分光法の市場規模、シェア、成長分析：技術別、製品別、用途別、最終用途別、地域別 - 産業予測 2025～2032年

分光法の世界市場規模は、2023年に183億米ドルと評価され、2024年の197億1,000万米ドルから2032年には356億8,000万米ドルに成長し、予測期間（2025～2032年）のCAGRは7.7%で成長する見通しです。

分光法の世界市場は、技術の進歩と小型化により、さまざまな産業で携帯デバイスが登場し、大きな成長を遂げています。分光法機器と消耗品の技術革新が市場拡大に拍車をかけており、主要企業はより正確な調査結果を得るための性能向上に注力しています。臨床検査室、法医学、精密医療における分光法技術の応用の増加は、特に製薬、食品、飼料セクターにおいて、大きな成長機会を生み出すと考えられます。さらに、製薬およびバイオテクノロジー産業における研究開発投資の高まりが、この動向をさらに後押ししています。診断、特に高分子の生物医学的調査における分光法の採用は勢いを増しており、WHOによる香港中文大学への寄付など、最近の生物医学技術研究への資金提供の増加によって強調されています。

目次

イントロダクション

• 調査の目的
• 調査範囲
• 定義

調査手法

• 情報調達
• 二次と一次データの方法
• 市場規模予測
• 市場の前提条件と制限

エグゼクティブサマリー

• 世界市場の見通し
• 供給と需要の動向分析
• セグメント別機会分析

市場力学と見通し

• 市場概要
• 市場規模
• 市場力学
  • 促進要因と機会
  • 抑制要因と課題
• ポーターの分析

主な市場の考察

• 重要成功要因
• 競合の程度
• 主な投資機会
• 市場エコシステム
• 市場の魅力指数（2024年）
• PESTEL分析
• マクロ経済指標
• バリューチェーン分析
• 価格分析
• ケーススタディ
• 規制分析
• 技術分析
• 特許分析

分光法市場規模：技術別

• 市場概要
• 核磁気共鳴（NMR）分光法
  • 連続波（CW）NMR分光法
  • フーリエ変換NMR分光法
  • 固体NMR分光法（SSNMR）
• UV可視分光法
  • シングルビームUV可視分光法
  • デュアルビームUV可視分光法
  • アレイベースのUV可視分光法
• 赤外線（IR）分光法
  • IR分光法 スペクトル別
  • 中波長赤外線分光法
  • 短波赤外線分光法
  • 遠赤外線分光法
  • IR分光法 タイプ別
  • ベンチトップ
  • ハイフン付き
  • IR顕微鏡
  • ポータブル＆ハンドヘルド
  • テラヘルツ
  • 近赤外線分光法
  • 走査
  • フーリエ変換
  • フィルターまたはAOTF
• 色測定分光法
• ラマン分光法
  • ラマン分光法サンプリング技術別
  • 表面増強ラマン散乱
  • 先端増強ラマン散乱
  • その他のサンプリング手法
  • ラマン分光法タイプ別
  • マイクロラマン分光法
  • プローブベースラマン分光法
  • FT-ラマン分光法
  • その他の技術
  • 蛍光分光法
  • ハイブリッド分光法

分光法市場規模：製品別

• 市場概要
• 機器
• 消耗品
• サービス

分光法市場規模：用途別

• 市場概要
• プロテオミクス
• メタボロミクス
• 医薬品分析
• 法医学分析
• その他

分光法市場規模：最終用途別

• 市場概要
• 政府機関および学術機関
• 製薬・バイオテクノロジー企業
• その他

分光法市場規模

• 北米
  • 米国
  • カナダ
• 欧州
  • ドイツ
  • スペイン
  • フランス
  • 英国
  • イタリア
  • その他欧州地域
• アジア太平洋地域
  • 中国
  • インド
  • 日本
  • 韓国
  • その他アジア太平洋地域
• ラテンアメリカ
  • ブラジル
  • その他ラテンアメリカ地域
• 中東・アフリカ
  • GCC諸国
  • 南アフリカ
  • その他中東・アフリカ

競合情報

• 上位5社の比較
• 主要企業の市場ポジショニング（2024年）
• 主な市場企業が採用した戦略
• 最近の市場動向
• 企業の市場シェア分析（2024年）
• 主要企業の企業プロファイル
  • 企業の詳細
  • 製品ポートフォリオ分析
  • 企業のセグメント別シェア分析
  • 収益の前年比比較（2022～2024年）

主要企業プロファイル

• Thermo Fisher Scientific（United States）
• Agilent Technologies（United States）
• PerkinElmer（United States）
• Bruker Corporation（United States）
• Shimadzu Corporation（Japan）
• Hitachi High-Tech Corporation（Japan）
• JEOL Ltd.（Japan）
• Waters Corporation（United States）
• Analytik Jena AG（Germany）
• Teledyne FLIR（United States）
• Mightex Systems（Canada）
• Spectral Products（United States）
• Labsphere, Inc.（United States）
• Andor Technology（United Kingdom）
• Spectroswiss（Switzerland）
• Edinburgh Instruments（United Kingdom）
• Gigahertz Optik GmbH（Germany）
• Hamamatsu Photonics（Japan）
• Ocean Optics B.V.（Netherlands）
• Sympatec GmbH（Germany）

結論と提言

Global Spectroscopy Market size was valued at USD 18.3 billion in 2023 and is poised to grow from USD 19.71 billion in 2024 to USD 35.68 billion by 2032, growing at a CAGR of 7.7% during the forecast period (2025-2032).

The global spectroscopy market is witnessing significant growth, driven by technological advancements and miniaturization, leading to the emergence of portable devices across diverse industries. Innovations in spectroscopy instruments and consumables are fueling market expansion, with key players focusing on enhancing performance for more accurate research outcomes. The increasing application of spectroscopy techniques in clinical laboratories, forensics, and precision medicine is poised to create substantial growth opportunities, particularly within the pharmaceutical, food, and feed sectors. Additionally, heightened R&D investments in pharmaceutical and biotech industries further support this trend. The adoption of spectroscopy in diagnostics, especially through biomedical research on macromolecules, is gaining momentum, underscored by recent funding increases for biomedical technology research, such as the WHO's notable donation to the Chinese University of Hong Kong.

Top-down and bottom-up approaches were used to estimate and validate the size of the Global Spectroscopy market and to estimate the size of various other dependent submarkets. The research methodology used to estimate the market size includes the following details: The key players in the market were identified through secondary research, and their market shares in the respective regions were determined through primary and secondary research. This entire procedure includes the study of the annual and financial reports of the top market players and extensive interviews for key insights from industry leaders such as CEOs, VPs, directors, and marketing executives. All percentage shares split, and breakdowns were determined using secondary sources and verified through Primary sources. All possible parameters that affect the markets covered in this research study have been accounted for, viewed in extensive detail, verified through primary research, and analyzed to get the final quantitative and qualitative data.

Global Spectroscopy Market Segments Analysis

Global Spectroscopy Market is segmented by Technology, Product, Application, End Use and region. Based on Technology, the market is segmented into Nuclear Magnetic Resonance (NMR) Spectroscopy, UV- visible spectroscopy, Infrared (IR) Spectroscopy, Color measurement spectroscopy and Raman spectroscopy. Based on Product, the market is segmented into Instrument, Consumables and Services. Based on Application, the market is segmented into Proteomics, Metabolomics, Pharmaceutical Analysis, Forensic Analysis and Others. Based on End Use, the market is segmented into Government & Academic Institutions, Pharmaceutical & Biotechnology Companies and Others. Based on region, the market is segmented into North America, Europe, Asia Pacific, Latin America and Middle East & Africa.

Driver of the Global Spectroscopy Market

The global spectroscopy market is significantly driven by the advancement of Process Analytical Technology (PAT), which is instrumental in designing, analyzing, and controlling manufacturing processes by measuring critical parameters. The successful integration of various technologies, process control software, and PAT systems is essential for the widespread adoption of this system. Within the pharmaceutical industry, PAT plays a crucial role in the development and scaling of asymmetrical chiral molecule synthesis processes, enhancing efficiency and precision. As industries increasingly prioritize effective process management and quality control, the demand for spectroscopy technologies that support PAT is expected to rise, further propelling market growth.

Restraints in the Global Spectroscopy Market

The global spectroscopy market faces significant restraints primarily due to high initial investment costs, which pose a formidable barrier for new entrants and emerging players. Establishing and maintaining spectroscopes involves substantial expenditure, as the technology requires not only significant upfront capital but also ongoing operational and maintenance expenses, which contribute to the overall financial burden. For example, the expense associated with identifying proteins in a single LC/MS analysis can reach as high as USD 450, and the expense for conducting a large-scale, TMT-labeled quantitative proteomics experiment can exceed USD 10,000, further complicating market entry for newcomers.

Market Trends of the Global Spectroscopy Market

The global spectroscopy market is witnessing a significant upward trend driven by increased government funding and investment in spectroscopy research and development. Governments around the world are recognizing the potential of advanced spectroscopy techniques to enhance testing and analysis across various industries, including pharmaceuticals, environmental monitoring, and food safety. This financial support fosters innovation, leading to the development of sophisticated methodologies that cater to rising professional demands for accuracy and precise interpretations. As organizations seek improved outcomes through advanced analytical solutions, the spectroscopy market is poised for substantial growth during the forecast period, reflecting expanding technological capabilities and heightened application breadth.

Table of Contents

Introduction

• Objectives of the Study
• Scope of the Report
• Definitions

Research Methodology

• Information Procurement
• Secondary & Primary Data Methods
• Market Size Estimation
• Market Assumptions & Limitations

Executive Summary

• Global Market Outlook
• Supply & Demand Trend Analysis
• Segmental Opportunity Analysis

Market Dynamics & Outlook

• Market Overview
• Market Size
• Market Dynamics
  • Drivers & Opportunities
  • Restraints & Challenges
• Porters Analysis
  • Competitive rivalry
  • Threat of substitute
  • Bargaining power of buyers
  • Threat of new entrants
  • Bargaining power of suppliers

Key Market Insights

• Key Success Factors
• Degree of Competition
• Top Investment Pockets
• Market Ecosystem
• Market Attractiveness Index, 2024
• PESTEL Analysis
• Macro-Economic Indicators
• Value Chain Analysis
• Pricing Analysis
• Case Studies
• Regulatory Analysis
• Technology Analysis
• Patent Analysis

Global Spectroscopy Market Size by Technology & CAGR (2025-2032)

• Market Overview
• Nuclear Magnetic Resonance (NMR) Spectroscopy
  • Continuous-wave (CW) NMR Spectroscopy
  • Fourier-transform NMR Spectroscopy
  • Solid-state NMR Spectroscopy(SSNMR)
• UV- visible spectroscopy
  • Single-beam UV-visible spectroscopy
  • Dual-beam UV-visible spectroscopy
  • Array-based UV-visible spectroscopy
• Infrared (IR) Spectroscopy
  • IR Spectroscopy by spectrum
  • Mid-wave infrared spectroscopy
  • Short-wave infrared spectroscopy
  • Far-wave infrared spectroscopy
  • IR Spectroscopy by type
  • Benchtop
  • Hyphenated
  • IR Microscopy
  • Portabe & Handheld
  • Terahertz
  • Near-infrared Spectroscopy
  • Scanning
  • Fourier-transform
  • Filter or AOTF
• Color measurement spectroscopy
• Raman spectroscopy
  • Raman Spectroscopy by sampling technique
  • Surface-enhanced Raman Scattering
  • Tip-enhanced Raman Scattering
  • Other Sampling Techniques
  • Raman Spectroscopy by type
  • Micro-Raman Spectroscopy
  • Probe-based Raman Spectroscopy
  • FT- Raman Spectroscopy
  • Other technologies
  • Fluorescence Spectroscopy
  • Hybrid Spectroscopy

Global Spectroscopy Market Size by Product & CAGR (2025-2032)

• Market Overview
• Instrument
• Consumables
• Services

Global Spectroscopy Market Size by Application & CAGR (2025-2032)

• Market Overview
• Proteomics
• Metabolomics
• Pharmaceutical Analysis
• Forensic Analysis
• Others

Global Spectroscopy Market Size by End Use & CAGR (2025-2032)

• Market Overview
• Government & Academic Institutions
• Pharmaceutical & Biotechnology Companies
• Others

Global Spectroscopy Market Size & CAGR (2025-2032)

• North America (Technology, Product, Application, End Use)
  • US
  • Canada
• Europe (Technology, Product, Application, End Use)
  • Germany
  • Spain
  • France
  • UK
  • Italy
  • Rest of Europe
• Asia Pacific (Technology, Product, Application, End Use)
  • China
  • India
  • Japan
  • South Korea
  • Rest of Asia-Pacific
• Latin America (Technology, Product, Application, End Use)
  • Brazil
  • Rest of Latin America
• Middle East & Africa (Technology, Product, Application, End Use)
  • GCC Countries
  • South Africa
  • Rest of Middle East & Africa

Competitive Intelligence

• Top 5 Player Comparison
• Market Positioning of Key Players, 2024
• Strategies Adopted by Key Market Players
• Recent Developments in the Market
• Company Market Share Analysis, 2024
• Company Profiles of All Key Players
  • Company Details
  • Product Portfolio Analysis
  • Company's Segmental Share Analysis
  • Revenue Y-O-Y Comparison (2022-2024)

Key Company Profiles

• Thermo Fisher Scientific (United States)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Agilent Technologies (United States)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• PerkinElmer (United States)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Bruker Corporation (United States)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Shimadzu Corporation (Japan)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Hitachi High-Tech Corporation (Japan)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• JEOL Ltd. (Japan)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Waters Corporation (United States)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Analytik Jena AG (Germany)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Teledyne FLIR (United States)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Mightex Systems (Canada)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Spectral Products (United States)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Labsphere, Inc. (United States)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Andor Technology (United Kingdom)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Spectroswiss (Switzerland)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Edinburgh Instruments (United Kingdom)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Gigahertz Optik GmbH (Germany)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Hamamatsu Photonics (Japan)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Ocean Optics B.V. (Netherlands)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Sympatec GmbH (Germany)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments

Conclusion & Recommendations