2. ATTENUATED TOTAL REFLECTION SPECTROSCOPY

3. Outline Introduction to ATR technology Evanescent Waves Crystal Composition Data Collection Advantages & Disadvantages Sample Analysis Challenges Future Applications Conclusion

4. Attenuated total reflection (ATR) spectroscopy is a versatile and powerful technique for infrared sampling

5. How an ATR accessory works Internal reflection spectroscopy passes infrared radiation through an infrared-transmitting crystal of high refractive index, allowing the radiation to reflect in the crystal one or more times An attenuated total reflection accessory measures the totally reflected infrared beam when the beam comes in contact with a sample In this way, an evanescent wave penetrates into the sample in contact with the crystal, producing a spectrum of the sample

6. Evanescent Waves The infrared radiation interacts with the sample through a series of standing waves, called evanescent waves An evanescent wave is a penetrating electromagnetic field whose intensity quickly decays as it moves away from its source

8. ATR Data Collection When collecting ATR data, samples are run as % Reflectance or log (1/R) % Reflectance is equivalent to % Transmittance Log (1/R) is equivalent to Absorbance In summary, % Reflectance is similar to Absorbance

9. Disadvantages ATR vs. Transmission The ATR crystal absorbs energy at lower energy levels If the sample does not have good contact with the crystal, the data will not be accurate Most ATR crystals have pH limitations

10. Crystal Composition Crystals are typically made of: Zinc Selenide (ZnSe) Germanium (Ge) Zinc Sulfide (ZnS) Silicon (Si) Diamond AMTIR: Germanium, Arsenic, Selenium (GeAsSe)

11. Advantages ATR vs. Transmission When an ATR accessory is used, most samples can be run “neat”, which means “in their natural state” ATR sampling is fast and easy because little or no sample preparation is required Other techniques, such as infrared transmission, often require the sample to be heated, pressed or ground in order to collect the spectrum

12. Solid analysis ATR is an excellent technique for measuring the composition of solids Some examples of solids are films, fabrics, paper, hard polymer sheets, glass, rubber ATR is an ideal technique for measuring dark colored materials which often absorb too much energy to be measured by IR transmission

13. Liquid Analysis ATR is an ideal technique for analyzing liquids Sample preparation is minimal Cleanup is easy and fast

14. Liquid Analysis ATR can be used to analyze non-aqueous solutions such a lubricants, oils, paints, glues, solvents, inks and dyes Gels and pastes can also be analyzed

15. Powder Analysis Powders are easier to run by ATR than by IR transmission, because little or no preparation is required This category includes pure samples and mixtures that are available in powdered from Some examples of pure samples and mixtures are pharmaceuticals and pigments

16. Challenges Alignment of the beamsplitter Technique will change with sample type

17. Future Applications Forensic Investigation Biomedical applications

18. Attenuated Total Reflectance is an easy-to-use, fast, and versatile technique for infrared sampling Solids, pastes, gels, liquids and powders can be analyzed with little or no preparation Conclusion

19. References Thermo Electron Corporation http://www.brukeroptics.com/applications/microscopy.html