FTIR ANALYSIS REPORT

FTIR Spectrum Analysis Report

No.: 20250312162613534563386 Date: 2025-03-12 10:57:38 Reported by: FTIR.fun Contact: [email protected]

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Top15

Similarity-ranked Top-15 library comparison

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Library spectrum will appear here.

Infrared spectrum comparison chart. Analysis result: aliphatic ester, likely a long-chain fatty ester or diester.

The spectrum is most consistent with an aliphatic ester-containing material rather than a firm assignment to the library top hit. The strongest sample evidence is the intense ester carbonyl band near 1742 cm⁻1, accompanied by C–O stretching bands at 1235 and 1159 cm⁻1 and a long alkyl-chain pattern at 2922, 2852, 1461, 1374, and 721 cm⁻1. Across the leading library candidates, the chemically consistent pattern is dominated by long-chain ester compounds such as fatty esters, diesters, and related oxygenated lipid-like materials. However, the library match quality is effectively null, and there is no direct or related literature evidence that specifically supports Diethyl tetradecanedioate as the present sample. A broader ester direction is therefore the most chemically supportable conclusion

Library spectrum Interactive sample curve Move the pointer to show the vertical guide line.

Top 15 candidates

Reference library candidates

Rank	Match %	Compound Name	Formula / SMILES	Library preview	Action
Reference candidates load with this Top-15 workbench.

Based on the library matches and evidence above.

Conclusion

aliphatic ester, likely a long-chain fatty ester or diester

General assessment

#43142 Initial rank 1 Current rank 1 Library lead match 0.0%

Conclusion

The sample contains the characteristic ester combination of a carbonyl band near 1742 cm⁻1 and C–O bands near 1235 and 1159 cm⁻1.
The alkyl-chain bands at 2922, 2852, and 721 cm⁻1 support a long-chain aliphatic component.
Several leading library candidates are long-chain ester materials, including fatty esters and diesters, which is consistent with the observed band pattern.

Main limitation

The top library hit, Diethyl tetradecanedioate, has a similarity of 0.000, so the retrieval does not provide direct identification support.

Evidence

Key evidence

Съвпадение по библиотечен водещ

Diethyl tetradecanedioate #43142 | match 0.0%

Посока на материала

aliphatic ester, likely a long-chain fatty ester or diester The spectrum is most consistent with an aliphatic ester-containing material rather than a firm assignment to the library top hit. The strongest sample evidence is the intense ester carbonyl band near 1742 cm⁻1, accompanied by C–O stretching bands at 1235 and 1159 cm⁻1 and a long alkyl-chain pattern at 2922, 2852, 1461, 1374, and 721 cm⁻1. Across the leading library candidates, the chemically consistent pattern is dominated by long-chain ester compounds such as fatty esters, diesters, and related oxygenated lipid-like materials. However, the library match quality is effectively null, and there is no direct or related literature evidence that specifically supports Diethyl tetradecanedioate as the present sample. A broader ester direction is therefore the most chemically supportable conclusion.

Support

Evidence supporting the conclusion

Only sample-relevant statements that support the present conclusion are shown here.

The sample contains the characteristic ester combination of a carbonyl band near 1742 cm⁻1 and C–O bands near 1235 and 1159 cm⁻1.
The alkyl-chain bands at 2922, 2852, and 721 cm⁻1 support a long-chain aliphatic component.
Several leading library candidates are long-chain ester materials, including fatty esters and diesters, which is consistent with the observed band pattern.
A strong band at 1742 cm⁻1 is characteristic of an ester carbonyl.
Bands at 1235 and 1159 cm⁻1 support ester C–O stretching.
The peaks at 2922 and 2852 cm⁻1, together with 1461, 1374, and 721 cm⁻1, indicate a substantial aliphatic hydrocarbon chain.
The Top-15 library pattern is largely populated by long-chain esters, diesters, glyceride-like esters, and related fatty-chain oxygenated compounds.
The weak band near 3006 cm⁻1 may indicate minor unsaturation, but it is not sufficient to define a specific ester structure.

Limitations

Evidence that limits the conclusion

The top library hit, Diethyl tetradecanedioate, has a similarity of 0.000, so the retrieval does not provide direct identification support.
The library consensus note of "methyl / chlorine" is not convincingly supported by the observed peak list, which does not show clear identifying evidence for chlorinated functionality.
The current evidence supports an ester class assignment, but it does not securely distinguish between a simple fatty ester, a diester, a glyceride-related ester, or a similar long-chain oxygenated aliphatic material.
The weak 3006 cm⁻1 feature leaves open whether the sample is fully saturated or contains some unsaturation.
Without stronger match quality or additional corroborating data, the specific library name cannot be treated as confirmed.

Recommendation

Suggested next verification

Re-run the FTIR with full-spectrum review and band intensities to confirm the ester C–O region and check for any overlooked bands that would distinguish monoester, diester, or hydroxyl-containing ester materials.
Compare the sample against authenticated spectra of long-chain fatty esters and aliphatic diesters, including Diethyl tetradecanedioate, under the same measurement conditions.
Use GC-MS or LC-MS, if the sample is extractable, to determine chain length distribution and whether the material is a single ester, a diester, or a mixture of fatty esters.
If unsaturation is important to the application, verify the weak 3006 cm⁻1 feature with repeat FTIR or complementary NMR analysis.

Peak analysis

Detected peaks and interpretation

★ = Literature-supported peak assignment.

Index	Characteristic	Wavenumber	Absorbance	Evidence	One-line interpretation	Citation	Confidence
1	·	1742	1.00	-	-	-	-
2	·	2922	0.96	-	-	-	-
3	·	1159	0.75	-	-	-	-
4	·	2852	0.65	-	-	-	-
5	·	721	0.38	-	-	-	-
6	·	1461	0.36	-	-	-	-
7	·	1235	0.36	-	-	-	-
8	·	1374	0.21	-	-	-	-
9	·	3006	0.11	-	-	-	-

Appendix

Sample information and raw spectrum

Original uploaded spectrum for reference and verification.

Baseline correction method: Asymmetric Least Squares Smoothing

The wavelength range for analysis(cm-1): [(650, 4000)]

Raw spectrum without baseline correction or other processing:

aliphatic ester, likely a long-chain fatty ester or diester

FTIR Spectrum Analysis Report

Similarity-ranked Top-15 library comparison

Reference library candidates

aliphatic ester, likely a long-chain fatty ester or diester

Key evidence

Evidence supporting the conclusion

Evidence that limits the conclusion

Suggested next verification

Detected peaks and interpretation

Sample information and raw spectrum

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aliphatic ester, likely a long-chain fatty ester or diester

Similarity-ranked Top-15 library comparison

Reference library candidates

aliphatic ester, likely a long-chain fatty ester or diester

Key evidence

Evidence supporting the conclusion

Evidence that limits the conclusion

Suggested next verification

Detected peaks and interpretation

Sample information and raw spectrum

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