Spectroscopic Analysis Equipment Product List and Ranking from 7 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

Spectroscopic Analysis Equipment Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

  1. ブルカージャパン オプティクス事業部 Kanagawa//others
  2. ジョイ・ワールド・パシフィック Aomori//others
  3. 協立電機 Shizuoka//Information and Communications
  4. 4 日鉄環境 分析ソリューション事業部・営業部 Tokyo//others
  5. 5 ビーエルテック Tokyo//others
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Spectroscopic Analysis Equipment Product ranking

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

  1. Display nutritional information in just 80 seconds! 'Calorie Answer CA-Hi' ジョイ・ワールド・パシフィック
  2. [Technical Data] FT-NIR Online Monitoring of the Fermentation Process ブルカージャパン オプティクス事業部
  3. ICP emission spectrometry device 'Agilent 5800 ICP-OES' 協立電機
  4. Technical Data: Evaluation of Powdered Beverages Using Macro ATR Imaging ブルカージャパン オプティクス事業部
  5. 4 Technical Data: High Spatial Resolution ATR Mapping Measurement (LUMOS II) ブルカージャパン オプティクス事業部

Spectroscopic Analysis Equipment Product List

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Analysis of foreign substances and component analysis: Comparison of micro-Raman and FTIR.

Analysis of foreign substances and component analysis: Comparison of micro-Raman and FTIR.

Spectroscopic analysis is suitable for component analysis of foreign substances and qualitative analysis.

We will introduce a comparison between Raman spectroscopy analysis by Aites Co., Ltd. and FTIR. Spectroscopic analysis is suitable for component analysis of foreign substances and qualitative analysis. Both Raman and FT-IR can obtain spectra based on the structure of the analysis target. However, since each has its strengths and weaknesses, it is necessary to use both according to the analysis target. 【Features】 ■ Measurement in the order of a few micrometers, which is difficult with IR analysis, is possible. ■ No sampling is required. *For more details, please refer to the PDF document or feel free to contact us.

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Technical Data: Polymer Manufacturing Process Monitoring Using FT-NIR

Technical Data: Polymer Manufacturing Process Monitoring Using FT-NIR

Including monitoring examples and equipment configurations! Free materials are currently being offered!

This document contains technical information on process monitoring of polymer manufacturing using "FT-NIR." It introduces real-time monitoring of density (red) and MFI (blue), as well as the equipment configuration. [Contents] - Examples of monitoring using FT-NIR - Real-time monitoring of density (red) and MFI (blue) - Equipment configuration - Applications of polymers *For more details, please refer to the PDF document or feel free to contact us.

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What are the reasons for using FT-NIR?

What are the reasons for using FT-NIR?

Explaining the advantages of FT-NIR technology! Free materials available!

This document presents technical information about FT-NIR technology, which has many advantages compared to traditional wet chemical analysis and chromatography. It introduces the superiority of NIR spectroscopy, examples of monitoring, and applications. [Contents] - Superiority of NIR spectroscopy - Applications - Raw material verification tests - Quantitative analysis of multiple items - Inline process control - Summary: Low-cost, rapid, and simple analysis, etc. *For more details, please refer to the PDF document or feel free to contact us.

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Technical Data: Case Studies on Microplastic Analysis

Technical Data: Case Studies on Microplastic Analysis

Case studies using micro FT-IR and micro Raman analysis are published! Free materials are being offered!

Interest in microplastic pollution has been increasing in recent years, with current research focusing on ubiquitous sources and future prospects. Microplastic particles (Micro-Plastics Particles; MPP) refer to tiny plastic particles with a diameter of less than 5mm that have dispersed into the environment, particularly in marine settings. By analyzing MPP in detail, efforts are being made to draw conclusions about both the origins and formation of MPP, as well as to assess the extent of pollution. This document introduces the analysis of microplastics using microscopic FT-IR and microscopic Raman, along with case studies and measurement examples. [Contents] ■ Analysis of microplastics using FT-IR spectroscopy ■ Case study: Automatic analysis of filter-fractionated MPP ■ Case study: False detection of MPP ■ Measurement case: Identification of viscose rayon and cellulose ■ Analysis of MPP using Raman spectroscopy ■ Summary *For more details, please refer to the PDF document or feel free to contact us.

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Technical Data: Evaluation of Powdered Beverages Using Macro ATR Imaging

Technical Data: Evaluation of Powdered Beverages Using Macro ATR Imaging

Introducing new applications for macro ATR imaging devices!

This document introduces applications of the new accessory "Macro ATR Imaging Device" for FT-IR microscopy in QA/QC for beverage manufacturing. FT-IR imaging measurements can qualitatively identify the main components contained in products and visually capture the distribution of each component. Here, we present the imaging measurement method for powdered beverages and the analysis results of the composition distribution. Please take a look. [Contents] ■ Utilization of FT-IR microscopy for analyzing instant beverages ■ Introduction of the Macro ATR Imaging Device ■ Composition analysis of instant cocoa *For more details, please refer to the PDF document or feel free to contact us.

  • Other analytical equipment

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Technical Data: High Spatial Resolution ATR Mapping Measurement (LUMOS II)

Technical Data: High Spatial Resolution ATR Mapping Measurement (LUMOS II)

[JASIS2021 Exhibition] LUMOS II - Approaching the diffraction limit of light! High spatial resolution ATR mapping measurement

The analysis of laminated materials composed of multiple layers with micrometer-scale thickness is one of the important analytical themes, and its influence is showing significant expansion. In this theme, micro-infrared spectroscopy and micro-Raman spectroscopy, which have a complementary relationship, are the most effective analytical methods. The analysis of laminated materials is applied not only in this field but also in a wide range of areas such as biomedicine, pharmaceuticals, and materials science. This document provides a clear explanation of:  ▶ The importance of spatial resolution when applying microspectroscopy to the analysis of laminated materials  ▶ Reports on ATR mapping measurements using the latest micro FT-IR systems *For more details, please refer to the PDF document or feel free to contact us. ◆Exhibition at JASIS2021◆ For information about the exhibition, please check the basic information below.

  • Analysis and prediction system

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[Technical Data] FT-NIR Online Monitoring of the Fermentation Process

[Technical Data] FT-NIR Online Monitoring of the Fermentation Process

Monitoring of fermentation/cultivation processes using FT-NIR (near-infrared) spectroscopy is possible.

In the pharmaceutical industry, the strict regulatory requirements have made continuous control of fermentation processes a crucial element of manufacturing processes. Bruker has been working for many years on the measurement of challenging fermentation processes. With the transmission-reflection probe developed by Bruker, it is possible to measure slurries and emulsions, enabling the monitoring of fermentation/culture processes using FT-NIR (near-infrared) spectroscopy. We can provide various flanges specified by our customers through welding. High-temperature types are also available.

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Technical Data: Analysis of Various Polymer Materials by Infrared Spectroscopy

Technical Data: Analysis of Various Polymer Materials by Infrared Spectroscopy

Qualitative analysis of a wide range of polymer materials and their additives is of course applicable to quantitative analysis as well!

Fourier Transform Infrared Spectroscopy (FT-IR) is a very rapid and reliable analytical method. It allows for the verification of product quality in less than one minute, and it is also possible to determine whether the product is within specification limits. This document includes topics such as "Qualitative Analysis of Polymers Using the FT-IR Spectrometer ALPHA II" and "Analysis of Defective Products Using the FT-IR Microscope LUMOS II." Please take a moment to read it. 【Contents (Partial)】 ■ Introduction ■ Qualitative Analysis of Polymers Using the FT-IR Spectrometer ALPHA II ■ Application Example: Identification of Polymers ■ Application Example: Identification and Quantification of Fillers ■ Analysis of Defective Products Using the FT-IR Microscope LUMOS II *For more details, please refer to the PDF document or feel free to contact us.

  • Measurement and Analysis Equipment

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ICP emission spectrometry device 'Agilent 5800 ICP-OES'

ICP emission spectrometry device 'Agilent 5800 ICP-OES'

Dedicated CCD detector for ICP-OES! Supports data analysis with statistical and testing functions for measurement values.

The "Agilent 5800 ICP-OES" is an ICP optical emission spectrometer that achieves high matrix tolerance through its vertical torch and unique high-frequency technology. Equipped with a CCD detector specifically for ICP-OES, it reduces total running costs through rapid measurements. It automatically calculates the detection limit from the calibration curve. Additionally, it continuously monitors the nebulizer gas pressure and notifies when maintenance is required. 【Features】 ■ High matrix tolerance achieved through vertical torch and unique high-frequency technology ■ High-speed scanning across all wavelengths (Intelli Quant 2.0) - Measurements for all samples - Displays spectral interference information from other elements for each sample ■ Automatic calculation of detection limits from the calibration curve (QC function) *For more details, please refer to the PDF document or feel free to contact us.

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Display nutritional information in just 80 seconds! 'Calorie Answer CA-Hi'

Display nutritional information in just 80 seconds! 'Calorie Answer CA-Hi'

Simply connect the main unit to the USB port and install the dedicated software to set up the measurement system! Improve development speed and reduce costs.

The "Calorie Answer CA-Hi" utilizes near-infrared spectroscopy to measure not only the calories of liquid samples through transmission but also the nutritional components such as protein, fat, carbohydrates, and moisture in powdered and solid samples through reflection. With advancements in sensing technology, it is possible to significantly reduce the number of reference cell measurements and shorten measurement time, provided there are no changes in environmental temperature or measurement methods. The simple design allows for easy operation of the main unit and monitoring of progress. 【Features】 - When there are no changes in environmental temperature or measurement methods, it is possible to reduce the number of reference cell measurements and significantly shorten measurement time. - Measurement data history is retained, allowing for data comparison by item through a data sorting function. - A measurement mode that groups various foods can be easily searched via a pop-up display. - Measurement results per 100g are automatically converted when the weight is changed to any desired amount. *For more details, please download the PDF or feel free to contact us.

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Case Studies in Chemistry and Materials Analysis

Case Studies in Chemistry and Materials Analysis

Including challenges in material analysis, we present examples of chemistry and material analysis! Featuring case studies on IR imaging system analysis!

This document is a business guide for the analytical solutions business developed by Nippon Steel Environmental Corporation. It focuses on the distinctive chemical structures of chemical substances and includes case studies of IR imaging systems that visualize the distribution of these substances through imaging. 【Contents】 ■ Imaging measurements using infrared spectroscopy ■ 3D laser microscope observation ■ Analysis of foreign substances in food ■ Material investigation of packaging materials ■ Microscopic foreign substances on electronic components ■ Analysis of surface protrusions on wallpaper ■ Analysis of ultra-trace substances ■ Analysis of nitrogen compounds released from coal liquefaction hydrogenated refined oil ■ Qualitative analysis of oil in seabed sediments ■ Organic elemental analysis (GC method) and trace total nitrogen analysis (chemiluminescence method), etc. *For more details, please request the document or view the PDF data from the download.

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ICP emission spectrometry

ICP emission spectrometry

You can determine the type of element from the wavelength (qualitative) and the concentration from the emission intensity (quantitative)!

ICP stands for Inductively Coupled Plasma and is a method for the qualitative and quantitative analysis of inorganic elements in samples. By introducing the analytical sample solution into argon plasma, it is possible to obtain the characteristic emission spectrum of each element. From the wavelength, the type of element can be determined (qualitative), and from the emission intensity, the concentration can be measured (quantitative). Additionally, the quantification limit may vary depending on the target elements, sample preparation, and the influence of coexisting elements, so please contact us for more information. 【Features】 ■ Simultaneous multi-element analysis is possible ■ Introduction to the device requires acidic aqueous solutions, so solid samples need to be converted to solutions through pretreatment ■ Measurement conditions can be optimized according to the amount of coexisting matrix ■ Arsenic (As), selenium (Se), and antimony (Sb) can be quantified in the ppb range using the hydride generation method *For more details, please download the PDF or feel free to contact us.

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Technical Data: Establishment of a Component Analysis Method for Green Coffee Beans

Technical Data: Establishment of a Component Analysis Method for Green Coffee Beans

Using the NIR coffee bean checker! Establishment of an automatic measurement method for component analysis of green coffee beans.

This document introduces the establishment of an automatic measurement method for component analysis of green coffee beans using a NIR coffee bean checker. Near-infrared spectroscopy is a component measurement method that does not use reagents or consumables. We have established a method to quickly and easily measure the components of green coffee beans, including "moisture," "caffeine," "potassium," "ash," "chlorogenic acid," "protein," and "trigonelline." 【Contents】 ■ Overview ■ What is Near-Infrared Analysis? ■ Keywords ■ Equipment Used ■ Examination Method *For more details, please refer to the PDF document or feel free to contact us.

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  • Non-destructive testing
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Analysis of Polymer Structural Changes

Analysis of Polymer Structural Changes

Evaluate higher-order structures using analytical methods! Raman analysis is also effective for analyzing polymer structures.

I would like to introduce the topic of "Analysis of Polymer Structural Changes." This document includes "Evaluation of Polymer Higher-Order Structures by Raman Spectroscopy" and "Structural Changes of Polymer Chains." The molecular structure of polymers influences their properties, affecting the physical characteristics of polymer products. We have evaluated the higher-order structures formed by the aggregation of polymer chains using analytical methods. Please take a moment to read it. [Contents] ■ Evaluation of Polymer Higher-Order Structures by Raman Spectroscopy ■ Structural Changes of Polymer Chains *For more details, please refer to the PDF document or feel free to contact us.

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