Table 1. Examples of measurements to be used for the various processes, for a range of sample types.
‘NIB’ stands for nothing in beam. This means that there is nothing in the beam path at the sample position; the normal flight-tube exit and entrance windows, for example, are kept in place. ‘Empty cell’ can be replaced with ‘empty capillary’ if capillaries are used. For sooty flames, the non-sooty flame is a best effort, since the burning conditions, and therefore the background, are by definition different.
| To determine the scattering of | Process A | Process B | Process C |
|---|---|---|---|
| Solids | |||
| Freestanding solid (slab, plate or foil) | NIB | Solid | N/A |
| Metal alloy | NIB | Alloy | N/A |
| Nanoparticles embedded in a polymer | NIB | Polymer | Polymer with embedded nanoparticles |
| Porous membrane in vacuum (dry) | NIB | Membrane | N/A |
| Only pores in the membrane (dry) | NIB | Non-pore-containing membrane | Dried, porous membrane |
| Porous membrane in in situ cell (gas/wet) | Empty cell | Filled cell | Immersed membrane |
| Only pores in the membrane (gas/wet) | Empty cell | Immersed non-pore-containing membrane | Porous membrane |
| Powders | |||
| Powder in between sticky tape (dry) | Sticky tape | Powder in sticky tape | N/A |
| Powder in in situ cell (gas/wet) | Empty cell | Gas- or water-filled cell | Immersed powder in cell |
| Liquids | |||
| Pure liquids | Empty cell | Liquid | N/A |
| Nanoparticle dispersion in liquid | Empty cell | Solvent | Solvent + nanoparticles |
| Proteins in buffer | Empty cell | Buffer | Buffer + protein |
| Micelles in oil/water dispersion | Empty cell | Oil; water (separately) | Micelles in dispersion |
| Gases | |||
| Pure gases | NIB or empty cell | Gas | N/A |
| Particles in carrier gas (flow-through cell) | Empty cell | Gas | Gas + particles |
| Particles in carrier gas (free flowing) | NIB | Gas | Gas + particles |
| Sooty flames (see note in caption) | NIB or empty cell | Non-sooty flame | Sooty flame |