Volumes and areas calculated from the idealized framework model
|
|||||||||
| Occupiable Volume | 388.32 | Å3 | (18.14 | %) | |||||
| Accessible Volume | 387.22 | Å3 | (18.09 | %) | |||||
| Occupiable Area | 396.56 | Å2 | (1242.06 | m2/g) | |||||
| Accessible Area | 383.49 | Å2 | (1201.14 | m2/g) | |||||
| Specific Occupiable Area | 1852.3 | m2/cm3 | |||||||
| Specific Accessible Area | 1791.27 | m2/cm3 | |||||||
| Maximum diameter of a sphere: | |||||||||
| that can be included | 8.99 | Å | |||||||
| that can diffuse along | a: 2.02 | Å | b: 2.02 | Å | c: 4.22 | Å | |||
| Explanations | |||||
| Occupiable volume | That portion of the available volume within the cell that can be visited by the center of a (spherical) water molecule (radius = 1.4Å). The available volume is the unit cell volume remaining after the van der Waals atomic sphere volumes are subtracted. | ||||
| Occupiable area | The area of that surface visited by the center of the water molecule. | ||||
| Accessible volume | That portion of the occupiable volume that has continuity between all unit unit cells. Some pores/cavities have windows that are too small to allow the water molecule access, and so represent isolated occupiable regions. | ||||
| Accessible area | The area of that surface visited by the center of the water molecule. | ||||
| Specific occupiable area | Occupiable area per unit volume | ||||
| Specific accessible area | Accessible area per unit volume | ||||
Credits: