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Electron microscope Product List

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Observation of the diffusion layer of SiC MOSFET using LV-SEM and EBIC methods.

Observation of the diffusion layer of SiC MOSFET using LV-SEM and EBIC methods.

Even with SiC power devices, we can provide consistent support for cross-section preparation of specific areas, observation of diffusion layer shapes, as well as wiring structure and crystal structure analysis!

Our company conducts observations of the diffusion layer of SiC MOSFETs using LV-SEM and EBIC methods. We can perform cross-section fabrication of specific areas using FIB, shape observation of the diffusion layer using LV-SEM/EBIC, and further through-analysis of wiring structures and crystal structures using TEM, all applicable to SiC power devices. In "LV-SEM diffusion layer observation," secondary electrons (SE2) affected by the built-in potential of the PN junction are detected using the Inlens detector. The shape of the diffusion layer can be visualized through SEM observation of the FIB cross-section. 【Analysis methods using EBIC】 ■ PEM/OBIRCH defect location identification ■ FIB cross-section processing ■ Low acceleration SEM ■ EBIC analysis ■ TEM *For more details, please refer to the PDF document or feel free to contact us.

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Observation of cracks using a tabletop SEM (Scanning Electron Microscope)

Observation of cracks using a tabletop SEM (Scanning Electron Microscope)

Fine cracks are easy to see! No conductive treatment is required, allowing for quick and detailed observation.

This is an introduction to "Crack Observation Using Desktop SEM (Scanning Electron Microscope)." In the evaluation of product reliability, cross-sectional observation of cracks is essential. Even small cracks that may be overlooked in optical microscopy can be clearly identified through SEM observation. Moreover, with a desktop SEM, there is no need for conductive treatment, allowing for quick and detailed observation. 【Features】 ■ No deposition required ■ Easy visibility of crystal grains ■ Fine cracks are easily visible *For more details, please refer to the PDF document or feel free to contact us.

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Observation of the coating film

Observation of the coating film

Introducing examples of observation and analysis of coating films used in various products, including "microtomes" that can perform planar inclined cutting!

We will introduce examples of observation and analysis of coating films used in various products such as automobiles and mobile phones. The "Triple Ion Polisher (CP)" can process samples containing both hard and soft materials without causing damage, while the "Microtome" is capable of not only producing cross-sections but also performing planar inclined cutting. Additionally, the "Desktop Oblique Cutting Machine" can extract sample surfaces that are 6 to 300 times the original thickness as surface information, and the "Desktop SEM (Scanning Electron Microscope)" has a mode for observation under low vacuum (charge reduction), allowing for the observation and elemental analysis of samples that release volatile components. [Observation of Plastic Coating (Mobile Phone Case)] - Triple Ion Polisher (CP) - Microtome - Desktop Oblique Cutting Machine - Desktop SEM (Scanning Electron Microscope) *For more details, please refer to the PDF document or feel free to contact us.

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Technical Data: Electrode Deposits (Contacts)

Technical Data: Electrode Deposits (Contacts)

Introducing a case study that investigated contact surfaces with poor conductivity through electron microscope observation!

Our company is engaged in the analysis solutions business. This document presents cases where non-contact, non-destructive observation of contact surfaces that experienced poor conductivity was conducted using an electron microscope at magnifications of 40 to 250 times, allowing for the observation of contaminants on the contact surfaces. By identifying the contaminants on the contacts through qualitative elemental analysis using fluorescence X-ray analysis and qualitative compound analysis using micro-infrared spectroscopy, we can elucidate the adhesion mechanisms of the identified contaminants to the contacts, enabling an investigation into the causes of poor conductivity. [Contents] ■ Overview ■ Features ■ Analysis Cases - Electron Microscope Observation - Fluorescence X-ray Analysis, Micro-infrared Spectroscopy *For more details, please refer to the PDF document or feel free to contact us.

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Basic Analysis Techniques for Similar but Different Objects

Basic Analysis Techniques for Similar but Different Objects

Introducing the flow from optical microscope observation, which has a wide range of applications, to SEM observation and EDX elemental analysis!

We will introduce the flow from basic and widely applicable optical microscopy observations to SEM observations and EDX elemental analysis. Observation using optical microscopy is one of the fundamental observation techniques and allows for quick examination of general shapes. Additionally, its feature is that it provides color information, making it useful for observing abnormalities associated with corrosion and other changes. In this document, we also provide detailed explanations of "SEM observations" and "EDX elemental analysis" using photos and graphs. Please take a moment to read it. 【Contents】 ■ Observation using optical microscopy ■ Observation using SEM ■ Elemental analysis using EDX *For more details, please refer to the PDF document or feel free to contact us.

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