(2.1.2) Powder samples
You can press powder into a pellet. In this method, you can select different diluents (matrixes) for various applications. For mid-IR frequency range, KBr, KCl or diamond dust can be used. For far-infrared testing, high-density polyethylene (HDPE) or diamond dust is suitable. For near-infrared analysis, CsI or KBr can be selected. You can prepare a KBr Pellet as follows:

(a) The powder sample and KBr must be ground to reduce the particle size to less than 5 mm in diameter. Otherwise, large particles scatter the infrared beam and cause a slope baseline of spectrum.
(b) Add a spatula full of KBr into an agate mortar and grind it to fine powder until crystallites can no longer be seen and it becomes somewhat “pasty” and sticks to the mortar.

(c) Take a small amount of powder sample (about of 0.1-2% of the KBr amount, or just enough to cover the tip of spatula) mix with the KBr powder. Subsequently grind the mixture for 3-5 minutes.
(d) Assemble the die-set as shown in the drawing. When assembling the die, please add the powder to the 7mm collar. Put the die together with the powder into the Qwik Handi-Press. Press the powder for 2 minutes to form a pellet. A good KBr pellet is thin and transparent. Opaque pellets give poor spectra, because little infrared beam passes through them. White spots in a pellet indicate that the powder is not ground well enough, or is not dispersed properly in the pellets.
(e) Disassemble the die set and take out the 7mm collar. Put the collar together with the pellet onto the sample holder.
(f) Please clean the die after you finish your experiment.

It is worthy noting that Br- from the KBr can often replace ligands in the compound whose spectrum is desired.

Precaution: Volatile liquid can’t be prepared with this method, because it will evaporate while its spectrum is being obtained. If the liquid sample is toxic or smelly, please don’t use this method. In addition, NaCl and KBr are dissolved into water, and thus they can’t be used for aqueous samples.

(2.2.2) Using a liquid cell
The thermo Nicolet demountable pathlength cell is designed for liquid sample. Assemble the cell as shown in the drawing. Then use a syringe to fill the liquid into the cell. Finally seal the cell.

3.1 Solid samples
For solid samples, please use the flat crystal. To obtain the best results, the recommended sample dimension is 75-90mm long ´ 16-25mm wide ´ <4mm thick. The sample surface must be flat, otherwise intimate contact between the sample and the ATR crystal can not be obtained.

Firstly place a sample on top surface of the crystal. Then place the gripper plate on the sample. Adjust the pressure applied to the gripper plate to ensure the consistent contact is achieved between the crystal and the sample. Precaution: if you find a considerable force is necessary to overcome the resistance, STOP! Excessive pressure can crack and permanent damage the crystal. Also, the crystal must be keep clean and scratch-free. Scratches affect the sample/crystal contact and thus have significant influence on the depth of penetration.

3.2 Liquid samples
For liquid samples, please use the trough crystal. Fill the trough plate with your liquid sample. Then place the cover over the trough plate.
Precaution: Ensure the liquid sample does not attack the crystal.

After you have finished your experiment, clean up the crystal using proper solvents (Acetone or water can be used for ZnSe and Ge).

4. Sample preparation for PM-IRRAS measurement
Typically, you can deposit a metal film on the regular glass slide (or silicon wafer). The metal/glass combination can be acted as the reference sample. In addition, you will deposit a monolayer (or organic film) over the metal film. Hence, you will have two samples, i.e., the metal/glass combination and the monolayer/metal/glass composite. The recommended dimension of sample is 55~75mm x 17~25mm.