Field Emission Scanning Electron Microscope (Apreo)
About Instrument and its applications-
High resolution Field Emission scanning electron microscope is the solution of different imaging technique like surface topography, atomic contrast imaging, STEM imaging. Chemical information with the advanced EDAX detector is available with the system. A complete Texture information like, grain map, PF, IPF, is possible with the installed EBSD system.
General Information-
Make - ThermoFisher
Model - Apreo S Low Vac
Year of Installation - 2021
Specifications-
Available modes- High Vacuum mode, Low Vacuum mode, Beam Deacceleration mode (BDM)
Available detectors for imaging- ETD with “T1, T2, T3 in lens detectors”, BSED, EDS (Chemical Information), EBSD (Texture analysis), STEM imaging.
EDS Detector- AMETEK make for chemical analysis, line scan, point scan, colour mapping
Sample Requirements and preparation-
Solid Samples:
1) Cut the solid sample into smaller, manageable pieces.
2) Clean the sample surface using an appropriate solvent or ultrasonic cleaning to remove contaminants. Metallic samples need to be polished and etched. Ensure the sample is completely dry.
3) Place a small piece of conductive double-sided tape on the stub. Affix the solid sample onto the tape, ensuring secure adhesion.
4) Apply a thin conductive coating (e.g., gold or palladium) to enhance conductivity, especially for non-conductive materials, if required.
Powder Samples:
1) Place a small amount of the powder sample onto a piece of conductive double-sided tape.
2) Gently press down on the powder to create a flat surface for imaging.
3) Apply a thin conductive coating to enhance imaging quality, especially for non-conductive powders, if required.
Biological Samples:
1) Fix biological samples using suitable fixatives like formaldehyde or glutaraldehyde to preserve cellular structures.
2) Gradually dehydrate the sample using a series of ethanol solutions or other dehydration agents.
3) Perform critical point drying to replace the liquid solvent with a gas, avoiding damage to delicate structures.
4) Place the dried sample onto a piece of conductive double-sided tape on the stub, ensuring secure adhesion.
5) Apply a thin conductive coating to enhance imaging quality.
Nanomaterials Dispersed in Liquids:
1) Disperse nanoparticles or nanotubes in a suitable solvent to create a well-dispersed solution.
2) Deposit a small amount of the dispersed solution onto a conductive substrate for imaging. Allow solvent evaporation.
3) Mount the substrate with the deposited nanomaterials onto a stub using conductive tape.
4) Ensure the sample is completely dry, and solvent residues are removed.
5) If required apply a thin conductive coating to enhance imaging quality, especially for non-conductive nanomaterials.
Contact Person-
Dr. Shriniwas Yadav
Technical Officer-II
E-mail:shriniwas.mic@iitr.ac.in
Tel: +91-1332-284560