TEM Holder tem Holder Sample Holder Specimen Holder Tensile Holder Cryo Holder Cooling Holder Vacuum Transfer Holder HATA SATO ATMOS SEM TEM SEM Stage Vacuum Station Tomography EDS AnalysisTEM Holder tem Holder Sample Holder Specimen Holder Tensile Holder Cryo Holder Cooling Holder Vacuum Transfer Holder HATA SATO ATMOS SEM TEM SEM Stage Vacuum Station Tomography EDS AnalysisTEM Holder tem Holder Sample Holder Specimen Holder Tensile Holder Cryo Holder Cooling Holder Vacuum Transfer Holder HATA SATO ATMOS SEM TEM SEM Stage Vacuum Station Tomography EDS AnalysisTEM Holder tem Holder Sample Holder Specimen Holder Tensile Holder Cryo Holder Cooling Holder Vacuum Transfer Holder HATA SATO ATMOS SEM TEM SEM Stage Vacuum Station Tomography EDS AnalysisTEM Holder tem Holder Sample Holder Specimen Holder Tensile Holder Cryo Holder Cooling Holder Vacuum Transfer Holder HATA SATO ATMOS SEM TEM SEM Stage Vacuum Station Tomography EDS Analysis 
 TEM Holder tem Holder Sample Holder Specimen Holder Tensile Holder Cryo Holder Cooling Holder Vacuum Transfer Holder HATA SATO ATMOS SEM TEM SEM Stage Vacuum Station Tomography EDS Analysis
Transfer with no exposure to Atmospheric TEM Holder
Easy and safe operation even inside the glove box
Easy specimen attachment mechanism gsmart set systemh


TEM Holder tem Holder Sample Holder Specimen Holder Tensile Holder Cryo Holder Cooling Holder Vacuum Transfer Holder HATA SATO ATMOS SEM TEM SEM Stage Vacuum Station Tomography EDS Analysis
 1, evacuate for 15 minutes with the chamber open. After that, open and close the chamber in the vacuum @@evacuator, measure the leak from the axis (green).

2, Keep the atmosphere in the chamber, leave it in the atmosphere for3 minutes, then evacuate for 15 @@ @
@ minutes. Thereafter, the chamber is opened in the vacuum evacuation apparatus (red). Vacuum has been @ raised without leaking air into vacuum evacuation unit. A peak due to atmospheric retention to open the @ chamber was observed.

3, Leave the chamber in the atmosphere for 3 minutes with the inside of the chamber vacuumed, then @
@ evacuate for 15 min. Thereafter, the chamber was opened in the vacuum evacuation apparatus (blue). @
@ Although a peak attributable to outgas in the chamber was observed, it was confirmed that the vacuum @ @@was retained.

TEM Holder tem Holder Sample Holder Specimen Holder Tensile Holder Cryo Holder Cooling Holder Vacuum Transfer Holder HATA SATO ATMOS SEM TEM SEM Stage Vacuum Station Tomography EDS Analysis



We attached the LN 2 cooling mechanism to this superior non-exposure mechanism.

That will be released in next summer.

TEM Holder tem Holder Sample Holder Specimen Holder Tensile Holder Cryo Holder Cooling Holder Vacuum Transfer Holder HATA SATO ATMOS SEM TEM SEM Stage Vacuum Station Tomography EDS Analysis
LN2 Cooling -170Ž + Double Tilt}20‹+ Non-exposed
Get the High Resolution image at-170Ž
Suitable for Lithium-Ion battery analysis


TEM Holder tem Holder Sample Holder Specimen Holder Tensile Holder Cryo Holder Cooling Holder Vacuum Transfer Holder HATA SATO ATMOS SEM TEM SEM Stage Vacuum Station Tomography EDS Analysis

Images up to 500K can be acquired immediately
after starting observation. (after arrival -170Ž)


TEM Holder tem Holder Sample Holder Specimen Holder Tensile Holder Cryo Holder Cooling Holder Vacuum Transfer Holder HATA SATO ATMOS SEM TEM SEM Stage Vacuum Station Tomography EDS Analysis

TEM Holder tem Holder Sample Holder Specimen Holder Tensile Holder Cryo Holder Cooling Holder Vacuum Transfer Holder HATA SATO ATMOS SEM TEM SEM Stage Vacuum Station Tomography EDS Analysis