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Analysis Product List and Ranking from 182 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Oct 08, 2025~Nov 04, 2025
This ranking is based on the number of page views on our site.

Analysis Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Oct 08, 2025~Nov 04, 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. ビーエルテック Tokyo//Testing, Analysis and Measurement
  3. 同仁グローカル Kumamoto//others
  4. 4 オーハウス コーポレーション 日本支社 Tokyo//Industrial Electrical Equipment
  5. 5 西進商事 Hyogo//Industrial Machinery
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Analysis Product ranking

Last Updated: Aggregation Period:Oct 08, 2025~Nov 04, 2025
This ranking is based on the number of page views on our site.

  1. Analysis, precision balance │ EXPLORER series *Comprehensive catalog available オーハウス コーポレーション 日本支社
  2. Seawater Nutrient Measurement Device Quattro ビーエルテック
  3. Certified single-element and mixed standard solutions for ICP-AES/ICP-MS wet analysis. 西進商事
  4. 4 [Information] Understanding Chemikan in 3 Minutes ケミカン
  5. 5 Total Nitrogen and Total Phosphorus Analysis Device Quattro ビーエルテック

Analysis Product List

406~420 item / All 655 items

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Cross-sectional processing using the ion polish method.

Cross-sectional processing using the ion polish method.

A method for removing the surface of a sample by utilizing the sputtering phenomenon, where sample atoms are ejected from the sample surface.

The IP method utilizes the sputtering phenomenon, where sample atoms are ejected from the sample surface when an ion beam with aligned energy and direction is irradiated onto the sample. It is also referred to as the CP method (Cross-section Polish). The ion species used is typically a noble gas (Ar in MST) that does not pose concerns for chemical reactions with the sample. In the AES analysis of the processed surface, the components of the shielding plate (Ni, P) were below the detection limit. ■Features - Wide-area cross-section processing is possible (approximately 500μm to 1mm) - No impact from mechanical polishing damage - Minimal surface contamination - Non-exposure to the atmosphere, cooling processing is possible

  • Contract Analysis
  • Contract measurement

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Electronic dyeing

Electronic dyeing

By bonding heavy elements to polymer chains, the contrast of structures and forms derived from the polymers can be enhanced, allowing for clearer observation under an electron microscope.

There are mainly three types of dyes, which are used according to the observation target. - Osmium tetroxide (OsO4) It selectively reacts with the unsaturated polymer material's ?CH=CH- (double bond). - Ruthenium tetroxide (RuO4) It cross-links with the amorphous parts of saturated polymer materials such as polyolefins. - Phosphotungstic acid (H3[P(W3O10)4]·xH2O, abbreviated as PTA) It reacts with polyamides and other materials containing the -CONH functional group.

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  • Contract Analysis
  • Contract measurement

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[Analysis Case] Lithium-ion Secondary Battery

[Analysis Case] Lithium-ion Secondary Battery

Accurate evaluation of the separator cross-sectional shape through sample cooling.

The separator, which is a key component material of batteries, influences the characteristics and safety of the battery due to its porosity, shape, and other factors. Currently, mainstream polymer materials such as polyethylene (PE), polypropylene (PP), or their composite materials have low softening points, with PE being around 125°C and PP around 155°C. We will introduce a case where the structure of a PP separator with a low softening point was observed, and cooling was performed during cross-section processing to suppress degradation for evaluation.

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  • Contract Analysis
  • Contract measurement

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[Analysis Case] Measurement of Partial Density of States of GaN

[Analysis Case] Measurement of Partial Density of States of GaN

Information about valence bands and gap states can be obtained by element.

Soft X-ray emission spectroscopy (SXES) using synchrotron radiation is widely used as a method to evaluate the electronic states of materials, as it allows for the direct acquisition of the partial density of states (pDOS) near the Fermi level for each element constituting the material. Furthermore, the characteristics of this method include: 1. Information from the bulk can be obtained. 2. It can be evaluated without being affected by charging effects, even for insulators. 3. The detection limit is low (<1 atomic%). These features make it particularly effective for evaluating materials containing light elements (such as B, C, N, O). In this document, we will introduce the SXES spectrum of a GaN substrate as a measurement example.

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  • Contract Analysis
  • Contract measurement

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[Analysis Case] Analysis of LIB Electrolyte Using Molecular Dynamics Simulation

[Analysis Case] Analysis of LIB Electrolyte Using Molecular Dynamics Simulation

The microstructure of solvent hydration can be obtained at the specified concentration and temperature.

The electrolyte used in lithium-ion batteries is generally composed of a solvent and an electrolyte salt, and is considered a homogeneous system on a macroscopic scale. However, from a microscopic perspective, phenomena such as solvation occur. Understanding the local structure of lithium-ion solvation and the reactions that occur when inserting into the positive and negative electrodes is important for the design of high-performance battery materials. This document presents a case study that evaluates the microscopic structure of lithium-ion solvation in the electrolyte of lithium-ion batteries using molecular dynamics simulations.

  • Contract Analysis

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[Analysis Case] Evaluation of the Composition of Secondary Battery Electrolyte

[Analysis Case] Evaluation of the Composition of Secondary Battery Electrolyte

Qualitative and quantitative analysis of various components contained in the electrolyte.

In the electrolyte of lithium-ion secondary batteries, a combination of high dielectric constant solvents and low viscosity solvents is used to improve electrical conductivity. Additionally, additives and electrolytes (supporting salts) not only facilitate the transport of Li ions but also have the function of forming a film on the electrode surface, requiring various performance characteristics. This paper presents examples of qualitative and quantitative analysis of various components such as solvents, electrolytes, and additives by evaluating the electrolyte itself using ICP-MS, volatile components during electrolyte heating using GC/MS, and the dry residue of the electrolyte using TOF-SIMS.

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  • Contract measurement

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FT-IR measurement inside the glove box

FT-IR measurement inside the glove box

[Free Gift] Enable Rapid Analysis! Technical Document on FT-IR Measurement

By installing "ALPHA II" inside the glove box, rapid analysis becomes possible. Not only does this improve the operability and efficiency of the analysis, but it also allows for on-site analysis of samples, freeing them from the risk of atmospheric exposure and enabling the acquisition of reliable and high-precision data. This document provides detailed information on the experimental conditions for FT-IR measurements conducted within the glove box using "ALPHA II." [Contents] ■ Experimental Conditions ■ Measurement Examples ■ Summary *For more details, please refer to the PDF document or feel free to contact us.

  • Analytical Equipment and Devices

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Data DL available: FIB Collection of case studies in FIB (Focused Ion Beam) processing

Data DL available: FIB Collection of case studies in FIB (Focused Ion Beam) processing

We will introduce many examples of our strengths using FIB, such as methods for detecting anomalies within plating layers, pattern drawing, and structural analysis.

Our company considers processing with FIB (Focused Ion Beam processing equipment) to be one of our strengths. In this case study collection, we will introduce examples related to FIB. We have included numerous items such as the following objectives, methods, and results: - Method for discovering abnormal areas within plating layers using FIB - Pattern drawing using FIB - Cross-section fabrication of micro-sized objects using FIB Additionally, we present measurement data, analysis cases, and features. We invite you to read it. [Contents] ■ Method for discovering abnormal areas within plating layers using FIB ■ Pattern drawing using FIB ■ Cross-section fabrication of micro-sized objects using FIB ■ Nano-level high-precision processing ■ Structural analysis through AFM surface measurement and FIB cross-section observation *For more details, please refer to the PDF document or feel free to contact us.

  • Contract Analysis
  • Other semiconductors
  • Processing Contract

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Data Download Available: DSC Analysis of Curing Characteristics of Epoxy Resin

Data Download Available: DSC Analysis of Curing Characteristics of Epoxy Resin

It is possible to estimate the curing time of epoxy resin from the DSC measurement results. We will simulate using the Kamal model.

In semiconductor packaging, it is important to understand the curing time of epoxy resin. The Kamal model is widely used as the reaction rate equation for the curing of epoxy resin. The coefficients of the Kamal model can be determined from the non-isothermal curing behavior measured by DSC (Differential Scanning Calorimetry). In this case, we will introduce "Analysis of Curing Characteristics of Epoxy Resin by Thermal Analysis using DSC." Please take a moment to read the PDF materials. In addition to DSC, our company also specializes in various thermal analyses such as TG/DTA and TMA. ● DSC: It can be used for analyzing sample melting, glass transition, thermal history, crystallization, curing, Curie point, and measuring specific heat. ● TG/DTA: It can be used for analyzing moisture content, ash content, decomposition, oxidation, and evaluating thermal resistance. ● TMA: It can be used for measuring sample expansion rate, glass transition, and softening point. Please see the following for various examples of thermal analysis: https://www.seiko-sfc.co.jp/case/index.html *Other materials are also available. If you request through the inquiry button, we will send them to you.

  • Contract Analysis
  • Contract measurement
  • Other polymer materials

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[DL Available/Thermal Analysis] DSC Measurement of Chocolate 3 (Differences in Melting Behavior)

[DL Available/Thermal Analysis] DSC Measurement of Chocolate 3 (Differences in Melting Behavior)

Scientific analysis using DSC measurements reveals that the melting behavior is different between the center and the outer edge of the chocolate bar.

Differential Scanning Calorimetry (DSC) can be used to analyze the melting, glass transition, thermal history, crystallization, curing, Curie point, and to measure specific heat of samples. By measuring the melting behavior, it is possible to assess differences in thermal history within the same sample. We are conducting analyses of chocolate, a familiar item to everyone. This case is the third installment, "DSC Measurement of Chocolate 2 (Comparison Between Products)." You can confirm the differences in melting between the center and the outer edge of the chocolate bar, so please take a moment to read the PDF materials. In addition to DSC, our company also specializes in various thermal analyses such as TG/DTA and TMA. ● TG/DTA: Can be used for analyzing moisture content, ash content, decomposition, oxidation, and evaluating heat resistance. ● TMA: Can be used for measuring expansion rate, glass transition, and softening point. We also have experience with other food products, so please feel free to consult us. ● Case Studies https://www.seiko-sfc.co.jp/case/index.html *Other materials are also available. If you request them through the inquiry button, we will send them to you.

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  • Food Testing/Analysis/Measuring Equipment
  • Organic Natural Materials

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[DL Available/Thermal Analysis] DSC Measurement of Chocolate 4 (Verification of Optimal Production Conditions)

[DL Available/Thermal Analysis] DSC Measurement of Chocolate 4 (Verification of Optimal Production Conditions)

The analysis reveals "what is important" in the chocolate tempering process (the work of aligning to the V-type crystal among the six types of cocoa butter crystals).

Differential Scanning Calorimetry (DSC) can be used to analyze the melting, glass transition, thermal history, crystallization, curing, Curie point, and to measure specific heat of samples. By measuring melting behavior, it is possible to assess differences in thermal history within the same sample. Using DSC to measure melting behavior allows for an understanding of the relationship between thermal history and crystal form, which can be applied to the examination of manufacturing conditions and quality control. In this case, we introduce an analysis of chocolate, a familiar item for everyone, using DSC. This is the fourth installment, "DSC Measurement of Chocolate 4 (Verification of Optimal Production Conditions)." It reveals important aspects of the chocolate tempering process (the work of aligning cocoa butter to the V-type crystal among the six types of crystal forms). We encourage you to read the PDF document. In addition to DSC, our company also specializes in various thermal analyses such as TG/DTA and TMA. We have experience with other food products as well, so please feel free to consult us regarding thermal analysis. *Other materials are also available. If you request them through the inquiry button, we will send them to you.

  • Contract Analysis
  • Contract measurement
  • Contract Analysis

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Data DL available: DSC measurement of silicone rubber (low temperature measurement)

Data DL available: DSC measurement of silicone rubber (low temperature measurement)

Generally, it is possible to observe transition phenomena such as melting, glass transition, crystallization, and thermosetting of materials even in difficult low-temperature regions.

Depending on the material, glass transition, cryocrystallization, and melting points may exist in the low-temperature range. Our company has the technology to measure these characteristics using DSC (Differential Scanning Calorimetry). We hope you can utilize this technology to understand material properties. In this case, we introduce an example of this technology: "DSC Measurement of Silicone Rubber (Low-Temperature Measurement)." Please refer to the PDF document for details. In addition to DSC, our company also specializes in various thermal analyses such as TG-DTA and TMA. https://www.seiko-sfc.co.jp/service/thermal.html ●DSC (Differential Scanning Calorimetry): Can be used for analysis of sample melting, glass transition, thermal history, crystallization, curing, Curie point, etc., as well as measuring specific heat. ●TG-DTA (Thermogravimetric and Differential Thermal Analysis): Can be used for analysis of sample moisture content, ash content, decomposition, oxidation, and thermal resistance evaluation. ●TMA (Thermomechanical Analysis): Can be used for measuring sample expansion rate, glass transition, softening point, etc. Please take a look at many other examples below: https://www.seiko-sfc.co.jp/case/index.html

  • Rubber
  • Contract Analysis
  • Analysis Services

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[Data DL available・DSC] Understanding the gelatinization of starch in rice, noodles, etc.

[Data DL available・DSC] Understanding the gelatinization of starch in rice, noodles, etc.

In DSC, you can understand the gelatinization and aging of starch, which are important factors in food processing. Please fully experience this technology that can also be applied to other foods.

In starch processed foods, it is very important to understand the gelatinization (α phase) and the retrogradation (β phase) phenomena. Our company has the technology to grasp these phenomena using DSC (Differential Scanning Calorimetry). In this case, we introduce an example of this technology: "Understanding the gelatinization of starch in rice and noodles." Additionally, this technology can also measure the degree of retrogradation. For more details, please refer to the PDF materials. In addition to DSC, our company also specializes in various thermal analyses such as TG-DTA and TMA. https://www.seiko-sfc.co.jp/service/thermal.html ●DSC (Differential Scanning Calorimetry): It can be used for analyzing sample melting, glass transition, thermal history, crystallization, curing, Curie point, etc., as well as measuring specific heat. ●TG-DTA (Thermogravimetric and Differential Thermal Analysis): It can be used for analyzing moisture content, ash content, decomposition, oxidation, and evaluating heat resistance. ●TMA (Thermomechanical Analysis): It can be used for measuring sample expansion rate, glass transition, softening point, etc. There are other examples available, so please take a look. https://www.seiko-sfc.co.jp/case/index.html

  • Food Testing/Analysis/Measuring Equipment
  • Contract Analysis
  • Analysis Services

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Data DL available: DMA Long-term deformation prediction (deformation of rubber)

Data DL available: DMA Long-term deformation prediction (deformation of rubber)

The results of DMA measurements can predict the long-term deformation (creep measurement) of materials. This can be utilized in evaluations that typically take a long time.

At our company, by applying the WLF rule (the time-temperature superposition principle) to the results of DMA measurements, we can estimate properties such as elasticity in frequency regions that have not actually been measured (creating master curves). Would you like to utilize this technology to understand material properties? In this case, we introduce an example of this technology: "Prediction of long-term deformation of rubber (creep test)". Please refer to the PDF document for details. In addition to DSC, our company also specializes in various thermal analyses such as TG-DTA and TMA. https://www.seiko-sfc.co.jp/service/thermal.html ●DSC (Differential Scanning Calorimetry): Used for analyzing melting, glass transition, thermal history, crystallization, curing, Curie point, etc., and for measuring specific heat. ●TG-DTA (Thermogravimetric and Differential Thermal Analysis): Used for analyzing moisture content, ash content, decomposition, oxidation, and evaluating heat resistance. ●TMA (Thermomechanical Analysis): Used for measuring expansion rate, glass transition, softening point, etc. Please see below for other examples as well. https://www.seiko-sfc.co.jp/case/index.html

  • Rubber
  • Contract Analysis
  • Contract Analysis

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【BOURNS】Industry-leading high power efficiency and low switching loss.

【BOURNS】Industry-leading high power efficiency and low switching loss.

Optimal for high voltage and high current applications. Current lead time is 24 weeks. [IGBT]

BOURNS has released an IGBT that combines a gate input with a MOS structure and a bipolar power transistor functioning as an output switch. By adopting TGFS technology, it achieves operational characteristics that reduce the collector-emitter saturation voltage V CE(sat) and minimize switching losses. For sample requests, please feel free to contact Seiwa, the authorized distributor.

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  • Transistor

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