How can you identify wood from FTIR?
This page summarizes the recurring FTIR evidence reported for wood, including the most frequent peaks, supporting functional groups, and literature-backed interpretation patterns. It is a structured evidence page, not a claim of automatic single-spectrum certainty.
Backed by 44 cited sources
Quick answer
wood is usually reported with a recurring pattern of peaks and functional-group evidence. The most useful approach is to cross-check at least two characteristic peaks before treating it as a match, then verify whether the full spectrum still fits the same material family.
Peak interpretation
Possible materials / groups
| Funktionel gruppe | Bevis |
|---|---|
| Carbohydrate | 44 |
| Alkyl C-H | 36 |
| Lignin | 33 |
| Methacrylate | 32 |
| Acetate | 32 |
| Methoxy (OCH3) | 27 |
| C-O single bond | 26 |
| Aromatic ring | 24 |
Spectrum logic
The logic here is evidence aggregation: repeated literature mentions of wood, repeated peak positions, and repeated functional-group associations. A strong material hypothesis should still be supported by multiple peaks that agree with each other, not by one headline band alone.
Real-world usage
This page is designed for polymer identification, incoming-material QC, unknown plastic analysis, recycled-content review, and literature-backed interpretation of reference spectra.
Common mistakes
- Calling a material match too early because one famous peak is present.
- Ignoring sample prep, fillers, oxidation, water, or additives that can change the apparent pattern.
- Using literature evidence without checking whether your own sampling mode and spectrum quality are comparable.
Verification advice
Use DSC, GC-MS, or TGA to validate the material hypothesis when the peak pattern is ambiguous or mixed.
Literature behind this page
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Wang 等 - 2022 - Molecular-level characterization of changes in the DOI: 10.21203/rs.3.rs-882939/v1 -
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Contreras Quiñones 等 - 2022 - DOI: 10.29298/rmcf.v13i72.1186 -
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Predicting the chemical composition of juvenile and mature woods in Scots pine (Pinus sylvestris L.) using FTIR spectroscopy DOI: 10.1007/s00226-020-01159-4 -
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Hamed 等 - 2020 - Investigating the Impact of Weathering and Indoor DOI: 10.22192/ijarbs.2018.05.06.004 -
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Enhanced Anti-Mold Property and Mechanism Description of Ag/TiO2 Wood-Based Nanocomposites Formation by Ultrasound- and Vacuum-Impregnation DOI: 10.3390/nano10040682 -
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Effect of furfurylation treatment on technological properties of short rotation teak wood DOI: 10.1016/j.jmrt.2021.03.092 -
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A Comprehensive Study on The Accelerated Weathering Properties of Polypropylene—Wood Composites with Non-Metallic Materials of Waste-Printed Circuit Board Powders DOI: 10.3390/ma12060876 -
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Modification of Shellac with Clove (Eugenia caryophyllata) and Thyme (Satureja hortensis) Essential Oils: Compatibility Issues and Effect on the UV Light Resistance of Wood Coated Surfaces DOI: 10.3390/coatings12101591 -
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Evaluation of ultrasonic-assisted dyeing properties of fast-growing poplar wood treated by reactive dye based on grey system theory analysis DOI: 10.1007/s10086-018-1768-y -
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Sivrikaya 和 Can - 2022 - Physical and Mechanical Properties and Decay Resis DOI: 10.5552/drvind.2022.2118
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