Correlative Microscopy nanoGPS Tags
Pack of nanoGPS tags includes 24 sample tags (2 x 2 mm); 1 calibration tag (4 x 5 mm).
Key Features of nanoGPS navYX:
- High Accuracy: The nanoGPS tags provide localization accuracy within a few micrometers, sufficient to eliminate ambiguity in observed objects.
- Super-Resolution: The nanoGPS technology operates in the super-resolution regime, offering precision that surpasses the optical resolution of imaging systems.
Applications and Benefits:
- Versatility: The nanoGPS navYX tags are designed to be read with a wide range of magnifications and different microscopes, including optical and scanning electron microscopes.
- Ease of Use: The tags are not dependent on specific hardware, making them suitable for use by individual researchers or instrument manufacturers.
- Time-Saving: The technology is expected to save researchers time by quickly locating areas of interest and facilitating collaboration between laboratories.
- Sharing and Relocalization: NanoGPS tags simplify the process of sharing initial observations and returning to selected regions for more detailed studies.
The nanoGPS navYX technology represents a significant advancement in correlative microscopy, offering a highly efficient and accurate method for co-localized observations. Its ability to work across different scales and modalities makes it a versatile tool for a wide array of scientific disciplines.
Future Implications:
- Enhanced Collaboration: The ease of sharing navigable sample maps can lead to more fruitful collaborations within scientific project consortia.
- Laboratory Efficiency: Laboratories operating single or multiple instruments can benefit from nanoGPS technology by allowing easy relocalization between sessions, thus increasing overall efficiency.
- Material Science and Biology: The ability to relocate between different elaboration steps or treatments is invaluable, particularly in fields like materials science and biology where sample integrity is crucial.
Innovative Design:
- Pseudoperiodic Patterns: The nanoGPS tags feature pseudoperiodic patterns that encode the position, orientation, and tag model information, which can be read by the nanoGPS software from a single image.
- Multiscale Tags: Designed to be read with various magnifications, these tags contain zones with different pattern sizes, ensuring compatibility with different imaging techniques.
Case Studies:
- Pollen Grains: The study showcases the use of nanoGPS technology in imaging pollen grains with both SEM and Raman microscopes, highlighting the ability to investigate individual grains without ambiguity.
- Carbon Nanotubes: Another case study demonstrates the relocalization of carbon nanotubes, which are too thin for conventional optical microscopy but visible with SEM. The nanoGPS tags facilitated colocalized Raman measurements at precise locations.
Technical Advantages:
- Super-Resolution Capability: The nanoGPS technology leverages super-resolution theories to achieve positional accuracy that greatly exceeds the resolution of the image, reaching nanometer-level precision from images with micrometer-level resolution.
- Compatibility with Various Imaging Systems: The tags are designed to provide high contrast when observed with different types of microscopes, including optical, SEM, and AFM.
The nanoGPS navYX technology is set to revolutionize the field of correlative microscopy by providing an efficient, accurate, and user-friendly solution for co-localized observations. Its implementation can lead to significant time savings, improve.
Compatibility:
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