SDi質量分析市場：市場の機会（2023年）

質量分析市場は、過去5年間、分析機器の中で最も急速に成長し、最も革新的な分野の1つでした。物質の組成を分析するために使用され、さまざまなタイプの装置と技術が、大きなマクロ分子から元素組成まで、あらゆるものを非常に高い感度で検出し定量するために使用されています。この市場の広がり、ダイナミクス、将来性を理解することは、これらの機器に依存する顧客と市場を理解するための鍵となります。

質量分析計（MS）は、サンプルから得られるイオンの電荷と質量比を測定することで、さまざまな分子、化合物、物質の組成や構成を測定します。高感度の検出システムと分析装置は、サンプル中の化学成分の存在と有病率を測定します。サンプルの種類や物質組成は多種多様であるため、質量分析計は様々な質量分析計、形式、他の技術との組み合わせで開発されてきました。

サンプルの調製やイントロダクションの方法によって、使用する質量分析計が決まります。ガスクロマトグラフ（GC）や液体クロマトグラフ（LC）は、気相と液相の試料を分離するのに役立ち、質量分析計と組み合わせて使用されることが多いです。その他の前処理技術としては、誘導結合プラズマ（ICP）を利用して物質をイオン化するICP-MSがあります。マトリックス支援脱離イオン化（MALDI）は、表面のイメージングに使用されるもう一つの重要な前処理技術です。さらに最近では、環境イオン化質量分析計の動向も高まっており、携帯型や環境モニタリング用途の可能性が広がっています。

質量分析計は世界のマクロ経済動向と地域経済動向に左右されます。質量分析計の需要は地域によって異なり、政府投資、川下市場のパターン、サプライチェーンと生産要因、研究機会のすべてが装置の需要と成長に影響を与えます。米国やカナダ、欧州などの地域は、製薬/バイオ、学術、農業、産業部門が成長または成熟している先進経済圏です。これらの地域での質量分析技術の利用は、中国やその他のアジア太平洋諸国の高成長経済とは異なります。戦争、パンデミック、景気変動などの世界の出来事も、質量分析の需要に影響を与える可能性があります。

質量分析テクノロジーに大きく依存している最終市場はいくつかあります。学術機関では、基礎研究やメソッド開発に質量分析計を長年使用しており、生物学的システムにおける相互作用の発見、環境汚染物質や新しい細菌株の同定、新しい金属やプラスチックの理解などに役立っています。

各質量分析技術にはそれぞれトップベンダーが存在し、その他の小規模ベンダーも、質量分析ユーザーが信頼を寄せるニッチな装置やコンポーネントを提供していることが多いため、忘れてはなりません。

当レポートには、質量分析市場について調査し装置の需要や売上成長に影響を与える市場動向、影響、市場需要を技術、製品タイプ、地域、産業、機能別に区分し、2027年までの年間市場予測を解説付きで掲載しています。

目次

• 調査概要
• 質量分析の使用状況
• ベンダー全体の使用状況
• テクノロジー別のベンダー全体の使用状況
• 今後の購入
  • GC/MS
  • クアドループLC/MS
  • 飛行時間型LC/MS
  • FT/MS・イオントラップLC/MS
  • MALDI-TOF
  • 磁気セクター
  • ICP-MS
  • イオンモビリティースペクトロメトリー
  • ポータブル・インフィールドMS
  • 二次イオンMS（SIMS）
  • 質量分析ベースリークディテクター
  • 残留ガス分析計（RGA）
  • プロセスMS

各技術カテゴリーにおける市場参入企業のシェア - 市場全体の上位ベンダー

• 908 Devices
• Advion
• Agena Bioscience (Mesa Labs)
• Agilent
• Bruker
• CAMECA (AMETEK)
• Canon Anelva
• IMI Adaptas (IMI)
• Industrial gas suppliers
• Inficon
• ION-TOF
• JEOL
• LECO
• Leidos
• Leybold GmbH
• MKS Instruments
• Nu Instruments (AMETEK)
• PerkinElmer
• Pfeiffer Vacuum
• Rapiscan Systems (OSI Systems)
• SCIEX (Danaher)
• Shimadzu
• Smiths Detection
• Teledyne FLIR (Teledyne)
• Thermo Fisher Scientific
• ULVAC-PHI
• Waters

THE MASS SPECTROMETRY INSTRUMENTATION MARKET AND END-USER INSIGHTS

The mass spectrometry market has been one of the fastest growing and most innovative areas of analytical instrumentation over the past five years. Used to analyze the composition of materials, a wide variety of instrument types and techniques are used to detect and quantify everything from large macro-molecules to elemental composition with very high sensitivity. Understanding the breadth, dynamics, and future of this market is key for understanding the customers and markets that rely on these instruments.

Mass spectrometers (MS) measure the composition or makeup of various molecules, compounds, and materials by measuring the charge and mass ratio of ions derived from samples. Highly sensitive detection systems and analyzers provide measurements of the presence and prevalence of chemical components in a sample. Due to the wide variation in potential sample types and material composition, mass spectrometers have been developed with a wide variety of mass analyzers, formats and couplings with other technologies.

The sample preparation and introduction methods chosen often determines the most suitable mass spec technique to use. Gas (GC) or liquid chromatography systems (LC) help separate gas and liquid phase materials and are often utilized in conjunction with the mass spec analyzers. Other preparation techniques include those found in ICP-MS, which utilizes inductively coupled plasma (ICP) to ionize materials. Matrix assisted desorption ionization (MALDI) is another important preparation technique used for imaging surfaces. More recently, there has been a growing trend in ambient ionization mass spectrometers, which open the door for portable and environmental monitoring applications.

Mass spectrometry is subject to global macro-economic trends and regional economic trends. Mass spectrometer demand varies from region to region, with government investment, downstream market patterns, supply chain and production factors, and research opportunities all affecting device demand and growth. Regions such as US & Canada and Europe feature advanced economies with growing or mature pharma/bio, academic, agricultural, and industrial sectors. The usage of mass spec technologies in these regions differs from the high growth economies of China and other Asia-Pacific countries. Additional world events such as wars, pandemics, and economic swings can all affect mass spectrometry demand. This report attempts to untangle the web of variables, helping understand these factors and the impacts they have on mass spec demand.

Several end markets rely heavily on mass spectrometry technologies. Academic institutions have long employed mass spectrometers for basic research and methods development, helping discover interactions in biological systems, identifying environmental contaminants or new bacterial strains, and understanding new metals and plastics. Other industries such as those that compose the pharma/bio sector utilize mass spectrometry for drug and biologics development, with analytical techniques such as time-of-flight (TOF), Fourier transform (FT), or Orbitrap becoming the go-to analytical tool for proteomic research and novel therapeutic development. The applied sector, consisting of clinical, general, environmental, food and agricultural, and forensics labs among others, utilize mass spectrometers for routine testing. Triple quadrupole mass spectrometers are the workhorses of many of these labs; such is the case in environmental labs for example, where these devices are the best instruments for detecting harmful plastics and Per- and Polyfluoroalkyl Substances (PFAS). MALDI instruments are being used in clinical labs to help identify new bacterial strains. Clinical diagnostics mass spectrometers are not covered in this report, but their research use only (RUO) counterparts are. Outside of research, there are a selection of industries that use mass spectrometers involved in process environments, such as in semiconductor production; products like these, such as RGAs, are also covered in this report.

Each mass spec technique has its own selection of top vendors, with their products and moves in the market highlighted in this report. Other smaller vendors are not forgotten, as they often provide niche instruments or components that mass spec users have come to rely on. Unique to this report is a non-exhaustive product list that attempts to highlight the current product offerings from top mass spec vendors.

This report also contains a survey of mass spectrometry experts from a variety of backgrounds, regions, and industries. Here, they offer insights into the types of mass spectrometers they use, the types of labs they work in, and how they employ the devices they use. We delve into the applications utilizing mass spec, how often they use their devices, the vendors they buy from, and their satisfaction with those vendors.

SDi's ‘2023 Mass Spectrometry Instrumentation Market Report’ covers the totality of the research and process mass spectrometry instruments, observing market trends, influences, and forces that affect instrument demand and sales growth. As the leading provider of market research on analytical instrumentation, SDi has crafted this report to evaluate and explain what is currently driving this important market.

Report Overview:

Market demand segmented by technique, product type, region, industry, and function with yearly market forecasts through 2027 with commentary. Each technique also includes a non-exhaustive product list of current MS instruments. The market estimates have been newly updated with 2022 as the base year and estimates are provided for the following techniques:

• GC/MS
• Quadruople LC/MS
• Time-of-flight LC/MS
• FT/MS & Ion trap LC/MS
• MALDI-TOF
• Magnetic Sector
• ICP-MS
• Ion Mobility Spectrometry
• Portable & In-Field MS
• Secondary Ion MS (SIMS)
• Mass Spec-Based Leak Detectors
• Residual Gas Analyzers (RGAs)
• Process MS

Market shares of participating suppliers in each technology category employed by the process analytical instrument industry. Some of the top vendors in the overall market are presented below, in alphabetical order:

• 908 Devices
• Advion
• Agena Bioscience (Mesa Labs)
• Agilent
• Bruker
• CAMECA (AMETEK)
• Canon Anelva
• IMI Adaptas (IMI)
• Industrial gas suppliers
• Inficon
• ION-TOF
• JEOL
• LECO
• Leidos
• Leybold GmbH
• MKS Instruments
• Nu Instruments (AMETEK)
• PerkinElmer
• Pfeiffer Vacuum
• Rapiscan Systems (OSI Systems)
• SCIEX (Danaher)
• Shimadzu
• Smiths Detection
• Teledyne FLIR (Teledyne)
• Thermo Fisher Scientific
• ULVAC-PHI
• Waters

This report also includes a survey of 180 mass spectrometry end users, with the following information presented:

• Survey Demographics
• Mass Spectrometry Usage
• Overall Vendor Usage
• Overall Vendor Usage by Technology
• Future Purchasing

Additionally, vendor satisfaction from the following major MS vendors is presented, including insights into satisfaction by region, sector, product attribute, reasons for using said vendor, switching behavior, and improvements.