Industrial
Industrial
Mergulhe fundo em artigos detalhados e webinars com foco em inspeção eficiente, fluxos de trabalho otimizados e conforto ergonômico em contextos industriais e patológicos. Os tópicos abordados incluem controle de qualidade, análise de materiais, microscopia em patologia, entre muitos outros. Este é o lugar onde você obtém insights valiosos sobre o uso de tecnologias de ponta para melhorar a precisão e a eficiência dos processos de fabricação, bem como o diagnóstico e a pesquisa patológicos precisos.
Eliminating Electrostatic Interference in Laser Microdissection
Electrostatic charge in laser microdissection (LMD) causes two critical failures: samples stick to charged surfaces and are lost, or samples fly into adjacent wells and cause cross-contamination. We…
History, Developments and Trends of Microscopy in Cancer Research
Cancer is a global disease, with 18 million new cases diagnosed and 10 million cancer-related deaths worldwide in 2020. This burden is set to increase, with a projected increase in cases of ~55% by…
Researchers Insights: Microscopy in Cancer Research
Discover how imaging techniques are driving cancer research forward. In this issue, we present comprehensive multimodal studies using microscopy, as well as new directions in intraoperative cancer…
Microscope Calibration for Measurements: Why and How You Should Do It
Microscope calibration ensures accurate and consistent measurements for inspection, quality control (QC), failure analysis, and research and development (R&D). Calibration steps are described in this…
Safe Wafer Loading for Microscope Inspection without Hand Contact
How automated silicon wafer loading for microscope inspection helps improve microelectronics process control and production efficiency is explained in this article. Manual handling of wafers has a…
A Novel Laser-Based Method for Studying Optic Nerve Regeneration
Optic nerve regeneration is a major challenge in neurobiology due to the limited self-repair capacity of the mammalian central nervous system (CNS) and the inconsistency of traditional injury models.…
Capturing Developmental Dynamics in 3D
This application note showcases how the Viventis Deep dual-view light sheet microscope was successfully used by researchers for exploring high-resolution, long-term imaging of 3D multicellular models…
The “Waffle Method”: High-Pressure Freeze Complex Samples
This article describes the advantages of a special high pressure freezing method, the so-called “Waffle Method”. Learn how the “Waffle Method” uses EM grids as spacers for high-pressure freezing,…
How Fluorescence Guides Sectioning of Resin-embedded EM Samples
Electron microscopes, including transmission electron microscopes (TEM) and scanning electron microscopes (SEM), are widely utilized to gain detailed structural information about biological samples or…
