Can FTIR be used for inorganic?
Table of Contents
Can FTIR be used for inorganic?
FTIR is useful for both organic and inorganic material.
How do you interpret FTIR results?
Once the initial testing and spectrum collection is complete, interpretation of FTIR spectra comes next. Typically, interpreting FTIR spectra starts at the high frequency end to identify the functional groups present. The fingerprint regions are then studied to positively identify the compound.
What kind of compounds can be analyzed by IR?
Infrared: Interpretation
- Organic Compounds. Functional Groups Containing the C-O Bond. Organic Nitrogen Compounds. Organic Compounds Containing Halogens.
- Inorganic Compounds.
What is FTIR used for?
FTIR spectroscopy is used to quickly and definitively identify compounds such as compounded plastics, blends, fillers, paints, rubbers, coatings, resins, and adhesives. It can be applied across all phases of the product lifecycle including design, manufacture, and failure analysis.
What types of samples can be analyzed by infrared spectroscopy?
Infrared spectroscopy can be used on gaseous, liquid, or solid samples and does not destroy the sample in the process. Other applications include: Chemical analysis. Forensics.
Can an IR identify a compound?
Explanation: IR-frequency light is passed through a compound. The amount and frequencies of the light absorbed is related to the functional groups and structure of the compound. This helps us to identify the compound.
How can FTIR spectroscopy be used in determining the organic functional groups present in an unknown compound?
With FTIR, different functional groups absorb heat at different frequencies. It is dependent upon their structure and a vibrational spectrum can be used to determine the functional groups present in a sample. FTIR can be combined with other analytical techniques to gain more information about the material.
What type of information can be obtained from FTIR?
FTIR is a rapid, nondestructive, time saving method that can detect a range of functional groups and is sensitive to changes in molecular structure. FTIR provide information on the basis of chemical composition and physical state of the whole sample (Cocchi et al. 2004).
How does IR spectroscopy helps in identifying the functional groups in an organic molecule?
The amplitude of the vibration will increase. Within a narrow range, each type of bond vibrates at a characteristic wavenumber. This makes infrared spectroscopy useful for identifying functional groups in a molecule.