Last Updated: Aggregation Period:Apr 15, 2026~May 12, 2026
This ranking is based on the number of page views on our site.
Last Updated: Aggregation Period:Apr 15, 2026~May 12, 2026
This ranking is based on the number of page views on our site.
Last Updated: Aggregation Period:Apr 15, 2026~May 12, 2026
This ranking is based on the number of page views on our site.
211~227 item / All 227 items
Bringing domestic trust to the field of science.
Compact, robust, and domestically supported. Bringing Raman closer from the laboratory to the field. A compact Raman that excels from the lab to the field. Covers 421 to 1709 cm⁻¹, suitable for a wide range of applications including crystals, liquids, and raw materials. High reliability with Japanese manufacturing and comprehensive after-sales support.
![[Products and Solutions] Magnetic Resonance](https://image.mono.ipros.com/public/product/image/2103417/IPROS132604625527547793.jpeg?w=280&h=280)
A non-invasive and non-destructive research tool that provides detailed information about molecules and body fluids!
Magnetic resonance is a physical effect used in electron paramagnetic resonance (EPR) spectroscopy and nuclear magnetic resonance (NMR) to study materials at the atomic level and obtain detailed information about molecular structures. Magnetic resonance spectroscopy is applied in chemistry, biology, and materials science, serving both research and industrial purposes. For example, it plays a crucial role in elucidating molecular structures and dynamic behaviors in structural chemistry, which is extremely important in drug development and materials science. Furthermore, magnetic resonance imaging (MRI) and time-domain nuclear magnetic resonance (TD NMR) are also applications of magnetic resonance. MRI provides detailed images of internal organs and tissues non-invasively, aiding in the early detection and management of diseases. TD NMR offers insights into molecular structures, dynamics, and interactions, and is utilized in quality control and structural analysis in fields such as pharmaceuticals, polymers, the food industry, and environmental science. *For more detailed information, please refer to the related links. Feel free to contact us for further inquiries.*
You can obtain information about the chemical composition, bonding state, and valence of the outermost surface!
We would like to introduce the application of XPS analysis to tablets. X-ray photoelectron spectroscopy (XPS) is an analytical method that observes electrons emitted when X-rays are irradiated onto a sample, allowing us to extract information about the electrons present within the sample. This technique provides information on the chemical composition, bonding states, and valence of the surface. Please feel free to contact us if you have any inquiries. 【Features】 ■ Composition analysis of the topmost surface at a few nm (Li~) is possible ■ Sensitivity is approximately 0.1 atomic% ■ Electronic state analysis (chemical bonding, valence, gap, etc.) is possible ■ Measurement of insulators and organic materials is possible (non-destructive analysis) ■ Measurement area ranges from several tens to several hundred μm in diameter *For more details, please download the PDF or feel free to contact us.
In the investigation of the discoloration of metal components, qualitative analysis of the surface condition and evaluation using XPS of the thickness and depth distribution of the surface oxide film are very effective!
We would like to introduce the XPS analysis of the discolored copper material surface. The causes of copper discoloration can be due to the formation of corrosion products, as well as differences in the thickness of the surface oxide film (resulting in color changes due to light interference phenomena). Therefore, in addition to qualitative analysis of the very surface using X-ray photoelectron spectroscopy (XPS), conducting depth profile analysis is also effective. In the attached PDF document, we present a case study where qualitative surface analysis and depth profile analysis of the copper material were conducted, comparing the discolored areas with the normal areas. Please take a look. [Evaluation of Copper Surface Discoloration] ■ Conducting depth profile analysis in addition to qualitative analysis of the very surface using X-ray photoelectron spectroscopy (XPS) is effective. *For more details, please download the PDF or feel free to contact us.
A clear explanation of the actual analysis of microscopic foreign substances in polymer materials using real samples!
【Lecturer】 Dr. Toshikatsu Nishioka, Part-time Lecturer at Gunma University Graduate School (Ph.D. in Engineering, University of Tokyo) 【Venue】 Educational and Cultural Center, Room 1 【Kawasaki Station, Kanagawa】 【Date and Time】 December 15, 2010 (Wednesday) 10:30 AM - 4:00 PM
★From micro-part and foreign object analysis to structural analysis ★Many actual analysis cases are prepared! Individual consultations are also available.
Lecturer: Dr. Toshikatsu Nishioka, Part-time Lecturer at Gunma University Graduate School, PhD in Engineering (University of Tokyo) Biography: Fellow of the Polymer Society, Part-time at the National Institute of Technology and Evaluation (NITE), Executive Committee Member of the Polymer Surface Research Committee of the Polymer Society, Formerly at Idemitsu Kosan, Former Visiting Professor at the Gunma University Industry-Academia Collaboration Innovation Center Target Audience: Departments related to conductive carbon black Venue: Kawasaki City Industrial Promotion Hall, Conference Room 1 [Kanagawa, Kawasaki Station] Approximately a 6-minute walk from JR and Keikyu Kawasaki Station Date and Time: February 24, 2011 (Thursday) 10:30 AM - 4:30 PM
It is a high-performance near-infrared spectrometer.
Manufacturer: OtO Photonics (Taiwan) This is a near-infrared model equipped with an InGaAs sensor. It has a wavelength range of 900 - 1700 nm and 2500 nm, developed for applications in food, pharmaceuticals, and biotechnology.
Generative AI for the manufacturing industry - CayzenAI (Environmental Safety/Data Analysis)
This is a generative AI solution specialized for the manufacturing industry. The generative AI analyzes numerical data from the field and can deliver the analysis results through regular reports. It supports risk assessment (related to environmental and occupational health and safety regulations) and assists in decision-making regarding the introduction of equipment and the use of chemical substances in the field. By learning from field reports and maintenance records, it enables knowledge sharing, allowing employees to ask questions about internal information via chat, just like veteran staff.
![[Research Material] World Market for Small Spectrometers](https://image.mono.ipros.com/public/product/image/c88/2001471446/IPROS90941905406538580701.jpeg?w=280&h=280)
World Market for Small Spectrometers: Chip Type, Modular Type, Agriculture, Smart Buildings, Medical, Automotive, Home Appliances, Others
This research report (Global Mini-spectrometers Market) investigates and analyzes the current status and outlook for the global mini-spectrometers market over the next five years. It includes information on the overview of the global mini-spectrometers market, trends of major companies (sales, selling prices, market share), market size by segment, market size by major regions, and distribution channel analysis. The segments by type in the mini-spectrometers market focus on chip type and modular type, while the segments by application cover agriculture, smart buildings, healthcare, automotive, home appliances, and others. The regional segments calculate the market size of mini-spectrometers by dividing them into North America, the United States, Europe, Asia-Pacific, Japan, China, India, South Korea, Southeast Asia, South America, the Middle East, and Africa. It also includes the market share of major companies in mini-spectrometers, product and business overviews, and sales performance.
If renting, it can be shipped on the same day at the earliest. The reflective spectroscopic film thickness gauge is recommended for measuring the thickness of films that transmit light, such as SiO2 films, ITO films, and AR films, as well as for analyzing transmittance.
The reflective spectroscopic film thickness gauge, also known as an optical film thickness measurement device, is a method that utilizes interference from reflections on the surface and the back of a transparent thin film to measure thickness non-contactly. At Asumi Giken, instead of introducing expensive equipment, we propose usage that fits your needs and allow customers to select devices without the risk of failure by offering rental options for the reflective spectroscopic film thickness gauge. Even without a substantial budget, you can use it immediately at a controlled cost, and temporary use for short-term research or equipment failure is also possible. The dedicated software is pre-installed, and you can use it right away with just a USB cable connection. If you have any questions about how to use it, our operators will assist you over the phone. 【Benefits of Renting】 ■ Available for trial use ■ You can thoroughly evaluate usability and functionality before purchasing ■ Unlike buying, the internal approval process is relatively easy ■ No need for payment of fixed asset tax or administrative processing for depreciation ■ No hassle of calibration, management of accompanying PC software, updates, or OS management *For more details, please refer to the PDF document or feel free to contact us.
![[Research Material] Global Market for Molecular Spectroscopy Instruments](https://image.mono.ipros.com/public/product/image/794/2001470671/IPROS16380660537426621950.jpeg?w=280&h=280)
World Market for Molecular Spectroscopy Devices: NMR, UV-Visible, IR, NIR, Medicine, Food, Biology, Others
This research report (Global Molecular Spectroscopy Equipment Market) investigates and analyzes the current status and outlook for the global molecular spectroscopy equipment market over the next five years. It includes information on the global molecular spectroscopy equipment market overview, trends of major companies (sales, selling prices, market share), market size by segment, market size by major regions, and distribution channel analysis. The segments by type in the molecular spectroscopy equipment market focus on NMR, UV-Visible, IR, and NIR, while the segments by application target medicine, food, biology, and others. The regional segments are divided into North America, the United States, Europe, Asia-Pacific, Japan, China, India, South Korea, Southeast Asia, South America, the Middle East, and Africa, to calculate the market size of molecular spectroscopy equipment. The report also includes the market share of major companies in the molecular spectroscopy equipment sector, product and business overviews, and sales performance.
![[Market Report] The Global Market for Nuclear Magnetic Resonance Spectroscopy](https://image.mono.ipros.com/public/product/image/afe/2000958974/IPROS30616759116475772272.jpeg?w=280&h=280)
The global market for nuclear magnetic resonance spectroscopy is expected to enhance scientific discoveries and achieve steady growth.
The global nuclear magnetic resonance (NMR) spectroscopy market achieved a revenue of $691.7 million in 2022 and is poised to redefine scientific discovery. Against a backdrop of unwavering growth trajectory, industry experts predict that this market will reach an estimated revenue of $1.916 billion by 2031. This surge forecast highlights a stable compound annual growth rate (CAGR) of 5.2% during the forecast period from 2023 to 2031. Nuclear magnetic resonance spectroscopy is a cornerstone of modern scientific research, enabling scientists to explore molecular structures and interactions with unparalleled precision. From drug discovery to materials science, NMR plays a critically important role in advancing diverse fields, driving technological innovation, and deepening our understanding of the natural world. For application methods, please check the [PDF download] button or apply directly through the related links.
