Analytical Equipment Product List and Ranking from 267 Manufacturers, Suppliers and Companies

Last Updated：Nov 19, 2025 Aggregation Period:Oct 22, 2025～Nov 18, 2025
This ranking is based on the number of page views on our site.

Analytical Equipment Manufacturer, Suppliers and Company Rankings

Last Updated：Nov 19, 2025 Aggregation Period:Oct 22, 2025～Nov 18, 2025
This ranking is based on the number of page views on our site.

一般財団法人材料科学技術振興財団　MST Tokyo//Testing, Analysis and Measurement
ライフィクスアナリティカル Osaka//Pharmaceuticals and Biotechnology
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4 ビーエルテック Tokyo//Testing, Analysis and Measurement
5 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

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Analytical Equipment Product ranking

Last Updated：Nov 19, 2025 Aggregation Period:Oct 22, 2025～Nov 18, 2025
This ranking is based on the number of page views on our site.

Nanoparticle analysis device "TaylorSizer" ライフィクスアナリティカル
iCAP PRO Series ICP Emission Spectrometer 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.
Alcohol analysis device for sake Alcolyzer3001 SAKE
4 Sake FT-IR component analysis device "OenoFoss2"
5 Trace Sulfur Analysis Device (Old Type) 日東精工アナリテック

Analytical Equipment Product List

241～255 item / All 1223 items

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[Analysis Case] Evaluation of Residual Contaminants in Blood Components

Visualization of wipe residues using TOF-SIMS

When describing cleaning methods in brochures for medical devices, it is necessary to confirm the validity of those cleaning methods. In this case, as a verification experiment for the wiping method of medical devices, we applied bovine serum albumin (BSA), a blood model drug, to sheets of acetyl cellulose (TAC), SUS-made scalpels, and glass, and evaluated the residual components before and after wiping using TOF-SIMS. As a result, it was found that ethanol is more suitable than water for wiping BSA, and that the wiping effectiveness varies depending on the substrate. Measurement method: TOF-SIMS Product field: Medical devices and pharmaceuticals Analysis purpose: Composition evaluation, identification, composition distribution evaluation, failure analysis, defect analysis For more details, please download the materials or contact us.

Company：一般財団法人材料科学技術振興財団　MST
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[Analysis Case] TOF-SIMS Analysis of Solder Separation Cross Section

It is possible to evaluate the distribution of inorganic and organic substances in microdomains.

To investigate the causes of solder delamination, it is effective to conduct component analysis of the solder and the substrate interface. TOF-SIMS is a suitable method for evaluating delaminated areas because it can simultaneously analyze elemental composition and molecular information of organic and inorganic substances, as well as perform imaging analysis. This document presents a case study analyzing the cross-section of a delaminated solder area, confirming the distribution of substrate components, resin components, and organic components other than resin.

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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.

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[Analysis Case] Estimation of Detachment Components by TDS

We will compare the outgassing patterns of multiple masses.

The analysis results of TDS may show multiple components detected for a single mass-to-charge ratio (m/z). Even in such cases, it is possible to estimate the components desorbed by heating by measuring multiple masses and comparing the desorption patterns. Using the TDS analysis results of W films on Si substrates as an example, I will explain the estimation methods for water and ammonia (m/z=17), as well as organic substances and argon (m/z=40).

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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.

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[Analysis Case] Evaluation of Cu Surface Discoloration Using AES and SEM-EDX

It is possible to perform elemental analysis with a shallow detection depth while conducting SEM observation.

SEM-EDX analysis and AES analysis are suitable for simple investigations of discoloration and foreign substances on metal surfaces. However, when the discoloration or foreign substances are thin or small, AES analysis, which provides information from very shallow areas of the surface (about 4-5 nm), is effective. The AES equipment owned by MST can acquire SEM images, allowing AES analysis to be conducted while confirming the areas of interest using SEM images. In this case study, we will present data comparing the evaluation of discoloration on the Cu surface using AES analysis and SEM-EDX analysis. Additionally, we will also present the results of AES depth direction 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.

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[Analysis Case] Evaluation of Ion Implantation Damage in GaN by XAFS

It is possible to confirm the recovery of crystallinity due to irradiation defects and annealing.

Gallium nitride (GaN) is used as a material for LEDs and power devices due to its high thermal conductivity and high breakdown voltage characteristics. In its manufacturing process, the production of high-quality GaN crystals without crystal defects is required, making the assessment of damage from ion implantation and the degree of recovery an important evaluation criterion. This document presents a case study evaluating the damage caused by ion implantation into GaN substrates using XAFS. It is possible to detect disturbances in the crystal structure near the GaN surface, as well as N2 and interstitial N within the film, with high precision.

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[Analysis Case] Evaluation of Pharmaceutical Crystal Polymorphism

It is possible to evaluate the structure of crystalline polymorphs.

The majority of pharmaceuticals are crystalline and are known to have multiple crystal forms. Even for the same substance, the physical and chemical properties, such as solubility, can differ depending on the crystal form, which can also affect the efficacy and safety of the drug. Therefore, the identification of crystal forms is extremely important. In this case, XRD analysis was conducted to evaluate the crystal forms of the active pharmaceutical ingredient in question, both for the pure active pharmaceutical powder and for the commercial products.

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[Analysis Case] Evaluation of Gold Thin Film Adhesion on Wafer by XRF

Comparison of the amount of thin film components adhered between samples.

In fluorescent X-ray analysis (XRF), a simple evaluation of elemental distribution is possible. In this case study, we used a deposition device to create films of arbitrary amounts of Au on 4-inch Si wafers A and B as samples, and compared the distribution and total amount of Au. The results of the surface analysis confirmed the distribution state of Au (Figures 1-4). Additionally, by comparing the adhesion amounts based on the Au intensity from the XRF spectra obtained from each pixel, we confirmed that wafer B had more Au than wafer A (Figure 5).

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[Analysis Case] In-plane film thickness evaluation of Au thin film on wafer using XRF.

Visualization of film thickness distribution through multi-point mapping measurement.

In fluorescent X-ray analysis (XRF), it is possible to easily evaluate element distribution and film thickness. In this case study, we will introduce an example of evaluating the thickness distribution of an Au film on a 4-inch Si wafer through multi-point mapping measurements. By performing multi-point mapping, we can calculate the Au film thickness using the FP (Fundamental Parameter) method from the XRF spectra at each point, allowing for the evaluation of thickness distribution based on the measurement coordinates.

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[Analysis Case] Evaluation of De-gassing of Resist Film by TDS

Evaluation of gas release components from organic films and temperature dependence assessment are possible with TDS.

TDS is a method that heats samples in high vacuum (1E-7 Pa) and investigates the gases released from the samples using a mass spectrometer. Since it is a vacuum system, it is not suitable for the large release of organic substances, but it can be evaluated by adjusting the sample amount. Below is an example of TDS analysis conducted on a resist film. Desorption gases originating from the resist film, such as organic substances, water, H2S, and SO2, were detected. It was also found that the desorption temperatures varied depending on the components.

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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.

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Announcement of the Start of Non-Destructive Testing Services from April 2018

We have assembled equipment that is strong in the analysis of organic materials such as resin and carbon composites.

On April 2, 2018, MST will introduce the latest processing and analysis equipment and begin offering non-destructive analysis services. We will provide analysis services across a wide range of fields, including product development and quality control for electronic devices, pharmaceuticals, and food. Non-destructive analysis is a technology that visualizes the internal state of a product without destroying it. Until now, MST has primarily offered contract services based on destructive analysis methods such as electron microscopy and mass spectrometry. However, there has been an increasing customer demand for observing electronic devices without destruction in recent years. Additionally, there has been a growing need in other fields as well, such as confirming the shapes of pharmaceutical and medical device components, observing the distribution of constituent materials within food, and checking for the presence of cavities. With the introduction of the latest processing and analysis equipment, MST is now able to conduct non-destructive analysis. We will provide analysis services on a contract basis.

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

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[Analysis Case] Evaluation of Blood Lithium Concentration

It can be analyzed over a wide range from low concentrations to toxic levels.

Lithium carbonate, widely used in the treatment of mania and bipolar disorder, must be administered while maintaining an appropriate blood concentration to prevent lithium toxicity. Therefore, regular measurement of blood concentration (therapeutic drug monitoring: TDM) is required. Analysis using ICP-MS (inductively coupled plasma mass spectrometry) allows for the quantification of lithium concentrations in the blood across a wide range, from subtherapeutic levels to toxic levels.

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