Ceres – Ice Defence System
Description
The CERES Ice Defence System was created to help researchers in the cryo-ET field obtain higher quality EM data faster. CERES is the result of the close partnership between DELMIC Cryo and Max Planck Institute for Molecular Physiology, Dortmund, Germany. CERES not only embodies innovations, but also high quality engineering. With CERES, cryo-EM and cryo-ET users can experience an unprecedented high sample yield. Cryo-ET is a great tool for understanding the building blocks of life due to the high effectiveness in preserving biological samples in their near native state and the atomic resolution. By gaining insight into the structure and organisation of the biomolecules, we can also better understand how they work and how to target specific mechanisms leading to smarter medicine.
Effective and environmentally friendly
When you have prepared your AutoGrid-shuttle and you are ready to transfer it to your cryo-FIB/SEM for imaging or for lamella preparation, load the shuttle into the CERES Vitri-Lock through the interface without exposing the shuttle to the atmosphere and keep your samples uncontaminated.
After loading the Autoloader cassette with AutoGrids in the Clean Station, place the cassette in the NanoCab to transfer out of the Clean Station through the load lock.
Longer cold time and safer transfer
CERES Vitri-Lock enables a safe transfer time for up to 30 minutes, ensuring your samples stay vitrified without the need for rushing between stations. The prolonged ‘cold time’ compared with the other commercially available cryo-transfers enable users to keep their samples vitrified and contamination-free even during the lengthy sample screening step. Use CERES Vitri-Lock together with CERES Clean Station to ensure a seamless sample transfer in an anhydrous environment. Once the sample is transferred into the VitriLock, the CERES Clean Station pumps the Vitri-Lock sample chamber down to high vacuum
CERES Ice Shield offers your cryo samples the maximum ice contamination protection during lamella milling in the cryo-FIB.
CERES Ice Shield is liquid nitrogen-cooled and provides cryo-pumping to lower the partial pressure of water in the chamber and sample vicinity, thus reducing amorphous ice growth to a non-measurable level. Did you know that the typical 50 nm/hour ice growth rate accepted by cryo-FIB providers would mean your 150 nm lamella could become several times thicker at the end of a sample preparation session? With the patented, innovative cryo shutter design, your cryo sample is particularly shielded from the contamination originating from the electron column, and therefore preventing condensation on the sample. With the >10-fold decrease in ice contamination rate (Figures 1 and 2), you can prepare many more lamellae before the first lamella becomes covered in ice.
CERES CLEAN STATION
| Compatible workflow | Single particle analysis, cryo-ET | |
| Compaticle cryo sample vehicles | TEM grid shuttle, NanoCab, slusher | |
| Humidity level in the enclosure | <1% humidity / <1 ppm water | |
| Inner environmental conditions | Steady state for at least 3 months | |
| Anti-humidity method | Air purification recirculation with dry nitrogen gas purging**, load lock and airlock entries | |
| Gas flow | Continuous | |
| Air purifier | Refillable / replaceable HEPA filters | |
| Humidity level display and control | Digital / PLC | |
| Compatible cryo transfer devices | DELMIC CERES Vitri-Lock, ThermoFisher cryo transfer device | |
| Load lock vacuum pump pressure levels | Up to 1×10-6 mbar for CERES Vitri-Lock, up to 1×10-2 mbar otherwise | |
| Preparation station cooling agent | Liquid nitrogen** | |
| Preparation station working temperature | -165 °C | |
| Preparation station cooling agent refill | Insulated hose connected with an external liquid pressurized nitrogen dewar** | |
| method | ||
| Heater temperature | 40 °C for tooling shelf and preparation table | |
| Dimensions | 2000 mm (height) x 2000 mm (width) x 850 mm (depth) |
CERES VITRI-LOCK
| Compatible workflows | Cryo-SEM, Cryo-ET | ||
| Compatible sample | TEM grid-shuttle | ||
| Compatible cryo-FIB model | ThermoFisher Scios, Helios Hydra, Aquilos and Aquilos 2; For other cryo-FIB models, please discuss with your Delmic representative | ||
| Humidity level in the chamber | <1% humidity | ||
| Anti-humidity method | High vacuum (up to 1×10-6 mbar) | ||
| Chamber cooling agent | Liquid nitrogen | ||
| Vitreous | Up to 30 minutes | ||
| state-guaranteed transfer time | |||
| Weight | ≈ 4,5 kg |
CERES ICE SHIELD
| Compatible workflow | Cryo-ET – on-grid milling and lift-out*** | |||
| Ice Shield cooling method | Independent cooling system consisting of an on-column liquid nitrogen dewar | Utilises the cooling system of the cryo-FIB/SEM | ||
| Anti-ce contamination method | Retractable liquid nitrogen-cooled cryo shutter drastically lowers the partial pressure of water in the sample vicinity andprotects the sample from the line of sight of the electron column (the main source of contamination)
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| Run time | Approximately 5 hours (the exact rate depends on the room environment), extend by manual liquid nitrogen refill | Equal to the cryo stage run time | ||
| Compatible cryo-FIB/SEM models | Thermo Scientific Scios, Aquilos | Thermo Scientific Aquilos, Aquilos 2 | ||
| For other cryo-FIB models, please enquire through your local DELMIC representative. | For other cryo-FIB models, please enquire through your local DELMIC representative. | |||