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Chromatograph Mass Spectrometer Product List and Ranking from 10 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Oct 15, 2025~Nov 11, 2025
This ranking is based on the number of page views on our site.

Chromatograph Mass Spectrometer Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Oct 15, 2025~Nov 11, 2025
This ranking is based on the number of page views on our site.

  1. 一般財団法人材料科学技術振興財団 MST Tokyo//Testing, Analysis and Measurement
  2. サーモフィッシャーサイエンティフィック株式会社/Thermo Fisher Scientific K.K. Tokyo//Testing, Analysis and Measurement
  3. null/null
  4. 4 アジレント・テクノロジー株式会社 Tokyo//Testing, Analysis and Measurement
  5. 5 アイテス Shiga//Electronic Components and Semiconductors
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Chromatograph Mass Spectrometer Product ranking

Last Updated: Aggregation Period:Oct 15, 2025~Nov 11, 2025
This ranking is based on the number of page views on our site.

  1. Gas Chromatograph Mass Spectrometer "GCMS-TQ8050 NX"
  2. We will introduce Agilent's expertise in PFAS. アジレント・テクノロジー株式会社
  3. High-Performance Liquid Chromatography Mass Spectrometer "LCMS-TQ RX Series"
  4. 4 Double convergence type GC-HRMS "DFS" サーモフィッシャーサイエンティフィック株式会社/Thermo Fisher Scientific K.K.
  5. 5 [Analysis Case] Comparative Quantitative Analysis of Ergothioneine in Mushrooms 一般財団法人材料科学技術振興財団 MST

Chromatograph Mass Spectrometer Product List

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[Case Study] Workflow for Non-Target Analysis Using GC-MS

[Case Study] Workflow for Non-Target Analysis Using GC-MS

Introducing a case study of non-target analysis combining GC-MS and deconvolution software.

In recent years, the demand for non-target analysis has been increasing in many fields, such as odor analysis and impurity analysis, using GC-MS. This involves conducting comprehensive measurements without specifying the measurement targets through full scan MS and extracting valuable information from the vast spectral data obtained. Since the full scan MS data obtained from GC-MS can contain information on hundreds to thousands of compounds, efficiently identifying valuable information from this data is a very important challenge. Additionally, it is crucial to select the optimal pretreatment device considering high extraction capability, broad coverage, and the form and properties of the sample, in order to comprehensively extract samples without loss and introduce them into GC-MS. This application note presents a case study of non-target analysis that combines a system connecting a pretreatment device to a Thermo Scientific GC-MS instrument with AnalyzerPro, a deconvolution software from SpectralWorks.

  • Analytical Equipment and Devices

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[Customer Case Study] GC-MS Analysis of Volatile E&L Compounds

[Customer Case Study] GC-MS Analysis of Volatile E&L Compounds

Development and Optimization of Headspace GC-MS Method for Volatile Extractables and Leachables

This is a technical document regarding the development of analytical methods for volatile E&L compounds by SGS in the United States. A rubber plunger stopper was used as a sample, and headspace was employed for sample extraction. This sampling technique allows for easy method setup and optimization, making it highly suitable for testing volatile leachables from polymer materials. Furthermore, by combining it with a high-resolution GC-MS system, it confidently and rapidly identifies volatile impurities in polymer materials with excellent sensitivity and mass resolution.

  • Analytical Equipment and Devices

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[Case Study] Comparison of Volatile Components in Meat Sauce Using GCMS

[Case Study] Comparison of Volatile Components in Meat Sauce Using GCMS

A high-resolution GCMS workflow that clarifies the differences in the constituent components of various foods.

The processed foods we consume develop unique flavors and aromas due to various differences in the quantities and origins of the ingredients used, as well as cooking times, even if they share the same name. Understanding these differences at the component level is crucial in food research, and the use of GC/MS methods is expected to shed light on volatile components, which are believed to be factors influencing aroma. Non-target analysis that encompasses all contained components has been considered challenging due to the vast amount of information and the complexity of analytical operations. To obtain reliable results, efficient sampling methods, chromatographic separation, advanced mass separation, and software for smooth statistical analysis of the data are required. In this technical document, we present a workflow using high-resolution GC-MS (Orbitrap GC-MS) and Compound Discoverer software for low molecular analysis, as a solution to smoothly and accurately address this complex food comparison, exemplified by the inter-sample comparison of commercially available meat sauces from three food manufacturers.

  • Analytical Equipment and Devices

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GC-MS considering helium supply shortages and safety when using hydrogen.

GC-MS considering helium supply shortages and safety when using hydrogen.

Please obtain the presentation materials on solutions to the helium depletion issue in GC and GC-MS analysis from "PDF Download."

Due to the recent shortage of helium gas supply, it has become urgent to review the operation of analytical instruments that use helium. Measures for GC and GC-MS include reducing helium consumption or using hydrogen as an alternative carrier gas. In addition to the general helium depletion issue, you can view an explanation of our solutions in the PDF download.

  • Analytical Equipment and Devices

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[Case Study] Residual Pesticide Analysis in Baby Food Using High-Resolution GC-MS

[Case Study] Residual Pesticide Analysis in Baby Food Using High-Resolution GC-MS

Achieving high selectivity and high sensitivity for accurate quantitative analysis of pesticide residues in food.

The Thermo Scientific Orbitrap Exploris GC mass spectrometer demonstrates excellent performance in pesticide analysis in baby food. This system provides high selectivity and sensitivity with mass resolutions set at 30,000 and 60,000, accurately detecting low concentrations of pesticides from complex sample matrices. The QuEChERS method using citrate buffer was employed for sample preparation. This technical document presents the performance evaluation results of linearity, sensitivity, mass accuracy, and ion ratios for 18 types of pesticides in baby food extracts. All pesticides were detected and identified at the lowest standard concentration of 0.005 mg/kg, with mass accuracy showing high reliability within 1.5 ppm across all concentration levels. 【Features】 ■ Accurate mass measurement at high resolution ■ High selectivity and sensitivity even in complex sample matrices ■ Easy data acquisition and analysis using Thermo Scientific Chromeleon chromatography data system (CDS) software ■ Good linearity with a coefficient of determination of over 0.99 ■ Mass accuracy within 1.5 ppm across all concentration levels

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  • Food Testing/Analysis/Measuring Equipment
  • Analytical Equipment and Devices
  • others

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Gas Chromatography-Mass Spectrometry (GC-MS)

Gas Chromatography-Mass Spectrometry (GC-MS)

It is possible to qualitatively and quantitatively analyze trace components in a mixture with high precision.

It is possible to qualitatively and quantitatively analyze trace components in a mixture with high precision.

  • Contract Analysis

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Gas Chromatograph Mass Spectrometer Pursuing High Sensitivity and Stability

Gas Chromatograph Mass Spectrometer Pursuing High Sensitivity and Stability

Provides the necessary sensitivity and dynamic range for each analysis! A gas chromatograph mass spectrometer with a new detector. It generates high productivity.

Introducing the Clarus SQ 8 GC/MS (Gas Chromatograph Mass Spectrometer). With the adoption of the new "Clarifi" Detector, the Clarus SQ 8 GC/MS pursues further sensitivity and stability, providing the necessary sensitivity and dynamic range for each analysis, resulting in high throughput and productivity. Additionally, it features the new ion source, SMARTsource, which enhances maintenance by further pursuing plug-in capabilities. 【Features】 ◆ Adoption of the new "Clarifi" Detector, achieving high sensitivity and stability ◆ Adoption of a new ion source, improving maintenance with further pursuit of plug-in capabilities ◆ Expansion of analytical methods with the GC sampler TurboMatrix series and Swafer technology *For more details, please refer to the PDF document or feel free to contact us.

  • Other industrial robots
  • Other physicochemical equipment
  • Gas Generator

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[Analysis Case] Evaluation of the Functional Ingredient Glucosylceramide

[Analysis Case] Evaluation of the Functional Ingredient Glucosylceramide

Qualitative analysis by LC/MS and quantitative analysis examples by HPLC.

Glucosylceramide (plant ceramide), one of the glycosphingolipids, has been reported to have moisturizing effects and improvements for atopic dermatitis, making it a component of interest in the beauty field. Although the main structural components of glucosylceramide vary among plants, qualitative analysis can be performed using LC/MS. Additionally, since glucosylceramide has multiple molecular species even from the same plant source, quantitative analysis can be conducted with high precision using an evaporative light scattering detector (ELSD).

  • Contract Analysis

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[Analysis Case] Comparative Quantitative Analysis of Ergothioneine in Mushrooms

[Analysis Case] Comparative Quantitative Analysis of Ergothioneine in Mushrooms

Case studies of quantitative analysis of functional ingredients

Ergothioneine is an amino acid homolog discovered in ergot, known for its strong antioxidant properties and anti-photoaging effects, and research and development are ongoing in the fields of medicine and beauty. Since humans cannot produce ergothioneine in their bodies, they obtain it from sources rich in it, such as certain mushrooms. An analysis of eight types of mushrooms using LC/MS/MS revealed that ergothioneine was detected in all of them. Quantitative analysis was conducted on three types of mushrooms from the Pleurotaceae family, which are said to have high ergothioneine content.

  • Contract Analysis

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[Analysis Case] Analysis of Odorous Components in Olive Oil

[Analysis Case] Analysis of Odorous Components in Olive Oil

Identification of odor components causing differences in products through GC/MS comparison.

When an unusual odor arises from food, it is important to identify the components that cause it. In foods containing various odor components, trace elements can significantly contribute to the overall smell, and the balance of component quantities can lead to substantial differences in odor. Therefore, it is necessary to narrow down the candidate components by comparing the odorous product with a normal product. Here, we present a case study that compares new olive oil and old olive oil using GC/MS to analyze the odor components responsible for the unusual smell.

  • Contract Analysis

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[Analysis Case] High-Sensitivity Analysis of Nitrogen Compounds by GC

[Analysis Case] High-Sensitivity Analysis of Nitrogen Compounds by GC

Analysis of nitrogen compounds using GC/MS/NPD (Nitrogen Phosphorus Detector).

When analyzing samples containing nitrogen compounds using GC, simultaneous measurement with MS (mass spectrometer) and NPD (nitrogen-phosphorus detector) allows for the detection of components that do not appear as peaks in the MS, enabling the acquisition of MS spectra from their retention times for qualitative analysis. In this case, a sample containing trace amounts of the nitrogen-containing compound trimethylamine was measured using GC/MS/NPD. A peak that was buried in the baseline in the MS was confirmed by the NPD, allowing for the qualitative identification of trimethylamine from the mass spectrum at the same retention time.

  • Contract Analysis

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[Analysis Case] Analysis of the Concentration of Functional Ingredients in Blood Components

[Analysis Case] Analysis of the Concentration of Functional Ingredients in Blood Components

Case study on the evaluation of resveratrol concentration in blood.

Measurement method: LC/MS Product field: Food and pharmaceuticals Analysis purpose: Composition evaluation and identification

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[Analysis Case] Investigation of the Causes of Yellowing in Polyurethane

[Analysis Case] Investigation of the Causes of Yellowing in Polyurethane

By using PDA and MS in LC, it is possible to qualitatively analyze colored extracts.

Many organic materials (resins) may discolor due to aging and other factors. The causes include the formation of conjugated double bonds within the polymer, the degradation of additives contained in the resin, and the transfer of surrounding substances, among others. When the degradation of additives is the cause, the responsible substances can be analyzed by elution using methods such as LC or GC. Here, we provide an overview of the causes of resin discoloration and analysis methods, and introduce a case where the coloring substances responsible for yellowing in polyurethane were separated by LC and qualitatively identified using a combination of PDA and MS.

  • Contract Analysis
  • Contract measurement

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Agilent 7250 GC/Q-TOF system

Agilent 7250 GC/Q-TOF system

Simplifying identification and quantification! Achieving reliability in various analyses from routine workflows to advanced research.

The "Agilent 7250 GC/Q-TOF System" is a tool for the identification, quantification, and interpretation of compounds that can be analyzed by GC. It is capable of acquiring full-spectrum high-resolution precise mass data over a wide dynamic range. It is equipped with an EI ion source that provides low-energy EI functionality. 【Features】 ■ High sensitivity detection ■ Accurate quantification ■ Molecular formula estimation capability ■ Simplification of spectra ■ Reproducible data *For more details, please refer to the PDF document or feel free to contact us.

  • Analytical Equipment and Devices

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