Raman Spectroscopy Market (Type - Benchtop, and Portable; Sampling Technique - Surface-enhanced Raman Scattering, Tip Enhanced Raman Scattering, and Others; Application - Pharmaceutics, Research and Development, Industrial Sector, Material Science, and Ot

Raman Spectroscopy Market (Type - Benchtop, and Portable; Sampling Technique - Surface-enhanced Raman Scattering, Tip Enhanced Raman Scattering, and Others; Application - Pharmaceutics, Research and Development, Industrial Sector, Material Science, and Others): Global Industry Analysis, Trends, Size, Share and Forecasts to 2030



The report on the global Raman spectroscopy market provides qualitative and quantitative analysis for the period from 2021-2030. The global Raman spectroscopy market was valued at USD 786.85 million in 2022 and is expected to reach USD 1497.85 million in 2030, with a CAGR of 7.36% during the forecast period 2023. The study on Raman spectroscopy market covers the analysis of the leading geographies such as North America, Europe, Asia Pacific, and RoW for the period of 2021-2030.

Raman spectroscopy is a non-destructive analytical technique that provides comprehensive information about the chemical composition, structural characteristics, phase variations, crystallinity, and molecular interactions of a substance. It relies on the interaction of light with chemical bonds within a material. The market growth of Raman spectroscopy is anticipated to be driven by the rising demand from the pharmaceutical and biotechnology sectors. These industries are experiencing continuous expansion and actively developing new drugs and therapies. Consequently, there is a growing need for advanced analytical tools, such as Raman spectroscopy, which can offer rapid, precise, and non-destructive sample analysis. Moreover, the application of Raman spectroscopy in material science is expanding, further fueling the market's growth.

Benchtop is the fastest-growing segment in the Type of the Raman Spectroscopy Market

Benchtop Raman spectroscopy refers to a type of Raman spectroscopy system that is designed to be used on a laboratory bench or workbench. It is a compact and portable instrument that offers Raman spectroscopic capabilities for various analytical applications. A benchtop Raman spectroscopy system typically consists of a laser, a spectrometer, and a detector. The laser emits a monochromatic light beam that interacts with the sample under investigation. The scattered light from the sample is collected and sent to the spectrometer, which separates the scattered light into its different wavelengths. The detector then measures the intensity of each wavelength, generating a Raman spectrum.

North America region holds a significant share of the Raman Spectroscopy Market

The Raman spectroscopy market in North America is projected to exhibit dominance owing to the presence of well-established companies and significant investments in Research and Development activities. The United States, in particular, is expected to make a substantial contribution to the regional market growth due to the expanding utilization of Raman spectroscopy in various applications such as drug discovery and material science. Additionally, the increasing demand for Raman spectroscopy across multiple industries, including pharmaceuticals, biotechnology, and food & beverages, is driving the market growth in the North America region.

Report Findings

1) Drivers

Increasing demand from pharmaceuticals and biotechnology industries expected to drive the market growth.

Growing applications in material sciences expected to boost the market growth.

2) Restraints

Lack of awareness and technical expertise expected to hamper the market growth.

3) Opportunities

Integration with other technologies expected to create lucrative growth opportunities for the market growth.

Research Methodology

A) Primary Research

Our primary research involves extensive interviews and analysis of the opinions provided by the primary respondents. The primary research starts with identifying and approaching the primary respondents, the primary respondents are approached include

1. Key Opinion Leaders associated with Infinium Global Research

2. Internal and External subject matter experts

3. Professionals and participants from the industry

Our primary research respondents typically include

1. Executives working with leading companies in the market under review

2. Product/brand/marketing managers

3. CXO level executives

4. Regional/zonal/ country managers

5. Vice President level executives.

B) Secondary Research

Secondary research involves extensive exploring through the secondary sources of information available in both the public domain and paid sources. At Infinium Global Research, each research study is based on over 500 hours of secondary research accompanied by primary research. The information obtained through the secondary sources is validated through the crosscheck on various data sources.

The secondary sources of the data typically include

1. Company reports and publications

2. Government/institutional publications

3. Trade and associations journals

4. Databases such as WTO, OECD, World Bank, and among others.

5. Websites and publications by research agencies

Segment Covered

The global Raman spectroscopy market is segmented on the basis of type, sampling technique, and application.

The Global Raman Spectroscopy Market by Type

Benchtop

Portable

The Global Raman Spectroscopy Market by Sampling Technique

Surface-enhanced Raman Scattering

Tip Enhanced Raman Scattering

Others

The Global Raman Spectroscopy Market by Application

Pharmaceutics

Research and Development

Industrial Sector

Material Science

Others

Company Profiles

The companies covered in the report include

Bruker

Renishaw plc

HORIBA Scientific

Rigaku Corporation

TSI

Metrohm AG

Ocean Insight

Agilent Technologies, Inc.

Shimadzu Corporation

SciAps, Inc.

What does this Report Deliver?

1. Comprehensive analysis of the global as well as regional markets of the Raman spectroscopy market.

2. Complete coverage of all the segments in the Raman spectroscopy market to analyze the trends, developments in the global market and forecast of market size up to 2030.

3. Comprehensive analysis of the companies operating in the global Raman spectroscopy market. The company profile includes analysis of product portfolio, revenue, SWOT analysis and latest developments of the company.

4. IGR- Growth Matrix presents an analysis of the product segments and geographies that market players should focus to invest, consolidate, expand and/or diversify.


Chapter 1. Preface
1.1. Report Description
1.2. Research Methods
1.3. Research Approaches
Chapter 2. Executive Summary
2.1. Raman Spectroscopy Market Highlights
2.2. Raman Spectroscopy Market Projection
2.3. Raman Spectroscopy Market Regional Highlights
Chapter 3. Global Raman Spectroscopy Market Overview
3.1. Introduction
3.2. Market Dynamics
3.2.1. Drivers
3.2.2. Restraints
3.2.3. Opportunities
3.3. Porter's Five Forces Analysis
3.4. IGR-Growth Matrix Analysis
3.4.1. IGR-Growth Matrix Analysis by Type
3.4.2. IGR-Growth Matrix Analysis by Sampling Technique
3.4.3. IGR-Growth Matrix Analysis by Application
3.4.4. IGR-Growth Matrix Analysis by Region
3.5. Value Chain Analysis of Raman Spectroscopy Market
Chapter 4. Raman Spectroscopy Market Macro Indicator Analysis
Chapter 5. Global Raman Spectroscopy Market by Type
5.1. Benchtop
5.2. Portable
Chapter 6. Global Raman Spectroscopy Market by Sampling Technique
6.1. Surface-enhanced Raman Scattering
6.2. Tip Enhanced Raman Scattering
6.3. Others
Chapter 7. Global Raman Spectroscopy Market by Application
7.1. Pharmaceutics
7.2. Research and Development
7.3. Industrial Sector
7.4. Material Science
7.5. Others
Chapter 8. Global Raman Spectroscopy Market by Region 2023-2030
8.1. North America
8.1.1. North America Raman Spectroscopy Market by Type
8.1.2. North America Raman Spectroscopy Market by Sampling Technique
8.1.3. North America Raman Spectroscopy Market by Application
8.1.4. North America Raman Spectroscopy Market by Country
8.1.4.1. The U.S. Raman Spectroscopy Market
8.1.4.1.1. The U.S. Raman Spectroscopy Market by Type
8.1.4.1.2. The U.S. Raman Spectroscopy Market by Sampling Technique
8.1.4.1.3. The U.S. Raman Spectroscopy Market by Application
8.1.4.2. Canada Raman Spectroscopy Market
8.1.4.2.1. Canada Raman Spectroscopy Market by Type
8.1.4.2.2. Canada Raman Spectroscopy Market by Sampling Technique
8.1.4.2.3. Canada Raman Spectroscopy Market by Application
8.1.4.3. Mexico Raman Spectroscopy Market
8.1.4.3.1. Mexico Raman Spectroscopy Market by Type
8.1.4.3.2. Mexico Raman Spectroscopy Market by Sampling Technique
8.1.4.3.3. Mexico Raman Spectroscopy Market by Application
8.2. Europe
8.2.1. Europe Raman Spectroscopy Market by Type
8.2.2. Europe Raman Spectroscopy Market by Sampling Technique
8.2.3. Europe Raman Spectroscopy Market by Application
8.2.4. Europe Raman Spectroscopy Market by Country
8.2.4.1. Germany Raman Spectroscopy Market
8.2.4.1.1. Germany Raman Spectroscopy Market by Type
8.2.4.1.2. Germany Raman Spectroscopy Market by Sampling Technique
8.2.4.1.3. Germany Raman Spectroscopy Market by Application
8.2.4.2. United Kingdom Raman Spectroscopy Market
8.2.4.2.1. United Kingdom Raman Spectroscopy Market by Type
8.2.4.2.2. United Kingdom Raman Spectroscopy Market by Sampling Technique
8.2.4.2.3. United Kingdom Raman Spectroscopy Market by Application
8.2.4.3. France Raman Spectroscopy Market
8.2.4.3.1. France Raman Spectroscopy Market by Type
8.2.4.3.2. France Raman Spectroscopy Market by Sampling Technique
8.2.4.3.3. France Raman Spectroscopy Market by Application
8.2.4.4. Italy Raman Spectroscopy Market
8.2.4.4.1. Italy Raman Spectroscopy Market by Type
8.2.4.4.2. Italy Raman Spectroscopy Market by Sampling Technique
8.2.4.4.3. Italy Raman Spectroscopy Market by Application
8.2.4.5. Spain Raman Spectroscopy Market
8.2.4.5.1. Spain Raman Spectroscopy Market by Type
8.2.4.5.2. Spain Raman Spectroscopy Market by Sampling Technique
8.2.4.5.3. Spain Raman Spectroscopy Market by Application
8.2.4.6. Rest of Europe Raman Spectroscopy Market
8.2.4.6.1. Rest of Europe Raman Spectroscopy Market by Type
8.2.4.6.2. Rest of Europe Raman Spectroscopy Market by Sampling Technique
8.2.4.6.3. Rest of Europe Raman Spectroscopy Market by Application
8.3. Asia Pacific
8.3.1. Asia Pacific Raman Spectroscopy Market by Type
8.3.2. Asia Pacific Raman Spectroscopy Market by Sampling Technique
8.3.3. Asia Pacific Raman Spectroscopy Market by Application
8.3.4. Asia Pacific Raman Spectroscopy Market by Country
8.3.4.1. China Raman Spectroscopy Market
8.3.4.1.1. China Raman Spectroscopy Market by Type
8.3.4.1.2. China Raman Spectroscopy Market by Sampling Technique
8.3.4.1.3. China Raman Spectroscopy Market by Application
8.3.4.2. Japan Raman Spectroscopy Market
8.3.4.2.1. Japan Raman Spectroscopy Market by Type
8.3.4.2.2. Japan Raman Spectroscopy Market by Sampling Technique
8.3.4.2.3. Japan Raman Spectroscopy Market by Application
8.3.4.3. India Raman Spectroscopy Market
8.3.4.3.1. India Raman Spectroscopy Market by Type
8.3.4.3.2. India Raman Spectroscopy Market by Sampling Technique
8.3.4.3.3. India Raman Spectroscopy Market by Application
8.3.4.4. South Korea Raman Spectroscopy Market
8.3.4.4.1. South Korea Raman Spectroscopy Market by Type
8.3.4.4.2. South Korea Raman Spectroscopy Market by Sampling Technique
8.3.4.4.3. South Korea Raman Spectroscopy Market by Application
8.3.4.5. Australia Raman Spectroscopy Market
8.3.4.5.1. Australia Raman Spectroscopy Market by Type
8.3.4.5.2. Australia Raman Spectroscopy Market by Sampling Technique
8.3.4.5.3. Australia Raman Spectroscopy Market by Application
8.3.4.6. Rest of Asia-Pacific Raman Spectroscopy Market
8.3.4.6.1. Rest of Asia-Pacific Raman Spectroscopy Market by Type
8.3.4.6.2. Rest of Asia-Pacific Raman Spectroscopy Market by Sampling Technique
8.3.4.6.3. Rest of Asia-Pacific Raman Spectroscopy Market by Application
8.4. RoW
8.4.1. RoW Raman Spectroscopy Market by Type
8.4.2. RoW Raman Spectroscopy Market by Sampling Technique
8.4.3. RoW Raman Spectroscopy Market by Application
8.4.4. RoW Raman Spectroscopy Market by Sub-region
8.4.4.1. Latin America Raman Spectroscopy Market
8.4.4.1.1. Latin America Raman Spectroscopy Market by Type
8.4.4.1.2. Latin America Raman Spectroscopy Market by Sampling Technique
8.4.4.1.3. Latin America Raman Spectroscopy Market by Application
8.4.4.2. Middle East Raman Spectroscopy Market
8.4.4.2.1. Middle East Raman Spectroscopy Market by Type
8.4.4.2.2. Middle East Raman Spectroscopy Market by Sampling Technique
8.4.4.2.3. Middle East Raman Spectroscopy Market by Application
8.4.4.3. Africa Raman Spectroscopy Market
8.4.4.3.1. Africa Raman Spectroscopy Market by Type
8.4.4.3.2. Africa Raman Spectroscopy Market by Sampling Technique
8.4.4.3.3. Africa Raman Spectroscopy Market by Application
Chapter 9. Company Profiles and Competitive Landscape
9.1. Competitive Landscape in the Global Raman Spectroscopy Market
9.2. Companies Profiles
9.2.1. Bruker
9.2.2. Renishaw plc
9.2.3. HORIBA Scientific
9.2.4. Rigaku Corporation
9.2.5. TSI
9.2.6. Metrohm AG
9.2.7. Ocean Insight
9.2.8. Agilent Technologies, Inc.
9.2.9. Shimadzu Corporation
9.2.10. SciAps, Inc.

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