Report Detail
Spectrometry Global Market - Forecast to 2022
- RnM3925047 |
- 12 March, 2020 |
- Global |
- 466 Pages |
- IQ4I Research & Consultancy |
- Biotechnology
Spectrometry is a technology or combination of two which make use of electromagnetic radiations for qualitative and quantitative sample analysis so as to obtain structural data and identify chemical makeup of a sample. Spectrometry measurements with rapid and accurate information results in improved productivity & efficiency, better quality of the transformed products with reduced cost and decreased waste products.
The global spectrometry market is valued to be $XX million in 2015 and poised to grow at a CAGR of X% to reach $20,075 million by 2022. Spectrometry market is mainly classified into technology, application and end-users and geography. The global spectrometry market by technology is further divided into atomic spectrometry, mass spectrometry and molecular spectrometry.
The atomic spectrometry market is further divided into atomic absorption spectrometry (AAS), X-ray diffraction spectrometry (XRD), X-ray fluorescence spectrometry (XRF), X-ray photoelectron spectrometry (XPS), inductively coupled plasma-atomic emission spectrometer (ICP-AES), elemental analyzers and others which includes arc/spark optical emission spectrometry and glow discharge optical emission spectrometry (GD-OES).
The mass spectrometry includes gas chromatography-mass spectrometry (GC-MS), liquid chromatography-mass spectrometry (LC-MS), inductively coupled plasma mass spectrometry (ICP-MS), Magnetic sector mass spectrometry (MSMS), Fourier transform mass spectrometry (FTMS) and others. The gas chromatography-mass spectrometry (GC-MS) is further sub-segmented into single quadrupole gas chromatography-mass spectrometry (SQ GC-MS), triple-quadrupole gas chromatography-mass spectrometry (TQ GC-MS), quadrupole-time of flight gas chromatography-mass spectrometry (QToF GC-MS) and others (orbitrap). The liquid chromatography-mass spectrometry (LC-MS) is sub-segmented into single quadrupole liquid chromatography-mass spectrometry (SQ LC-MS), triple-quadrupole liquid chromatography-mass spectrometry (TQ LC-MS), quadrupole-time of flight liquid chromatography-mass spectrometry (QToF LC-MS) and others (orbitrap). Inductively coupled plasma mass spectrometry (ICP-MS) includes single quadrupole ICP-MS, high resolution ICP-MS and multicollector ICP-MS. Lastly, the others segment contains secondary ion mass spectrometry (SIMS) and matrix-assisted laser desorption/ionization-time of flight spectrometry (MALDI-TOF).
Molecular spectrometry is classified into nuclear magnetic resonance spectrometry (NMR), ultraviolet visible spectrometry (UV-Vis), infrared spectrometry (IR), color measurement and Raman spectrometry. The nuclear magnetic resonance is sub-segmented into continuous wave, fourier transform and solid state NMR. The ultraviolet visible spectrometry is further classified into single beam, double beam and array based UV-visible spectrometry. Infrared segment includes near infrared (NIR), mid infrared (MIR) and far infrared spectrometry (FIR). Color measurement includes luminescence which is further sub-segmented into fluorescence spectrometry. Raman spectrometry is further classified into fourier transform, surface enhancing and micro Raman spectrometry.
The spectrometry application market includes agriculture, food and beverage, biotechnology, pharmaceuticals, environmental testing, chemical industry, semiconductors/electronics/nanotechnology and others which include forensic, geology, petrochemical industry, defence industries, cosmetics, archaeology, marine emission control (MEC), material science, oil and gas and automotive.
Among the spectrometry technology type, the Molecular spectrometry segment dominated the market by occupying a largest share of XX%. At the same time, mass spectrometry market is the fastest growing segment with a CAGR of 8.9% from 2015 to 2022. In applications, pharmaceuticals segment holds the largest share of 32.9% and semiconductors/electronics/nanotechnology is the fastest growing segment with a CAGR of X% from 2015 to 2022. Geographical wise, North America is the largest market, with a share of XX% followed by Europe, Rest of the World and Asia. The Asia-Pacific region is the fastest growing region with a CAGR of X% from 2015 to 2022 suggesting an array of opportunities for growth and likely to be getting into the eyes of new investors in the spectrometry market. Growth in Asia-Pacific market is attributed to increased funding from the corresponding governments for research activities, technological advancements, increased pharmaceutical and biotechnological research.
The spectrometry market is expected to grow steadily at a CAGR of X% during 2015 to 2022. The factors driving the growth of this market are increased use of handheld and portable spectrometer devices, high rate influx of innovative products, increasing demand from emerging countries and fund allotment from government organizations and companies are likely to propel the spectrometry market.
However, complex regulatory guidelines, huge capital investments and shortage of skilled technicians are hampering the growth of the market. The threat for the spectrometry market includes unfavourable economic conditions and political instability that leads to reduced product sales.
The spectrometry global market is a highly fragmented market and all the existing players in this market are involved in developing new and advanced products to maintain their market shares. Some of the key players of the spectrometry market are AB Sciex (U.S.), Agilent Technologies Inc (U.S.), Analytik Jena AG (Germany), Biomerieux (France), Bruker Corporation (U.S.), Horiba (Japan), Perkin Elmer (U.S.), Shimadzu Corporation (Japan), Thermo Fisher Scientific Inc (U.S.), and Waters Corporation (U.S.).
The report provides an in depth market analysis of the above mentioned segments across the following regions:
• North America
• Europe
• Asia-Pacific
• Rest of the World (RoW)
1 EXECUTIVE SUMMARY 32
2 INTRODUCTION 37
- 2.1 KEY TAKE AWAYS 37
- 2.2 REPORT DESCRIPTION 37
- 2.3 MARKETS COVERED 40
- 2.4 STAKEHOLDERS 43
- 2.5 RESEARCH METHODOLOGY 44
- 2.5.1 MARKET SIZE ESTIMATION 45
- 2.5.2 MARKET CRACKDOWN AND DATA TRIANGULATION 48
- 2.5.3 SECONDARY SOURCES 49
- 2.5.4 KEY DATA POINTS FROM SECONDARY SOURCES 50
- 2.5.5 PRIMARY SOURCES 51
- 2.5.6 KEY DATA POINTS FROM PRIMARY SOURCES 51
- 2.5.7 ASSUMPTIONS 51
3 MARKET ANALYSIS 53
- 3.1 INTRODUCTION 53
- 3.2 MARKET SEGMENTATION 54
- 3.3 FACTORS INFLUENCING MARKET 57
- 3.3.1 DRIVERS & OPPORTUNITIES 58
- 3.3.1.1 Trends towards use of handheld and portable spectrometer devices 58
- 3.3.1.2 High rate of influx of increasing innovative products 59
- 3.3.1.3 High demand in emerging countries 59
- 3.3.1.4 Fund allocation from government organizations and companies 60
- 3.3.1.5 Rapid growth in clinical/healthcare market 60
- 3.3.2 RESTRAINTS & THREATS 61
- 3.3.2.1 Huge Capital Investment 61
- 3.3.2.2 Shortage of skilled technicians 62
- 3.3.2.3 Complex regulatory guidelines 62
- 3.3.1 DRIVERS & OPPORTUNITIES 58
- 3.4 PORTER’S FIVE FORCE ANALYSIS 64
- 3.4.1 THREAT OF NEW ENTRANTS 65
- 3.4.2 THREAT OF SUBSTITUTES 65
- 3.4.3 BARGAINING POWER OF SUPPLIERS 65
- 3.4.4 BARGAINING POWER OF BUYERS 65
- 3.4.5 RIVALRY AMONG EXISTING COMPETITORS 66
- 3.5 REGULATORY GUIDELINES 67
- 3.6 RECENT TECHNIQUES BASED-ON APPLICATION 72
- 3.7 PATENT TRENDS 77
- 3.8 TECHNOLOGICAL ADVANCEMENTS 83
- 3.8.1 MICROFLUIDIC SPECTROMETERS 83
- 3.8.2 IMAGING MASS SPECTROMETRY 84
- 3.8.3 CROSS LINKING MASS SPECTROMETRY 85
- 3.8.4 MICROPLATE SPECTROPHOTOMETERS 85
- 3.8.5 LASER ABLATION ELECTROSPRAY IONIZATION MASS SPECTROMETRY 86
- 3.8.6 REDI (RESONANCE ENHANCED DESOPRTION IONIZATION) CHIPS 86
- 3.8.7 SPATIALLY OFFSET RAMAN SPECTROSCOPY (SORS) 87
- 3.8.8 OTHER ADVANCEMENTS 87
- 3.9 MARKET SHARE ANALYSIS 89
4 SPECTROMETRY GLOBAL MARKET, BY TECHNOLOGY 97
- 4.1 INTRODUCTION 97
- 4.2 ATOMIC SPECTOMETRY 100
- 4.2.1 ATOMIC ABSORPTION SPECTROMETRY 105
- 4.2.2 X-RAY DIFFRACTION SPECTROMETRY 108
- 4.2.3 X-RAY FLUORESCENCE SPECTROMETRY 110
- 4.2.4 X-RAY PHOTOELECTRON SPECTROMETRY (XPS) 113
- 4.2.5 INDUCTIVELY COUPLED PLASMA-ATOMIC EMISSION SPECTROMETRY 115
- 4.2.6 ELEMENTAL ANALYZERS 117
- 4.2.7 OTHERS 119
- 4.2.7.1 Arc/Spark Optical Emission Spectrometry (Arc/Spark OES) 121
- 4.2.7.2 Glow discharge atomic emission spectrometry (GD-OES) 123
- 4.3 MASS SPECTROMETRY 124
- 4.3.1 INTRODUCTION 124
- 4.3.2 GAS CHROMATOGRAPHY-MASS SPECTROMETRY (GC-MS) 128
- 4.3.2.1 Single Quadrupole Gas Chromatography Mass Spectrometry 132
- 4.3.2.2 Triple Quadrupole Gas Chromatography Mass Spectrometry 134
- 4.3.2.3 Quadrupole time of flight gas chromatography mass
spectrometry (QTOF-GCMS) 135
- 4.3.2.4 Others 137
- 4.3.3 LIQUID CHROMATOGRAPHY-MASS SPECTROMETRY (LC-MS) 139
- 4.3.3.1 Single Quadrupole Liquid Chromatography Mass Spectrometry 143
- 4.3.3.2 Triple Quadrupole Liquid Chromatography Mass Spectrometry 145
- 4.3.3.3 Quadrupole Time of Flight Liquid Chromatography
Mass Spectrometry (QTOF-LCMS) 147
- 4.3.3.4 Others 149
- 4.3.4.1 Single Quadrupole Inductively Coupled Plasma Mass
Spectrometry (SQ-ICP-MS) 155
- 4.3.4.2 High-Resolution Inductively Coupled Plasma Mass
Spectrometry (HR-ICP-MS) 157
- 4.3.4.3 Multi-collector Inductively Coupled Plasma Mass
Spectrometry (MC-ICP-MS) 159
- 4.3.5 FOURIER TRANSFORM MASS SPECTROMERTY 161
- 4.3.6 MAGNETIC SECTOR MASS SPECTROMETRY 163
- 4.3.7 OTHERS 165
- 4.3.7.1 Secondary Ion Mass Spectrometry (SIMS) 166
- 4.3.7.2 Matrix-assisted laser desorption /ionization-time of flight
spectrometry (MALDI-TOF) 169
- 4.4 MOLECULAR SPECTROMETRY 171
- 4.4.1 INTRODUCTION 171
- 4.4.2 NUCLEAR MAGNETIC RESONANCE (NMR) SPECTROMETRY 175
- 4.4.2.1 Continuous Wave NMR Spectrometry 179
- 4.4.2.2 Fourier Transform NMR Spectrometry 181
- 4.4.2.3 Solid State NMR Spectrometry 183
- 4.4.3 ULTRAVIOLET VISIBLE (UV-VIS) SPECTROMETRY 184
- 4.4.3.1 Single Beam Ultraviolet Visible Spectrometry 189
- 4.4.3.2 Double Beam Ultraviolet Visible Spectrometry 191
- 4.4.3.3 Array-Based Ultraviolet Visible Spectrometry 193
- 4.4.4 INFRARED SPECTROMETRY 195
- 4.4.4.1 Near-Infrared Spectrometry 199
- 4.4.4.2 Mid-Infrared (MIR) Spectrometry 202
- 4.4.4.3 Far-Infrared (FIR) Spectrometry 204
- 4.4.5 COLOR MEASUREMENT 205
- 4.4.5.1 Luminescence Spectrometry 206
- 4.4.5.1.1 Fluorescence Spectrometry 206
- 4.4.6 RAMAN SPECTROMETRY 207
- 4.4.6.1 Fourier Transform (FT) Raman Spectrometry 212
- 4.4.6.2 Surface Enhanced Raman Scattering (SERS) 213
- 4.4.6.3 Micro Raman Spectrometry (MRS) 215
5 SPECTROMETRY GLOBAL MARKET, BY APPLICATIONS 217
- 5.1 INTRODUCTION 217
- 5.2 AGRI, FOOD AND BEVERAGE INDUSTRIES 220
- 5.3 BIOTECHNOLOGY 223
- 5.4 PHARMACEUTICALS 224
- 5.5 ENVIRONMENTAL TESTING 227
- 5.6 CHEMICAL INDUSTRY 228
- 5.7 SEMICONDUCTORS, NANOTECHNOLOGY AND ELECTRONICS 231
- 5.8 OTHERS 234
6 REGIONAL ANALYSIS 238
- 6.1 INTRODUCTION 238
- 6.2 NORTH AMERICA 241
- 6.3 EUROPE 258
- 6.4 ASIA-PACIFIC 275
- 6.5 REST OF THE WORLD 293
7 COMPETITIVE LANDSCAPE 310
- 7.1 INTRODUCTION 310
- 7.2 NEW PRODUCT LAUNCHES 312
- 7.3 AGREEMENTS, PARTNERSHIP, COLLABORATION & JOINT VENTURES 333
- 7.4 APPROVALS 337
- 7.5 EXPANSIONS 340
- 7.6 MERGERS & ACQUISITIONS 342
- 7.7 OTHER DEVELOPMENTS 344
8 MAJOR COMPANIES 345
- 8.1 AB SCIEX 345
- 8.1.1 OVERVIEW 345
- 8.1.2 FINANCIALS 346
- 8.1.3 PRODUCT PORTFOLIO 348
- 8.1.4 KEY DEVELOPMENTS 350
- 8.1.5 BUSINESS STRATEGY 354
- 8.1.6 SWOT ANALYSIS 355
- 8.2 AGILENT TECHNOLOGIES, INC. 356
- 8.2.1 OVERVIEW 356
- 8.2.2 FINANCIALS 357
- 8.2.3 PRODUCT PORTFOLIO 359
- 8.2.4 KEY DEVELOPMENTS 364
- 8.2.5 BUSINESS STRATEGY 370
- 8.2.6 SWOT ANALYSIS 371
- 8.3 ANALYTIK JENA AG 372
- 8.3.1 OVERVIEW 372
- 8.3.2 FINANCIALS 373
- 8.3.3 PRODUCT PORTFOLIO 374
- 8.3.4 KEY DEVELOPMENTS 376
- 8.3.5 BUSINESS STRATEGY 379
- 8.3.6 SWOT ANALYSIS 380
- 8.4 BIOMERIEUX 381
- 8.4.1 OVERVIEW 381
- 8.4.2 FINANCIALS 382
- 8.4.3 Product Portfolio 385
- 8.4.4 KEY DEVELOPMENTS 385
- 8.4.5 BUSINESS STRATEGY 386
- 8.4.6 SWOT ANALYSIS 387
- 8.5 BRUKER CORPORATION 388
- 8.5.1 OVERVIEW 388
- 8.5.2 FINANCIALS 389
- 8.5.3 PRODUCT PORTFOLIO 391
- 8.5.4 KEY DEVELOPMENTS 399
- 8.5.5 BUSINESS STRATEGY 403
- 8.5.6 SWOT ANALYSIS 404
- 8.6 HORIBA 405
- 8.6.1 OVERVIEW 405
- 8.6.2 FINANCIALS 406
- 8.6.3 PRODUCT PORTFOLIO 408
- 8.6.4 KEY DEVELOPMENTS 413
- 8.6.5 BUSINESS STRATEGY 416
- 8.6.6 SWOT ANALYSIS 417
- 8.7 PERKIN ELMER 418
- 8.7.1 OVERVIEW 418
- 8.7.2 FINANCIALS 419
- 8.7.3 PRODUCT PORTFOLIO 421
- 8.7.4 KEY DEVELOPMENTS 425
- 8.7.5 BUSINESS STRATEGY 426
- 8.7.6 SWOT ANALYSIS 427
- 8.8 SHIMADZU CORPORATION 428
- 8.8.1 OVERVIEW 428
- 8.8.2 FINANCIALS 429
- 8.8.3 PRODUCT PORTFOLIO 432
- 8.8.4 KEY DEVELOPMENTS 435
- 8.8.5 BUSINESS STRATEGY 438
- 8.8.6 SWOT ANALYSIS 439
- 8.9 THERMO FISHER SCIENTIFIC, INC. 440
- 8.9.1 OVERVIEW 440
- 8.9.2 FINANCIALS 441
- 8.9.3 PRODUCT PORTFOLIO 444
- 8.9.4 KEY DEVELOPMENTS 449
- 8.9.5 BUSINESS STRATEGY 453
- 8.9.6 SWOT ANALYSIS 454
- 8.10 WATERS CORPORATION 455
- 8.10.1 OVERVIEW 455
- 8.10.2 FINANCIALS 456
- 8.10.3 PRODUCT PORTFOLIO 458
- 8.10.4 KEY DEVELOPMENTS 461
- 8.10.5 BUSINESS STRATEGY 464
Summary:
Get latest Market Research Reports on Spectrometry. Industry analysis & Market Report on Spectrometry is a syndicated market report, published as Spectrometry Global Market - Forecast to 2022. It is complete Research Study and Industry Analysis of Spectrometry market, to understand, Market Demand, Growth, trends analysis and Factor Influencing market.
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