Gas Analyzers Product List and Ranking from 29 Manufacturers, Suppliers and Companies

Last Updated：Oct 01, 2025 Aggregation Period:Sep 03, 2025～Sep 30, 2025
This ranking is based on the number of page views on our site.

Gas Analyzers Manufacturer, Suppliers and Company Rankings

Last Updated：Oct 01, 2025 Aggregation Period:Sep 03, 2025～Sep 30, 2025
This ranking is based on the number of page views on our site.

Q'sfix （キューズフィックス） Tokyo//Testing, Analysis and Measurement
一般財団法人材料科学技術振興財団　MST Tokyo//Testing, Analysis and Measurement
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4 相互理化学硝子製作所（TOP） Kyoto//Testing, Analysis and Measurement
5 エスアンドエムイー Tokyo//Industrial Electrical Equipment

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Gas Analyzers Product ranking

Last Updated：Oct 01, 2025 Aggregation Period:Sep 03, 2025～Sep 30, 2025
This ranking is based on the number of page views on our site.

Wearable breath gas analysis device VO2Master Q'sfix （キューズフィックス）
SF6 gas analysis device "Rapidox SF6 6100 Series"
All That Gas Analysis Equipment JIS K-0301 Standard 相互理化学硝子製作所（TOP）
Exhaled Gas Analysis Device "VO2 MASTER MW-1100" エスアンドエムイー
4 [Analysis Case] Evaluation of Organic Component Desorption in a Vacuum 一般財団法人材料科学技術振興財団　MST

Gas Analyzers Product List

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Portable FTIR Gas Analyzer 'DIK-GT5000'

Successfully miniaturized and lightweight, enhancing portability! This is an IoT-compatible gas analysis device.

The "DIK-GT5000" is an analytical device capable of analyzing up to 50 gas components simultaneously. It is even smaller and lighter than the previous model, weighing approximately 9.4 kg, and is equipped with drip-proof and vibration-resistant features, making it suitable for outdoor use. Measurements are taken with a rapid response time of just 2 minutes, and calibration is simplified to a single zero calibration once a day. We recommend sensitivity calibration once a year, and daily sensitivity calibration is not necessary. 【Features】 ■ Drip-proof IP54 standard ■ Low running costs ■ Network connectivity allows for measurements without going to the site ■ New software compatible with tablet PCs enables intuitive operation *For more details, please refer to the PDF document or feel free to contact us.

Company：大起理化工業
Price：Other

Analytical Equipment and Devices

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Are you having trouble measuring extremely small leaks?

Here is the answer! Introducing solutions and examples for ultra-micro leak testing!

The "WATMASS-MPH DA System" is a new concept gas analysis device that combines the technology of our ultra-low gas emission residual gas analyzer "WATMASS" with the technology of ultra-low gas emission vacuum structural materials (0.2% BeCu alloy). Our ultra-trace gas analysis device "WATMASS-MPH System" is capable of measuring destruction and leak rates (below 10^-15 Pa·m³/s). It is suitable for MEMS, life science devices, and sealing devices such as semiconductors! ★ We also accept various commissioned gas analyses for device evaluation and material evaluation! ★ 【Features】 ■ Ultra-high sensitivity gas analysis device made of 0.2% BeCu alloy ■ Measurement accuracy evaluation obtained from AIST ■ Capable of measuring destruction and leak rates (below 10^-15 Pa·m³/s) ■ Various commissioned gas analyses are also possible *For more details, please refer to the PDF document or feel free to contact us.

Company：東京電子
Price：Other

Food Testing/Analysis/Measuring Equipment

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CVD process gas analysis device MPQMS

It is a quadrupole mass spectrometry system that can analyze the gas components of the CVD process on-site.

Our various nano-carbon manufacturing equipment and biomass carbonization devices are designed to be integrated and used as is. They are equipped with an exhaust system and can handle high-pressure CVD conditions.

Company：マイクロフェーズ
Price：Other

Analytical Equipment and Devices

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Headspace gas analyzer

Headspace analyzer, headspace, headspace, analyzer Headspace analyzer sealed packaging bags, bottles, cans and oxygen in, carbon dioxide gas content in the headspace of the mixing proportion applied to the analysis.

Company：ラブシンク　インスツルメンツ
Price：Other

Other inspection equipment and devices
Analytical Equipment and Devices

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[Analysis Case] Thermal Desorption Gas Analysis of SiN Film by TDS

It is possible to evaluate the surface-adsorbed gas on the thin film and the desorbed gas from within the film.

The TDS analysis results regarding the SiN film on the Si substrate are presented. In the low-temperature range up to around 100°C, there is little desorption, indicating that there were few adsorbed components on the surface of the sample. On the other hand, as the temperature of the sample increases, it can be observed that m/z 2 (H2), m/z 18 (H2O), and m/z 27 (C2H3: organic fragment components) are being desorbed. TDS analysis conducted under high vacuum (1E-7 Pa) is effective for evaluating the adsorbed gas components on the film surface and trace gas components within the film.

Company：一般財団法人材料科学技術振興財団　MST
Price：Other

Contract Analysis

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[Analysis Case] TDS Analysis of Glass Samples

It is possible to analyze desorbed gases by temperature increase even with transparent samples that allow infrared rays to pass through.

The temperature-programmed desorption gas analysis method (TDS) is a mass spectrometry technique that directly heats a sample by irradiating it with infrared light and monitors the gases generated at each temperature. When analyzing samples that cannot absorb infrared light, such as glass substrates, it is possible to conduct the analysis by changing the sample stage from transparent to black. The black stage absorbs infrared light, raising its temperature, which in turn increases the temperature of the sample through thermal conduction, generating gases.

Company：一般財団法人材料科学技術振興財団　MST
Price：Other

Contract Analysis

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[Analysis Case] Thermal Desorption Gas Analysis of Organic Films (TDS)

It is possible to evaluate the outgassing components of organic matter in a vacuum environment.

TDS is a method that heats samples in a vacuum environment and monitors the gases that are released. When measuring organic substances, it can be difficult to obtain accurate measurements due to contamination of the equipment from large amounts of gas release. However, by adjusting the sample amount and analysis conditions in advance to control the amount of gas released, analysis becomes possible. Below are the results of TDS analysis conducted on organic films. We were able to capture the phenomenon where surface-adsorbed water is released at low temperatures, and the intensity of gas release increases with rising temperature.

Company：一般財団法人材料科学技術振興財団　MST
Price：Other

Contract Analysis

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Examples of TDS analysis by representative materials and purposes

TDS: Thermal Desorption Gas Analysis Method

TDS is a method that heats samples in high vacuum (1E-7 Pa) and detects the gases that are released. By heating the sample at a constant rate in high vacuum, it is possible to confirm the temperature dependence of even trace amounts of desorption (at the monolayer level). Additionally, for some components, it is also possible to calculate the number of molecules of the desorbed gas. We will introduce examples of TDS applied to representative materials.

Company：一般財団法人材料科学技術振興財団　MST
Price：Other

Contract Analysis

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[Analysis Case] Corrosive Gas Analysis by TDS

You can check for gases that have a negative impact on the product.

Corrosive gases such as etching gases have a significant impact on the degradation of semiconductors, electronic components, and devices. Below, we present an example of capturing corrosive gases using TDS (Temperature-Programmed Desorption Gas Analysis). It was confirmed that HCl, a corrosive gas, desorbs with the increase in temperature of the sample. Since TDS can capture desorption in the m/z range of 2 to 199 while heating, it is effective for investigating the types and amounts of corrosive gases as well as their temperature dependence of desorption.

Company：一般財団法人材料科学技術振興財団　MST
Price：Other

Contract Analysis

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[Analysis Case] Analysis of Hydrogen Desorption from Stainless Steel by TDS

It is possible to evaluate the amount of hydrogen released from metals using TDS (Thermogravimetric Desorption Gas Analysis).

Many metallic materials, such as steel, are known to deteriorate (hydrogen embrittlement) due to diffusible hydrogen that diffuses within the crystal lattice at room temperature. This time, we present an example of evaluating the amount of hydrogen desorption from stainless steel plates (SUS316L) with added hydrogen using TDS. A desorption peak, thought to be diffusible hydrogen, was observed in the low-temperature range around 150°C.

Company：一般財団法人材料科学技術振興財団　MST
Price：Other

Contract Analysis
Other metal materials
Steel

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[Analysis Case] Simultaneous Heating Analysis of Copper Plates and Solder by TDS

It is possible to evaluate degassing in an environment close to the actual process by bringing the materials into contact with each other.

Soldering of metals is one of the essential processes in the field of electronics. It is known that the outgassing that occurs when metal and solder are heated in contact can lead to voids. Below, we introduce a case where TDS analysis (Thermal Desorption Spectroscopy) was performed with solder placed on a copper plate. TDS can evaluate the outgassing associated with the heating of materials. By bringing the copper plate and solder into contact and heating them simultaneously within the TDS apparatus, we were able to capture outgassing in an environment close to the actual process.

Company：一般財団法人材料科学技術振興財団　MST
Price：Other

Contract Analysis
Non-ferrous metals
Solder

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Ultra-high sensitivity gas analysis device using the vacuum laboratory WATMASS.

By cleverly utilizing the pumping action of WATMASS, ultra-high sensitivity and ultra-trace gas analysis is possible.

This is a new concept for gas analysis that combines the technology of ultra-low gas emission Q-mass (WATMASS) with the technology of ultra-low gas emission vacuum structural materials through a complete sealing method.

Company：真空実験室
Price：Other

Other machine elements

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Gas Analysis Instrument Series Product Catalog

A wide range of analytical instruments born from years of experience and advanced technology!

This catalog features a series of gas analysis instruments manufactured by Fuji Electric. It includes the "Infrared Gas Analyzer," which measures the concentrations of up to seven gas components necessary for environmental monitoring, as well as products like the "Zirconia Oxygen Analyzer" and "Gas Sampling Equipment." You can choose the most suitable analysis instruments according to your equipment and installation conditions. [Featured Products] ■ Infrared Gas Analyzer ■ Infrared Gas Measuring Instrument ■ Infrared Gas Measuring Instrument for Heat Treatment Furnaces ■ Compact Type Infrared Gas Measuring Instrument ■ Laser Type Gas Measuring Instrument *For more details, please refer to the PDF materials or feel free to contact us.

Company：三築緑屋システム
Price：Other

Gas recovery/treatment equipment
Analytical Equipment and Devices

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Environmental Gas Analysis Device Peak Performer 1 "RCP"

We measure impurities in gases at the ppb level using a compound reduction photometer.

Peak Performer 1 measures impurities in gases at the ppb level using a Reducing Compound Photometer (RCP). This measurement method provides linear results across a wide range and is a simple and accurate way to measure. The technology of PP1 is cost-effective, easy to operate, and superior to comparable products from other companies. Additionally, Peak Lab has extensive experience in this field, so we can accommodate specifications tailored to your application. 【Standard Applications】 ○ Measurement of H2 and CO concentrations in ultra-pure bulk process gases (N2/Ar/O2/He) ○ Measurement of CO concentration in air at environmental monitoring stations ○ Measurement of H2 concentration in sediment studies and groundwater ○ Measurement of ethylene (C2H4) concentration in air For more details, please contact us or download the catalog.

Company：アップ・テック・ジャパン
Price：Other

Analytical Equipment and Devices
Other environmental analysis equipment

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[Analysis Case] Combustion Gas and Heating Generation Gas Analysis

We will propose the appropriate analysis method according to your objectives!!

◎Heating Emission Gas Analysis Qualitative and quantitative analysis of gases generated by heating will be conducted. Materials and products may emit gases during their manufacturing processes due to heating, and these gases can potentially have adverse effects on other raw materials or products. It is possible to analyze the gases generated under conditions equivalent to the heating conditions in the manufacturing process of the sample. - Heating Method Carrier gas (nitrogen, argon, air, etc.) is flowed through a combustion tube at a specified flow rate while heating to the set temperature. *Depending on the customer's objectives, analysis can be performed under various conditions, including different types of carrier gases (nitrogen, argon), flow rates, temperatures, etc. - Collection and Analysis Method Combustion gases will be collected and analyzed using a collection method suitable for the target gases. ◎Combustion Gas Analysis Qualitative and quantitative analysis of gas components generated during combustion under the conditions specified in "Analysis Method for Plastic Combustion Gases" JIS K 7217 will be conducted. (Compliant with JIS K 7217 Method A) By analyzing combustion gases, the safety and environmental impact of materials can be evaluated.

Company：カネカテクノリサーチ本社、東京営業所、名古屋営業所、大阪分析センター、高砂分析センター
Price：Other

Contract measurement

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