This topic is a very broad one since it involves everything that has been covered in W&C and then allows the specimen to change while you image it, record the spectra, and/or measure what changes are taking place. We’ll consider what is important when you want to perform an experiment in the TEM. Historically the TEM was a designed around a column with a high(ish) vacuum; the vacuum was not usually high enough to satisfy a UHVUltra High Vacuum (UHV) expert or poor enough to satisfy a chemist interested in ‘real’ reactions. So, we first consider the environment: the specimen can now be in ultra-high vacuum, a poorish vacuum, a controlled gas, or even a liquid. The temperature can be very low (down to liquid-He temperatures), quite low (down to liquid-H2 temperatures), room temperature, or higher temperatures (perhaps as high as 2,000 °C).

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In-Situ and Operando Experiments

  • C. Barry Carter,
  • Katherine Jungjohann

摘要

This topic is a very broad one since it involves everything that has been covered in W&C and then allows the specimen to change while you image it, record the spectra, and/or measure what changes are taking place. We’ll consider what is important when you want to perform an experiment in the TEM. Historically the TEM was a designed around a column with a high(ish) vacuum; the vacuum was not usually high enough to satisfy a UHVUltra High Vacuum (UHV) expert or poor enough to satisfy a chemist interested in ‘real’ reactions. So, we first consider the environment: the specimen can now be in ultra-high vacuum, a poorish vacuum, a controlled gas, or even a liquid. The temperature can be very low (down to liquid-He temperatures), quite low (down to liquid-H2 temperatures), room temperature, or higher temperatures (perhaps as high as 2,000 °C).