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Analysis Product List and Ranking from 181 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

346~360 item / All 654 items

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NMR analysis of liquid crystal compounds

NMR analysis of liquid crystal compounds

Introducing the information obtained from NMR, using 1H NMR, 13C NMR, and DEPT measurements as examples!

At Aites Co., Ltd., we conduct "NMR analysis of liquid crystal compounds." NMR is an analytical method that reveals the connections between atoms that make up a molecule, and it is used alongside mass spectrometry and infrared spectroscopy for determining the structure of compounds. In the downloadable materials, we introduce information obtained from NMR using 4-butoxy-4'-cyanobiphenyl (CAS number 52709-87-2) as an example, including 1H NMR, 13C NMR, and DEPT measurements. Please feel free to download and take a look. [Measurement Examples] ■ 1H NMR measurement ■ 13C NMR measurement and DEPT measurement ■ Other NMR measurement techniques *For more details, please download the PDF or feel free to contact us.

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[SSRM] Scanning Spreading Resistance Microscopy

[SSRM] Scanning Spreading Resistance Microscopy

Local resistance measurement at the nanometer level is possible.

SSRM is a method that visualizes the spreading resistance directly beneath the probe by scanning the surface of a sample with applied bias using a conductive probe and measuring the distribution of resistance values in two dimensions. When measuring silicon semiconductor devices, it is sensitive to carrier concentrations of 10^16 cm^-3 or higher, depending on spatial resolution. - Local resistance measurement at the nanometer level is possible - Effective for measuring the dopant concentration distribution in semiconductors - Cannot determine the polarity of semiconductors (p-type/n-type) - Quantitative evaluation is not possible

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[FIB] Focused Ion Beam Processing

[FIB] Focused Ion Beam Processing

FIB refers to a focused ion beam with a diameter ranging from a few nanometers to several hundred nanometers, which can be used to scan the sample surface to etch or deposit material in specific areas.

FIB refers to a focused ion beam with diameters ranging from several nanometers to several hundred nanometers, which can be used to etch specific areas (sputtering) or deposit materials such as carbon (C), tungsten (W), and platinum (Pt) onto specific regions by scanning the sample surface. Additionally, the shape of the processed sample can be recognized through SIM images, which detect secondary electrons generated by irradiating the sample with the ion beam. - Arbitrary shape processing through etching in micro-regions (several nanometers to several tens of micrometers) is possible (typical processing size: around 20 μm) - Sample preparation for SEM, SEM-STEM, and TEM imaging (cross-sections of specific areas can be produced) - Fine pattern deposition and thin film formation (C, W, Pt deposition) are possible in the range of several micrometers to several tens of micrometers - High-resolution SIM (Scanning Ion Microscope) imaging is possible (acceleration voltage 30 kV: 4 nm) - Observation of metal crystal grains (Al, Cu, etc.) is possible with SIM images.

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[Analysis Case] Evaluation of Main Components of Lithium-ion Secondary Battery Electrolyte

[Analysis Case] Evaluation of Main Components of Lithium-ion Secondary Battery Electrolyte

We will dismantle and analyze regardless of the experimental cell.

This is an example of evaluating the organic solvent components of an electrolyte using GC/MS analysis. The measurement of the electrolyte in lithium-ion secondary batteries revealed that the main components of the organic solvents are ethylene carbonate (EC) and propylene carbonate (PC). Other components detected included diethyl carbonate (DEC) and sulfur compounds, with the latter possibly originating from additives.

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[Analysis Case] Evaluation of the Distribution of Hair Care Ingredients in Hair 1

[Analysis Case] Evaluation of the Distribution of Hair Care Ingredients in Hair 1

Visualizing the penetration state of each component into the hair.

We investigated the penetration state of components under various immersion conditions by soaking unconditioned hair, specifically facial hair, in a conditioner or treatment. In the facial hair soaked in conditioner, it was observed that siloxanes penetrated to the hair cortex over time, while high fatty acids appeared to be lost. In the facial hair soaked in treatment, nitrogen-containing organic substances did not penetrate the hair cortex and were only distributed around the cuticle.

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[Analysis Case] Evaluation of Layer Structure of Organic EL Devices

[Analysis Case] Evaluation of Layer Structure of Organic EL Devices

By performing preprocessing under controlled atmosphere conditions, it is possible to analyze while preventing oxidative degradation.

This shows the results of extracting the qualitative spectra of each layer by performing cutting processing of organic EL devices under controlled atmosphere. By conducting the cutting process of the organic EL devices under atmosphere control, we were able to obtain spectra of each layer that are closer to the true state.

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[Analysis Case] Depth Profile Analysis of Impurities in Organic EL Devices Using SIMS

[Analysis Case] Depth Profile Analysis of Impurities in Organic EL Devices Using SIMS

Evaluate organic EL elements with good depth direction resolution.

To extend the lifespan of organic EL devices, it is essential to evaluate the degradation caused by electromigration, making it important to investigate the diffusion state of electrode metal components into the organic layer. However, whether analyzed directly from the cathode side or through the SSDP method from the anode side, the depth resolution decreases, making it difficult to assess the diffusion from the interface into the organic layer. (Note: SSDP method refers to analysis from the backside. For details on the analytical method, see section B0013.) Therefore, by using special processing to expose the cathode/organic layer interface and the organic layer/anode interface, it has become possible to evaluate the organic layer with high depth resolution.

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[Analysis Case] Comprehensive Evaluation of Lithium-Ion Secondary Battery Materials

[Analysis Case] Comprehensive Evaluation of Lithium-Ion Secondary Battery Materials

We will conduct an evaluation that combines various methods to solve the problem.

Lithium-ion secondary batteries have excellent characteristics among secondary batteries and are widely used as power sources for various portable devices. However, there are still various challenges remaining, such as increasing output, capacity, longevity, and reliability. Comprehensive evaluation of battery materials is possible using various analytical methods.

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[Analysis Case] High-Sensitivity Analysis of Light Elements in Semiconductor Substrates Using SIMS

[Analysis Case] High-Sensitivity Analysis of Light Elements in Semiconductor Substrates Using SIMS

SIMS analysis allows for the evaluation of elements such as H, C, N, O, and F down to levels below 1 ppm.

It is possible to detect H, C, N, and O in semiconductor substrates at concentrations below 1 ppm (approximately 5E16 atoms/cm3) and F at concentrations below 1 ppb (approximately 5E13 atoms/cm3) using this method. Examples of measurements in actual FZ-Si (Figure 1) and the background levels of III-V semiconductors are presented (Table 2). In addition to III-V semiconductors, standard samples have been prepared for various materials such as metal films and insulating films, enabling highly sensitive quantitative analysis. This method is ideal for bulk analysis of various materials, including semiconductor substrates, and for evaluating the contamination of gas components during semiconductor processes.

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[Analysis Case] Discrimination between Anatase and Rutile Types of Titanium Dioxide

[Analysis Case] Discrimination between Anatase and Rutile Types of Titanium Dioxide

TEM-EELS enables elemental identification and chemical state analysis in micro-regions.

Titanium dioxide (TiO2), used in electronic materials, catalytic materials, ultraviolet absorbers, and photocatalysts, exists in two forms with the same composition but different crystal structures: anatase and rutile. We conducted measurements on a polycrystalline TiO2 sample with a thickness of 20 nm, deposited on a Si substrate (Photo 1), using an electron beam probe focused down to approximately 1 nmΦ (FWHM). The EELS spectra obtained from the sample match the standard spectra of anatase TiO2 for both Ti and O (Figures 1 and 2).

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[Analysis Case] Evaluation of Composition and Impurity Distribution of ZnO Films by SIMS

[Analysis Case] Evaluation of Composition and Impurity Distribution of ZnO Films by SIMS

Visualization of in-plane distribution through imaging SIMS analysis.

The uniformity of the film composition and the distribution of impurities, which are one of the elements in device creation, were evaluated using imaging SIMS analysis. Through data processing after measurement, we can obtain planar images (Figure 1), cross-sectional images (Figure 2), depth distribution profiles at arbitrary locations (Figures 3 and 4), and line profiles. From the distribution of constituent materials and impurities, we can gain information that leads to process and film quality improvements.

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Pre-treatment and measurement under high purity atmosphere.

Pre-treatment and measurement under high purity atmosphere.

XPS: X-ray photoelectron spectroscopy, etc.

By conducting sample pretreatment, transportation, and measurement under a high-purity inert gas atmosphere, it is possible to evaluate while suppressing surface oxidation and moisture adsorption. ■Examples of Application - Semiconductor electrode materials Evaluation of peeling surfaces can be conducted while minimizing the effects of secondary contamination and oxidation. - Organic EL materials Working in an inert gas atmosphere from the moment of opening prevents material degradation. - Battery materials such as Li If processing in a N2 atmosphere is not possible for materials like Li, treatment can be performed in an Ar atmosphere as an alternative.

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Distortion evaluation using SEM equipment

Distortion evaluation using SEM equipment

EBSD: Electron Backscatter Diffraction

Measurements can be performed in bulk state without the need for thinning processes like TEM (NBD: Nano Beam Diffraction). It has the high spatial resolution characteristic of SEM and relatively high strain sensitivity. Additionally, there is a possibility of detecting local lattice strain as tensor data.

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