The Raman-AFM Market Report:
- The market structure and projections for the coming years.
- Drivers, restraints, opportunities, and current trends of market.
- Historical data and forecast.
- Estimations for the forecast period 2030.
- Developments and trends in the market.
- By Type:
- Atomic Force Microscopy
- Raman Spectrum
- By Application:
- Material Science
- Biology
- Others
- Market scenario by region, sub-region, and country.
- Market share of the market players, company profiles, product specifications, SWOT analysis, and competitive landscape.
- Analysis regarding upstream raw materials, downstream demand, and current market dynamics.
- Government Policies, Macro & Micro economic factors are also included in the report.
We have studied the Raman-AFM Market in 360 degrees via. both primary & secondary research methodologies. This helped us in building an understanding of the current market dynamics, supply-demand gap, pricing trends, product preferences, consumer patterns & so on. The findings were further validated through primary research with industry experts & opinion leaders across countries. The data is further compiled & validated through various market estimation & data validation methodologies. Further, we also have our in-house data forecasting model to predict market growth up to 2030.
Regional Analysis
- North America
- Europe
- Asia Pacific
- Middle East & Africa
- Latin America
Note: A country of choice can be added in the report at no extra cost. If more than one country needs to be added, the research quote will vary accordingly.
The geographical analysis part of the report provides information about the product sales in terms of volume and revenue in regions. It lays out potential opportunities for the new entrants, emerging players, and major players in the region. The regional analysis is done after considering the socio-economic factors and government regulations of the countries in the regions.
How you may use our products:
- Correctly Positioning New Products
- Market Entry Strategies
- Business Expansion Strategies
- Consumer Insights
- Understanding Competition Scenario
- Product & Brand Management
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8 Reasons to Buy This Report
- Includes a Chapter on the Impact of COVID-19 Pandemic On the Market
- Report Prepared After Conducting Interviews with Industry Experts & Top Designates of the Companies in the Market
- Implemented Robust Methodology to Prepare the Report
- Includes Graphs, Statistics, Flowcharts, and Infographics to Save Time
- Industry Growth Insights Provides 24/5 Assistance Regarding the Doubts in the Report
- Provides Information About the Top-winning Strategies Implemented by Industry Players.
- In-depth Insights On the Market Drivers, Restraints, Opportunities, and Threats
- Customization of the Report Available
Frequently Asked Questions?
Raman-AFM is a spectroscopic technique that uses the Raman effect to identify and map the chemical composition of materials. By measuring the wavelength of light that is scattered by molecules in a sample, Raman-AFM can create detailed images of the material's molecular structure. This information can then be used to identify specific chemicals and compounds present in a sample.
Some of the key players operating in the raman-afm market are Bruker, Renishaw, Park Systems, HORIBA, Bruker.
The raman-afm market is expected to register a CAGR of 7.5%.
Chapter 1 Executive Summary
Chapter 2 Assumptions and Acronyms Used
Chapter 3 Research Methodology
Chapter 4 Raman-AFM Market Overview
4.1 Introduction
4.1.1 Market Taxonomy
4.1.2 Market Definition
4.1.3 Macro-Economic Factors Impacting the Market Growth
4.2 Raman-AFM Market Dynamics
4.2.1 Market Drivers
4.2.2 Market Restraints
4.2.3 Market Opportunity
4.3 Raman-AFM Market - Supply Chain Analysis
4.3.1 List of Key Suppliers
4.3.2 List of Key Distributors
4.3.3 List of Key Consumers
4.4 Key Forces Shaping the Raman-AFM Market
4.4.1 Bargaining Power of Suppliers
4.4.2 Bargaining Power of Buyers
4.4.3 Threat of Substitution
4.4.4 Threat of New Entrants
4.4.5 Competitive Rivalry
4.5 Global Raman-AFM Market Size & Forecast, 2020-2028
4.5.1 Raman-AFM Market Size and Y-o-Y Growth
4.5.2 Raman-AFM Market Absolute $ Opportunity
Chapter 5 Global Market Analysis and Forecast by Type
5.1 Introduction
5.1.1 Key Market Trends & Growth Opportunities by Type
5.1.2 Basis Point Share (BPS) Analysis by Type
5.1.3 Absolute $ Opportunity Assessment by Type
5.2 Market Size Forecast by Type
5.2.1 Atomic Force Microscopy
5.2.2 Raman Spectrum
5.3 Market Attractiveness Analysis by Type
Chapter 6 Global Market Analysis and Forecast by Applications
6.1 Introduction
6.1.1 Key Market Trends & Growth Opportunities by Applications
6.1.2 Basis Point Share (BPS) Analysis by Applications
6.1.3 Absolute $ Opportunity Assessment by Applications
6.2 Market Size Forecast by Applications
6.2.1 Material Science
6.2.2 Biology
6.2.3 Others
6.3 Market Attractiveness Analysis by Applications
Chapter 7 Global Raman-AFM Market Analysis and Forecast by Region
7.1 Introduction
7.1.1 Key Market Trends & Growth Opportunities by Region
7.1.2 Basis Point Share (BPS) Analysis by Region
7.1.3 Absolute $ Opportunity Assessment by Region
7.2 Raman-AFM Market Size Forecast by Region
7.2.1 North America
7.2.2 Europe
7.2.3 Asia Pacific
7.2.4 Latin America
7.2.5 Middle East & Africa (MEA)
7.3 Market Attractiveness Analysis by Region
Chapter 8 Coronavirus Disease (COVID-19) Impact
8.1 Introduction
8.2 Current & Future Impact Analysis
8.3 Economic Impact Analysis
8.4 Government Policies
8.5 Investment Scenario
Chapter 9 North America Analysis and Forecast
9.1 Introduction
9.2 North America Market Size Forecast by Country
9.2.1 U.S.
9.2.2 Canada
9.3 Basis Point Share (BPS) Analysis by Country
9.4 Absolute $ Opportunity Assessment by Country
9.5 Market Attractiveness Analysis by Country
9.6 North America Market Size Forecast by Type
9.6.1 Atomic Force Microscopy
9.6.2 Raman Spectrum
9.7 Basis Point Share (BPS) Analysis by Type
9.8 Absolute $ Opportunity Assessment by Type
9.9 Market Attractiveness Analysis by Type
9.10 North America Market Size Forecast by Applications
9.10.1 Material Science
9.10.2 Biology
9.10.3 Others
9.11 Basis Point Share (BPS) Analysis by Applications
9.12 Absolute $ Opportunity Assessment by Applications
9.13 Market Attractiveness Analysis by Applications
Chapter 10 Europe Analysis and Forecast
10.1 Introduction
10.2 Europe Market Size Forecast by Country
10.2.1 Germany
10.2.2 France
10.2.3 Italy
10.2.4 U.K.
10.2.5 Spain
10.2.6 Russia
10.2.7 Rest of Europe
10.3 Basis Point Share (BPS) Analysis by Country
10.4 Absolute $ Opportunity Assessment by Country
10.5 Market Attractiveness Analysis by Country
10.6 Europe Market Size Forecast by Type
10.6.1 Atomic Force Microscopy
10.6.2 Raman Spectrum
10.7 Basis Point Share (BPS) Analysis by Type
10.8 Absolute $ Opportunity Assessment by Type
10.9 Market Attractiveness Analysis by Type
10.10 Europe Market Size Forecast by Applications
10.10.1 Material Science
10.10.2 Biology
10.10.3 Others
10.11 Basis Point Share (BPS) Analysis by Applications
10.12 Absolute $ Opportunity Assessment by Applications
10.13 Market Attractiveness Analysis by Applications
Chapter 11 Asia Pacific Analysis and Forecast
11.1 Introduction
11.2 Asia Pacific Market Size Forecast by Country
11.2.1 China
11.2.2 Japan
11.2.3 South Korea
11.2.4 India
11.2.5 Australia
11.2.6 South East Asia (SEA)
11.2.7 Rest of Asia Pacific (APAC)
11.3 Basis Point Share (BPS) Analysis by Country
11.4 Absolute $ Opportunity Assessment by Country
11.5 Market Attractiveness Analysis by Country
11.6 Asia Pacific Market Size Forecast by Type
11.6.1 Atomic Force Microscopy
11.6.2 Raman Spectrum
11.7 Basis Point Share (BPS) Analysis by Type
11.8 Absolute $ Opportunity Assessment by Type
11.9 Market Attractiveness Analysis by Type
11.10 Asia Pacific Market Size Forecast by Applications
11.10.1 Material Science
11.10.2 Biology
11.10.3 Others
11.11 Basis Point Share (BPS) Analysis by Applications
11.12 Absolute $ Opportunity Assessment by Applications
11.13 Market Attractiveness Analysis by Applications
Chapter 12 Latin America Analysis and Forecast
12.1 Introduction
12.2 Latin America Market Size Forecast by Country
12.2.1 Brazil
12.2.2 Mexico
12.2.3 Rest of Latin America (LATAM)
12.3 Basis Point Share (BPS) Analysis by Country
12.4 Absolute $ Opportunity Assessment by Country
12.5 Market Attractiveness Analysis by Country
12.6 Latin America Market Size Forecast by Type
12.6.1 Atomic Force Microscopy
12.6.2 Raman Spectrum
12.7 Basis Point Share (BPS) Analysis by Type
12.8 Absolute $ Opportunity Assessment by Type
12.9 Market Attractiveness Analysis by Type
12.10 Latin America Market Size Forecast by Applications
12.10.1 Material Science
12.10.2 Biology
12.10.3 Others
12.11 Basis Point Share (BPS) Analysis by Applications
12.12 Absolute $ Opportunity Assessment by Applications
12.13 Market Attractiveness Analysis by Applications
Chapter 13 Middle East & Africa (MEA) Analysis and Forecast
13.1 Introduction
13.2 Middle East & Africa (MEA) Market Size Forecast by Country
13.2.1 Saudi Arabia
13.2.2 South Africa
13.2.3 UAE
13.2.4 Rest of Middle East & Africa (MEA)
13.3 Basis Point Share (BPS) Analysis by Country
13.4 Absolute $ Opportunity Assessment by Country
13.5 Market Attractiveness Analysis by Country
13.6 Middle East & Africa (MEA) Market Size Forecast by Type
13.6.1 Atomic Force Microscopy
13.6.2 Raman Spectrum
13.7 Basis Point Share (BPS) Analysis by Type
13.8 Absolute $ Opportunity Assessment by Type
13.9 Market Attractiveness Analysis by Type
13.10 Middle East & Africa (MEA) Market Size Forecast by Applications
13.10.1 Material Science
13.10.2 Biology
13.10.3 Others
13.11 Basis Point Share (BPS) Analysis by Applications
13.12 Absolute $ Opportunity Assessment by Applications
13.13 Market Attractiveness Analysis by Applications
Chapter 14 Competition Landscape
14.1 Raman-AFM Market: Competitive Dashboard
14.2 Global Raman-AFM Market: Market Share Analysis, 2019
14.3 Company Profiles (Details – Overview, Financials, Developments, Strategy)
14.3.1 Bruker
14.3.2 Renishaw
14.3.3 Park Systems
14.3.4 HORIBA
14.3.5 Bruker
