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생명과학의 기존 및 새로운 분광 기술

Traditional and Emerging Spectroscopy Techniques in Life Sciences

리서치사 BCC Research
발행일 2019년 03월 상품 코드 802153
페이지 정보 영문 251 Pages
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생명과학의 기존 및 새로운 분광 기술 Traditional and Emerging Spectroscopy Techniques in Life Sciences
발행일 : 2019년 03월 페이지 정보 : 영문 251 Pages

세계의 분광 기술 시장은 2018년 132억 달러에서 2023년까지 163억 달러로 확대될 것으로 보이며, 예측기간 중 4.4%의 연평균 성장률(CAGR)이 전망됩니다.

세계의 분광 기술(Spectroscopy Techniques) 시장에 대해 조사 분석했으며, 시장 개요, 시장 동향 분석과 예측, 신기술, 경쟁 상황, 주요 기업 등에 대한 체계적인 정보를 제공합니다.

제1장 서론

제2장 요약과 하이라이트

제3장 시장 및 기술 배경

  • 조사 범위
  • 분광 기술 개요
  • 용도 개요
  • 최종사용자 개요
  • 분광 용도의 새로운 발전
  • 표면 증강 라만 분광법을 이용한 암 검출용 나노입자 용도
  • 단백질 분석을 개선하는 진동 분광
  • X선 흡수 분광법을 이용한 생무기계에 대한 형광 검출
  • 치료용 단백질의 응집을 특징짓기 위한 라만 분광법
  • 투자 분석
  • 시장 성장 촉진요인
  • 경쟁 상황과 주요 기업 : 지역별

제4장 시장 분석 : 기술별

  • 원자 분광법
  • 질량 분석법
  • 분자 분광법

제5장 시장 분석 : 용도별

  • 의약품 개발 및 시험
  • 환경
  • 임상 및 진단
  • 식품 및 음료 검사
  • 기타 용도

제6장 시장 분석 : 최종사용자별

  • 연구기관
  • 의약품 및 바이오테크놀러지, 헬스케어
  • 기타 최종사용자

제7장 시장 분석 : 지역별

  • 북미
  • 유럽
  • 아시아태평양
  • 기타(ROW)

제8장 특허 리뷰/새로운 발전

  • 미국의 주요 분광법 특허
  • 유럽의 주요 분광법 특허
  • 일본의 주요 분광법 특허

제9장 산업 구조

  • 산업 구조
  • 공급망 기회
  • 주요 기업과 제품

제10장 기업 개요

  • AB SCIEX
  • ADVION INC.
  • AGILENT TECHNOLOGIES
  • AMETEK INC.
  • AURORA BIOMED INC.
  • AVANTES
  • B&W TEK INC.
  • BERGMANN MESSGERAETE ENTWICKLUNG(BME)
  • BIO-RAD LABORATORIES
  • BRUKER CORP.
  • DANAHER CORP.
  • DANI INSTRUMENTS SPA
  • EVANS ANALYTICAL GROUP
  • EXTREL
  • HIPERSCAN GMBH
  • HORIBA
  • HITACHI HIGH TECHNOLOGIES AMERICA, INC.
  • IONSENSE INC.
  • JASCO INC.
  • JEOL LTD.
  • KORE TECHNOLOGY LTD.
  • MKS INSTRUMENTS
  • OCEAN OPTICS
  • PENDAR TECHNOLOGIES, LLC
  • PERKINELMER INC.
  • PFEIFFER VACUUM GMBH
  • SHIMADZU CORP.
  • THERMO FISHER SCIENTIFIC
  • WATERS CORP.
  • ZURICH INSTRUMENTS AG
KSM 19.03.15

List of Tables

  • Summary Table: Global Market for Spectroscopy, by Technology/Application/End User/Region, Through 2023
    • Table 1: Scope of the Report
    • Table 2: Comparison of Molecular Spectroscopy Techniques
    • Table 3: Comparison of Spectroscopy Techniques
    • Table 4: Investments in Spectroscopy
    • Table 5: Types of Environmental Analytical Instrumentation
    • Table 6: UV-Visible Spectrophotometric Procedures Used in Quantitative Analysis of Drugs in Pharmaceutical Formulations
    • Table 7: Drugs in the Pipeline for Selected Causes, 2017
    • Table 8: Investments in Biotechnology
    • Table 9: Investments in Newborn Screening
    • Table 10: Major Market Players, by Region
    • Table 11: Summary of Spectroscopy Technology
    • Table 12: Global Spectroscopy Market, by Technology, Through 2023
    • Table 13: Global Atomic Spectroscopy Market, by Region, Through 2023
    • Table 14: Detection Limits of Atomic Spectroscopy Techniques
    • Table 15: Comparison of ICP-OES, Flame AAS and GFAAS
    • Table 16: Recent Product Launches Related to Atomic Spectroscopy
    • Table 17: Determination of Heavy Metals in Herbal Drugs
    • Table 18: Common Applications and Fields that Use Mass Spectrometry
    • Table 19: Mass Spectrometry Products
    • Table 20: R&D Process
    • Table 21: Top 20 Companies in Pharmaceutical R&D Spending, 2016
    • Table 22: Global Mass Spectroscopy Market, by Region, Through 2023
    • Table 23: Regulatory Bodies for Food and Drug Safety
    • Table 24: Global Molecular Spectroscopy Market, by Region, Through 2023
    • Table 25: Global Molecular Spectroscopy Market, by Technology, Through 2023
    • Table 26: Major Manufacturers of NMR Spectroscopes
    • Table 27: Global UV-Visible Spectroscopy Market, by Region, Through 2023
    • Table 28: Leading Manufacturers in the UV-Spectroscopy Market
    • Table 29: Advances in Technology/Product Development in UV-Spectroscopy
    • Table 30: Global Infrared Spectroscopy Market, by Region, Through 2023
    • Table 31: Major Companies in the Infrared Spectroscopy Market
    • Table 32: Technological Advances/Product Launches in Infrared Spectroscopy
    • Table 33: Near-Infrared Bands of Organic Compounds
    • Table 34: Global Near-Infrared Spectroscopy Market, by Region, Through 2023
    • Table 35: Some Major Companies in the Near-Infrared Spectroscopy Market
    • Table 36: Detector Technologies Used in NIR Spectroscopy
    • Table 37: Major Product Launches in the Near-Infrared Spectroscopy Market
    • Table 38: Major Manufacturers of Raman Spectroscopes
    • Table 39: Advantages of Raman Spectrometry
    • Table 40: Fields that Use Raman Spectroscopy and Their Applications
    • Table 41: Global Raman Spectroscopy Market, by Region, Through 2023
    • Table 42: Global Market for Other Technologies, by Region, Through 2023
    • Table 43: Major Companies in the Fluorescence Spectroscopy Market
    • Table 44: Recent Major Product Launches in the Fluorescent Spectroscopy Market
    • Table 45: Major Companies in the Color Measurement Spectroscopy Market
    • Table 46: Global Spectroscopy Market, by Application, Through 2023
    • Table 47: Global Market for Drug Development and Testing, by Region, Through 2023
    • Table 48: Persons 60 Years or Over, by Region, 2017 and 2050
    • Table 49: Global Market for Spectroscopy Used in Environmental Applications, by Region, Through 2023
    • Table 50: Product Launches in Spectroscopy for Environmental Applications
    • Table 51: Global Clinical and Diagnostics Market, by Region, Through 2023
    • Table 52: Clinical Applications of Different Types of Spectroscopy
    • Table 53: Diagnostics Applications of Different Types of Spectroscopy
    • Table 54: Major Clinical Trials
    • Table 55: Application Areas of Optical Spectroscopy in Food Analysis
    • Table 56: Characteristics of Handheld Optical Spectrometers
    • Table 57: NIR-Based Alcohol Analyzers
    • Table 58: Global Market for Spectroscopy in Food and Beverage Testing, by Region, Through 2023
    • Table 59: Food Fraud and Adulteration Cases Globally, 2015-2017
    • Table 60: Advances in Mass Spectrometry for Food and Beverage Testing
    • Table 61: Proteomic Approaches to Identify Authenticity of Key Food Products
    • Table 62: Key Trends in the Global Food and Beverage Industry, 2015 and 2022
    • Table 63: Global Market for Spectroscopy in Other Applications, by Region, Through 2023
    • Table 64: Manufacturers of Spectrometers Used in Agricultural Applications
    • Table 65: Global Market for Spectroscopy, by End User, Through 2023
    • Table 66: Global Market for Spectroscopy in Research Institutes, by Region, Through 2023
    • Table 67: NMR Applications in Biomedical Research
    • Table 68: NMR Applications in Biomedical Research
    • Table 69: Various Cancer Research Programs
    • Table 70: Cancer-Related Fatalities, by Type, 2015
    • Table 71: Female Breast Cancer Deaths in the U.S., by Age, 2017
    • Table 72: Methods for Trace Element Analysis
    • Table 73: Healthcare Spending, by Countries with Different Income Levels, 2040
    • Table 74: German Federal Government R&D Funding, by Research Area, 2016 and 2017
    • Table 75: Estimated U.S. Medical and Health Research Expenditures and Percentage of Total U.S. Spending, Academic and Research Institutions
    • Table 76: Estimated U.S. Medical and Health Research Expenditures and Percentage of Total U.S. Spending, Federal Government Agencies
    • Table 77: Global Market for Spectroscopy in Pharmaceutical and Biotechnology, by Region, Through 2023
    • Table 78: History of the Development of Analytical Instrumentation, 1919-1961
    • Table 79: Spectroscopy Deployment in Drug Manufacturing
    • Table 80: Global Market for Spectroscopy in Other End User Companies, by Region, Through 2023
    • Table 81: Global Spectroscopy Market, by Region, Through 2023
    • Table 82: North America Spectroscopy Market, by Country, Through 2023
    • Table 83: Percentage of New Cancer Cases in U.S. Males, 2017
    • Table 84: Share of New Cancer Cases in U.S. Females, 2017
    • Table 85: Current Grants, by Cancer Type, 2017
    • Table 86: Number of Individuals Impacted by Chronic Diseases
    • Table 87: Funding by Federal Government Agencies for Screening and Treatment of Chronic Diseases
    • Table 88: North American Spectroscopy Market, by Technology, Through 2023
    • Table 89: Distribution of Estimated New Cancer Cases, by Sex (Males), 2017
    • Table 90: Distribution of Projected New Cancer Cases in Females, 2017
    • Table 91: North American Spectroscopy Market, by Application, Through 2023
    • Table 92: North American Spectroscopy Market, by End User, Through 2023
    • Table 93: European Spectroscopy Market, by Country, Through 2023
    • Table 94: European Spectroscopy Market, by Technology, Through 2023
    • Table 95: Deaths from CVD and Numbers Living with CVD, 2017
    • Table 96: European Spectroscopy Market, by Application, Through 2023
    • Table 97: European Spectroscopy Market, by End User, Through 2023
    • Table 98: Deaths Caused by Cardiovascular Diseases in Germany, 2005-2016
    • Table 99: Diseases Causing the Most Premature Deaths in Germany, 2005-2016
    • Table 100: Rising Geriatric Population in Germany, 2000-2030
    • Table 101: Asia-Pacific Spectroscopy Market, by Country, Through 2023
    • Table 102: Awards for Creative Research Groups in China in the Science Fund, 2016
    • Table 103: Asia-Pacific Spectroscopy Market, by Technology, Through 2023
    • Table 104: Medical Funding Priorities for Research in Japan, 2015
    • Table 105: Asia-Pacific Spectroscopy Market, by Application, Through 2023
    • Table 106: Environmental Quality Standards in Japan
    • Table 107: Asia-Pacific Spectroscopy Market, by End User, Through 2023
    • Table 108: Approved Methods for Sampling and Analysis of Air Pollutants in New South Wales
    • Table 109: ROW Spectroscopy Market, by Region, Through 2023
    • Table 110: New Cases of Cancer in Brazil, by Gender, 2016
    • Table 111: ROW Spectroscopy Market, by Technology, Through 2023
    • Table 112: ROW Spectroscopy Market, by Application, Through 2023
    • Table 113: ROW Spectroscopy Market, by End User, Through 2023
    • Table 114: DWAF Laboratory Methods with Corresponding GEMS/Water Method Number in South Africa
    • Table 115: U.S. Patents, 2017-July 2018
    • Table 116: European Patents, 2015-July 2018
    • Table 117: Japanese Patents, 2015-2018
    • Table 118: Spectroscopy Instruments and Their Raw Materials and Parts
    • Table 119: Leading Suppliers of Components and Raw Materials of Spectroscopy Instruments
    • Table 120: Distributors of Spectroscopy Analytical Instruments, by Region/Country
    • Table 121: Global Manufacturing Competitiveness Index, 2016 and 2020
    • Table 122: Comparison of Major Players and Their Products
    • Table 123: AB SCIEX: Product Portfolio
    • Table 124: AB SCIEX: Recent Developments, 2017-2018
    • Table 125: Advion: Product Portfolio
    • Table 126: Advion: Recent Developments, 2017-July 2018
    • Table 127: Agilent Technologies: Product Portfolio
    • Table 128: Agilent Technologies: Recent Developments, 2018
    • Table 129: Ametek: Product Portfolio
    • Table 130: Ametek: Recent Development, 2018
    • Table 131: Aurora Biomed: Product Portfolio
    • Table 132: Avantes: Product Portfolio
    • Table 133: Avantes: Recent Developments, 2017-July 2018
    • Table 134: B&W Tek: Product Portfolio
    • Table 135: BME: Product Portfolio
    • Table 136: Bio-Rad: Product Portfolio
    • Table 137: Bruker: Product Portfolio
    • Table 138: Bruker: Recent Developments, 2018
    • Table 139: Danaher: Product Portfolio
    • Table 140: DANI: Product Portfolio
    • Table 141: DANI: Recent Developments, 2015-July 2018
    • Table 142: Evans Analytical Group: Product Portfolio
    • Table 143: Extrel: Product Portfolio
    • Table 144: Extrel: Recent Developments, 2018
    • Table 145: HiperScan GmbH: Product Portfolio
    • Table 146: Horiba: Product Portfolio
    • Table 147: Horiba: Recent Developments, 2018
    • Table 148: Hitachi High Technologies: Product Portfolio
    • Table 149: Hitachi High Technologies: Recent developments, 2016-July 2018
    • Table 150: IonSense: Product Portfolio
    • Table 151: Jasco: Product Portfolio
    • Table 152: JEOL: Product Portfolio
    • Table 153: JEOL: Recent Developments, 2017-July 2018
    • Table 154: Kore Technology: Product Portfolio
    • Table 155: MKS Instruments: Product Portfolio
    • Table 156: Ocean Optics: Product Portfolio
    • Table 157: Pendar Technologies: Product Portfolio
    • Table 158: PerkinElmer: Product Portfolio
    • Table 159: PerkinElmer: Recent Developments, 2015-July 2018
    • Table 160: Pfeiffer Vacuum GmbH: Product Portfolio
    • Table 161: Pfeiffer Vacuum GmbH: Recent Developments, 2015-July 2018
    • Table 162: Shimadzu: Product Portfolio
    • Table 163: Shimadzu: Recent Developments, 2015-July 2018
    • Table 164: Thermo Fisher: Product Portfolio
    • Table 165: Waters: Product Portfolio
    • Table 166: Waters: Recent Developments, 2015-July 2018
    • Table 167: Zurich Instruments: Product Portfolio
    • Table 168: Zurich Instruments: Recent Developments, 2015-July 2018

List of Figures

  • Summary Figure: Global Market for Spectroscopy, by Technology/Application/End User/Region, 2017-2023
    • Figure 1: Information that Can Be Obtained from X-Ray Spectroscopy
    • Figure 2: Workflow for Non-Target Screening of Environmental Samples
    • Figure 3: Steps Involved in Toxic Compound Isolation, Identification and Quantitation
    • Figure 4: GC-MS and LC-MS Amalgamation of Steps in the Analytical Process for Toxic Compound Detection and Quantitation
    • Figure 5: Global Atomic Spectroscopy Market Share, by Company/Country, 2017
    • Figure 6: Global Mass Spectroscopy Market Share, by Company/Country, 2017
    • Figure 7: Global Molecular Spectroscopy Market Share, by Company/Country, 2017
    • Figure 8: Competitive Landscape Share, by Type
    • Figure 9: Basic Principle of Atomic Absorption Spectroscopy
    • Figure 10: Techniques of Atomic Spectroscopy
    • Figure 11: Applications of Atomic Spectroscopy
    • Figure 12: Components of a Mass Spectrometer
    • Figure 13: Global Total Pharmaceutical R&D Spending, 2015-2022
    • Figure 14: Block Diagram of NMR Spectroscopy
    • Figure 15: FDA Drug Approvals, 2016 and 2017
    • Figure 16: Global Pharmaceutical R&D Expenditure, 2015-2020
    • Figure 17: Mechanism of UV-Visible Spectroscopy
    • Figure 18: Electronic Transitions that Light Can Cause
    • Figure 19: Visible Region Color Wheel
    • Figure 20: Division of Infrared Region
    • Figure 21: Mechanism of Infrared (IR) Spectroscopy Technique
    • Figure 22: Mechanism of Fluorescence Spectroscopy
    • Figure 23: Mechanism of Color Measurement, by Spectrometer
    • Figure 24: Drug Development Process and Application of Spectroscopy
    • Figure 25: Overview on Application of NMR Spectroscopy in Drug Discovery and Development
    • Figure 26: Persons Aged 60 Years or Over, by Region, 2017 and 2050
    • Figure 27: Medicines in Global Development, by Regulatory Phase, 2015
    • Figure 28: Medicines in Development for Non-Communicable Diseases (NCDs)
    • Figure 29: Pharmaceutical R&D Spending, 2010-2015
    • Figure 30: Application Range for GC-MS and LC-MS
    • Figure 31: Quality of Groundwater in China, 2015
    • Figure 32: Major Clinical and Diagnostics Applications of Spectroscopy
    • Figure 33: Number of Deaths Worldwide Caused by Selected Chronic Diseases, 2015
    • Figure 34: Global Prevalence of Dementia, 2015-2050
    • Figure 35: People Living with Dementia, by Region, 2015-2050
    • Figure 36: Worldwide Cancer Prevalence and Cancer Mortality Rates, 2012 and 2030
    • Figure 37: Cancer Deaths Worldwide, by Type, 2016
    • Figure 38: Flowchart for Near-Infrared (NIR) Spectroscopy Analysis of Food-Both Food Products and Raw Materials
    • Figure 39: Global Market Share for Spectroscopy, by End User, 2017 and 2023
    • Figure 40: Cancer-Related Fatalities, by Type, 2015
    • Figure 41: Schematic Diagram of an Atomic Absorption Spectrometer
    • Figure 42: All New Cancer Cases in the U.S., by Type, 2018
    • Figure 43: Share of New Cases of Oral Cavity and Pharynx Cancer, by Age Group, 2018
    • Figure 44: German Government Expenditures Share on Life-Science R&D, by Recipient, 2016
    • Figure 45: Sampling Process for Raman and SERS Analysis
    • Figure 46: Pharmaceutical R&D Spending in the U.S., 2005-2015
    • Figure 47: R&D Spending by Seven Pharma Giants in India, 2016
    • Figure 48: Pharmaceutical Research and Manufacturers of America (PHRMA) R&D Investment in the U.S., 2005-2016
    • Figure 49: Global Share of R&D Spending in Drug Testing, by Region, 2016
    • Figure 50: Global Share Distribution of Population Aged 65 and Over, by Region, 2016 and 2050
    • Figure 51: Number of Deaths from Alcohol and Drug Use Globally, 2010-2016
    • Figure 52: France's Food Processing Industry
    • Figure 53: Rising Geriatric Population in Germany, 2000-2030
    • Figure 54: Organizations in the Food and Beverage Subsector in Spain, 2015
    • Figure 55: India's Pharmaceutical Market, 2011-2017
    • Figure 56: Application of Spectroscopy in Environmental Quality Analysis
    • Figure 57: Population Share Over 50 with Poor Bone Health in Australia, 2016
    • Figure 58: R&D in Pharmaceutical Sector in South Korea, 2016 and 2017
    • Figure 59: Fortified/Functional Food and Beverage Sales in Brazil, 2009-2015
    • Figure 60: Deaths Caused by Cancer in the UAE, by Type of Cancer, 2015
    • Figure 61: Spectroscopy Industry Structure
    • Figure 62: Life Science Analytical Instrument R&D Process
    • Figure 63: Components for Ascertaining Data Quality
    • Figure 64: Spectroscopy Manufacturing Process
    • Figure 65: Global Pharmaceutical R&D Spending, 2005-2024
    • Figure 66: Global Logistics Robotics Market, 2015-2021
    • Figure 67: Opportunities for Third-Party Logistics from Digital Disruptions

Report Highlights:

The global spectroscopy technology market should grow from $13.2 billion in 2018 to $16.3 billion by 2023 at a compound annual growth rate (CAGR) of 4.4% for the period of 2018-2023.

Molecular market segment under the global spectroscopy technology market should grow from $4.9 billion in 2018 to $6.2 billion by 2023 at a CAGR of 4.8% for the period of 2018-2023.

Mass market segment under the global spectroscopy technology market should grow from $3.8 billion in 2018 to $5.0 billion by 2023 at a CAGR of 5.5% for the period of 2018-2023.

Report Scope:

The study covers atomic, mass and molecular spectroscopy. It also covers the research institution, pharmaceutical and biotechnology and other end-user market segments. The main geographical markets-North America, Europe, Asia and Rest of World (ROW)-are examined.

Technology status and market driving forces are discussed and analysed. Factors that influence each market are also highlighted, including the forces driving growth, industry alliances and acquisitions, applications in diagnostics and drug development and testing, food and beverage testing and other customer needs and competitive trends.

Key industry acquisitions and strategic alliances are given for the three-year period from 2015 through June 2018.

This report also examines the main patent trends within the industry and profiles 30 of the major companies in the spectroscopy market.

Report Includes:

  • 56 data tables and 113 additional tables
  • An overview of the spectroscopy in biosciences, their instruments and global markets
  • Analyses of global market trends, with data from 2017 to 2018, and projections of CAGRs through 2023
  • Detailed description of ultraviolet and visible absorption spectroscopy (UV-VIS), infrared absorption spectroscopy (IRS), raman spectroscopy, mass spectrometry (MS) and nuclear magnetic resonance spectroscopy (NMR)
  • Discussion about background, key trends and market opportunity analysis
  • Profiles of major companies of the industry, including Bruker Corp., Danaher Corp., Ionsense Inc., JEOL Ltd. And Zurich Instruments AG

Table of Contents

Chapter 1: Introduction

  • Study Goals and Objectives
  • Reasons for Doing This Study
  • Scope of Report
  • Information Sources
  • Methodology
  • Geographic Breakdown
  • Analyst's Credentials
  • BCC Custom Research
  • Related BCC Research Reports

Chapter 2: Summary and Highlights

Chapter 3: Market and Technology Background

  • Scope of the Report
  • Spectroscopy Technologies Overview
    • Atomic Spectroscopy
    • Mass Spectroscopy
    • Molecular Spectroscopy
    • Spectroscopy in Biotechnology
    • Precision Medicine
  • Application Overview
    • Drug Development and Testing
    • Environmental
    • Clinical and Diagnostic
    • Food and Beverage Testing
    • Other Applications
  • End User Overview
    • Research Institutions
    • Pharmaceutical and Biotechnology Industries
    • Other End Users
  • New Developments in Spectroscopic Applications
    • Study of Interstitial Fluid (Interstitium)
    • Critical-Depth Raman Spectroscopy Enables Home-Use Non-Invasive Glucose Monitoring with the use of interstitium
  • Nanoparticles Application for Cancer Detection Using Surface Enhanced Raman Spectroscopy
    • Application of Nanoparticles in Cancer Detection by Raman Scattering Based Techniques
  • Vibrational Spectroscopy for Improved Analysis of Protein
    • Simultaneous Fitting of Absorption Spectra and Their Second Derivatives for an Improved Analysis of Protein Infrared Spectra
  • Fluorescence Detection to Bioinorganic Systems Using X-Ray Absorption Spectroscopy
    • Role of X-Ray Spectroscopy in Understanding the Geometric and Electronic Structure of Nitrogenase
  • Raman Spectroscopy for Characterizing Aggregation of Therapeutic Proteins
      <
    li>Combined Dynamic Light Scattering and Raman Spectroscopy Approach for Characterizing the Aggregation of Therapeutic Proteins
  • Investment Analysis
  • Drivers in the Market
    • Demand for Molecular Spectroscopy in Environmental Screening
    • Adoption of Spectroscopic-based Analytical Methods in the Pharmaceutical and Biotechnology Industries
    • Surging Demand for Sophisticated Equipment for Measurement and High-performance Testing
    • Adoption of Spectrometric Analysis in Clinical and Toxicological Applications
    • Technological Advances in Spectroscopy Market
  • Competitive Landscape and Major Players by Region
    • Market Share by Companies across Various Technologies
    • Competitive Landscape
    • Major Market Players, by Region

Chapter 4: Market Breakdown by Technology

  • Atomic Spectroscopy
    • Atomic Emission Spectroscopy
    • Atomic Absorption Spectroscopy
    • Atomic Fluorescence Spectroscopy
    • Applications of Atomic Spectroscopy
  • Mass Spectrometry
    • Market Drivers
  • Molecular Spectroscopy
    • Nuclear Magnetic Resonance (NMR) Spectroscopy
    • UV-Visible Spectroscopy
    • Infrared (IR) Spectroscopy
    • Near-Infrared Spectroscopy
    • Raman Spectroscopy
    • Fluorescence Spectroscopy
    • Color Measurement Spectroscopy

Chapter 5: Market Breakdown by Application

  • Drug Development and Testing
    • NMR Molecular Technology in Drug Development and Testing
    • Mass Spectroscopy Technology in Drug Development and Testing
    • Demand for Drug Discovery and Development
    • Research and the Pharmaceutical Industry
  • Environmental
    • Air Pollution Spectrometry
    • Use of Spectroscopy in Water
  • Clinical and Diagnostics
    • Technological Developments and Advances
    • Clinical Trials in Spectroscopy
    • Increasing Prevalence of Chronic Diseases
  • Food and Beverage Testing
  • Other Applications

Chapter 6: Market Breakdown by End User

  • Research Institutes
    • Application of Raman Spectroscopy in Breast Cancer
    • Atomic Spectroscopy in Research Institutes
    • Applications of XRF Spectrometers in Medical Science
    • Applications of XRF Spectrometers in Dental and Medical Analyses
    • Common Research Uses for XRF Technology in Dental Applications
    • Major Drivers
  • Pharmaceutical and Biotechnology, Healthcare
  • Other End Users
    • Forensics Laboratories
    • Food and Beverage Testing Industries

Chapter 7: Market Breakdown by Region

  • North America
    • United States
    • Canada
  • Europe
    • United Kingdom
    • France
    • Germany
    • Italy
    • Rest of Europe
  • Asia-Pacific
    • China
    • India
    • Japan
    • Australia
    • Rest of Asia-Pacific
  • Rest of the World (ROW)
    • Latin America
    • Middle East and Africa

Chapter 8: Patent Review/ New Developments

  • Selected U.S. Spectroscopy Patents
  • Selected European Spectroscopy Patents
  • Selected Japanese Spectroscopy Patents

Chapter 9: Spectroscopy Industry Structure

  • Spectroscopy Industry Structure
    • R&D
    • Suppliers
    • Manufacturing
    • Distribution
    • Sales and Service
    • End Users
  • Opportunities in Supply Chain
    • Blockchain and Internet of Things
    • Robotics
    • Third-Party Logistics
  • Major Players and Their Products

Chapter 10: Company Profiles

  • AB SCIEX
  • ADVION INC.
  • AGILENT TECHNOLOGIES
  • AMETEK INC.
  • AURORA BIOMED INC.
  • AVANTES
  • B&W TEK INC.
  • BERGMANN MESSGERAETE ENTWICKLUNG (BME)
  • BIO-RAD LABORATORIES
  • BRUKER CORP.
  • DANAHER CORP.
  • DANI INSTRUMENTS SPA
  • EVANS ANALYTICAL GROUP
  • EXTREL
  • HIPERSCAN GMBH
  • HORIBA
  • HITACHI HIGH TECHNOLOGIES AMERICA, INC.
  • IONSENSE INC.
  • JASCO INC.
  • JEOL LTD.
  • KORE TECHNOLOGY LTD.
  • MKS INSTRUMENTS
  • OCEAN OPTICS
  • PENDAR TECHNOLOGIES, LLC
  • PERKINELMER INC.
  • PFEIFFER VACUUM GMBH
  • SHIMADZU CORP.
  • THERMO FISHER SCIENTIFIC
  • WATERS CORP.
  • ZURICH INSTRUMENTS AG
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