Microscopy is a cutting-edge technological advancement that is key to unlocking the hidden universe that lies beyond the limits of the naked eye.
Microscopes use light or other techniques to magnify minuscule objects, allowing scientists, doctors, and researchers to explore and understand their structure and properties.
From uncovering the mysteries of cells to inspecting tiny components in various fields, microscopy is an essential tool for discovering the hidden world that surrounds us.
How Microscopy works
All microscope systems, including the most common and well-known optical microscopes, bring objects into sharper focus. Whether it’s passing light through or reflecting it off a sample or specimen, microscopes grant us the ability to delve deeper into the intricate details of products.
Through this process, we can reveal hidden dimensions, enabling a comprehensive understanding of even the tiniest structures that remain unseen by the naked eye and reach precise measurements when required.
Microscopy allows the user to inspect and identify areas of interest, unravel causes of wear and tear, and learn more about the specimen. The captured data allows you to analyse faults or problems within the structure and obtain a detailed view of surfaces, structures, and even cellular levels.
The information captured through microscopy can be saved and reconstructed in a reportable format and can highlight issues paving the way for new discoveries.
From the microscopic world within larger objects to the molecular building blocks of matter, scientists and engineers harness this technology to develop new products and improve disease treatment, such as using microscopic images to identify cell growth and tumour progression.
It can also play a pivotal role in forensic investigations, helping to apprehend criminals, and enhances the safety of structures like bridges through thorough examination.
The benefits of microscopy
The applications of microscopy are wide-ranging, offering an array of benefits across various sectors:
- Highlighting the existence of cells – In fields such as biology and medical science, microscopy unveils the hidden world of cells, facilitating vital research.
- Inspection services – Microscopy aids in meticulous inspections, ensuring quality control and assurance.
- Routine and failure analysis – It provides insights into the causes of failure, aiding in improvements.
- Component measurements – Precise measurements are essential in various industries, including automotive and engineering.
- Comparison measurements – Microscopy allows for detailed comparisons, aiding in quality assessments.
- Chemical and structural information – It provides critical data for research in chemistry and materials science.
- Surface topography – Understanding surface characteristics is crucial in fields like geoscience and heritage preservation.
Sectors that microscopy can be used in
Microscopy can be used in across many sectors, including:
- Additive Manufacturing (3D printed parts) – Ensuring the quality of intricate components.
- Automotive – Analysing materials and components for safety and performance.
- Biology – Exploring the microscopic world of cells and organisms.
- Chemistry – Studying chemical compositions and reactions.
- Electronics/Semiconductor Inspection – Ensuring the precision of microchips and semiconductors.
- Engineering – Supporting research and development efforts.
- Forensic Diagnostics – Aiding investigations through detailed analysis.
- Geoscientists – Examining geological samples.
- Heritage – Preserving cultural artefacts through careful inspection.
- Jewellers – Assessing the quality and authenticity of gemstones.
- Medical Science – Advancing healthcare through cellular research.
- Materials Science – Unveiling the secrets of materials and their properties.
- Soil and Rock Sampling – Studying geological formations and soil compositions.
- Nanowires for Gas Sensing – Pioneering advancements in nanotechnology.
How microscopy can support your project
Microscopy offers a multitude of advantages, making it an ideal choice for various applications:
- Inspection of a wide range of samples and objects.
- Porosity, inclusions and failure analysis.
- High-resolution imaging with chemical and structural information fingertips.
- 3D imaging for fine surfaces.
- Analysis of roughness of metals, polymers and semiconductors.
- Fault and flaw identification.
- Fast batch analysis.
- Surface analysis to include polarized light/contrast techniques.