International Tables for Crystallography (2006). Vol. F. ch. 10.2, pp. 202-208
https://doi.org/10.1107/97809553602060000673 |
Chapter 10.2. Cryocrystallography techniques and devices
Contents
- 10.2. Cryocrystallography techniques and devices (pp. 202-208) | html | pdf | chapter contents |
- 10.2.1. Introduction (p. 202) | html | pdf |
- 10.2.2. Crystal preparation (pp. 202-203) | html | pdf |
- 10.2.3. Crystal mounting (pp. 203-204) | html | pdf |
- 10.2.4. Flash cooling (pp. 205-206) | html | pdf |
- 10.2.5. Transfer and storage (pp. 206-207) | html | pdf |
- References | html | pdf |
- Figures
- Fig. 10.2.2.1. Recommended pathway for optimizing cryoprotectant conditions and flash cooling (p. 203) | html | pdf |
- Fig. 10.2.3.1. Different crystal mounts for flash cooling and cryogenic data collection (p. 204) | html | pdf |
- Fig. 10.2.3.2. Mounting a crystal in a loop (p. 204) | html | pdf |
- Fig. 10.2.3.3. Photograph of a flash-cooled crystal mounted in a nylon loop (p. 204) | html | pdf |
- Fig. 10.2.3.4. Arrangement for using the loop-mounting technique at non-cryogenic temperatures (p. 204) | html | pdf |
- Fig. 10.2.4.1. Flash cooling a crystal in the cold gas stream from a cryostat (p. 205) | html | pdf |
- Fig. 10.2.4.2. Flash cooling in a liquid cryogen (p. 205) | html | pdf |
- Fig. 10.2.5.1. Transfer of the flash-cooled crystal and loop assembly to a goniometer using a cryovial (p. 206) | html | pdf |
- Fig. 10.2.5.2. Transfer using an alternative device for achieving the correct magnetic mount orientation (p. 207) | html | pdf |
- Fig. 10.2.5.3. Transfer using tongs (p. 207) | html | pdf |
- Tables