TESCAN S8000X FIB/SEM

From Quattrone Nanofabrication Facility
Revision as of 12:47, 13 February 2024 by Bohnn (talk | contribs) (created page. photo and about. copied description from Singh website and split into sections.)
(diff) ← Older revision | Latest revision (diff) | Newer revision → (diff)
Jump to navigation Jump to search


TESCAN S8000X FIB/SEM
PFIB.jpg
Tool Name TESCAN S8000X FIB/SEM
Instrument Type pFIB
Staff Manager Jamie Ford
Lab Location 007
Tool Manufacturer TESCAN
Tool Model S8000X
NEMO Designation TESCAN S8000X FIB/SEM
Lab Phone XXXXX
SOP Link coming soon

Description

The TESCAN S8000X combines a plasma-source focused ion beam microscope and a high- resolution (BrightBeam) scanning electron microscope. The FIB microscope is equipped with a Xe+ ion plasma source and will include additional gases in the near future. The Xe plasma can generate a focused beam up to 1 uA, which allows very high milling rates (up to 50X faster than the prior Ga+ ion technology) and does not lead to deleterious ion implantation in the same way that Ga+ ions do. The BrightBeam SEM is a field-free, ultra-high resolution electron microscope whose optics allow improved resolution, even at low energies. This improves imaging of non-conducting samples.

Applications

The instrument is equipped with a Time-of-Flight Secondary Ion Mass Spectrometery (ToF-SIMS) that can detect the ions emitted from the sample, allowing chemical characterization. ToF-SIMS is especially useful in detecting light elements, including the discrimination of hydrogen and deuterium.

An Energy Dispersive x-ray spectrometer allows for additional, complementary chemical characterization.

The S8000X is also equipped with a cryogenic stage and a sample transfer loadlock, allowing work down to -160 C or introduction of frozen samples into the tool to be milled. A cryogenic Kleindiek nanomanipulator enables users to interact with the sample in-situ as well as lift-out frozen sections for subsequent TEM analysis.





This instrument was purchased with support from a National Science Foundations’ Major Research Instrumentation grant (NSF MRI #1828545). Additional support from the Laboratory for Research on the Structure of Matter (University of Pennsylvania Materials Research Science and Engineering Center (MRSEC) (DMR-1720530).