aromatic ester compound with ether/alkyl components, possibly a polye…

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Match %

Compound Name

Formula / SMILES

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Evidence

Key evidence

Китепкананын алдыңкы дал келүүсү

tert-Butyl benzoate #12602 | match 88.8%

Материалдын багыты

aromatic ester compound with ether/alkyl components, possibly a polyether‑ester blend or contaminated small molecule The sample spectrum indicates a material dominated by aromatic ester functional groups and polyether‑like C–O–C linkages. A strong carbonyl band at 1714 cm⁻¹ is attributable to an ester C=O, and characteristic aromatic C–H out‑of‑plane vibrations appear near 723 and 790 cm⁻¹. The overall pattern closely matches tert‑butyl benzoate (library similarity 86%), but the presence of several bands (e.g., 845, 871, 955 cm⁻¹) that are inconsistent with a pure aromatic ester, together with direct literature evidence of Si–O and carbonate absorptions, suggests the material is not a single pure compound. The spectrum shares many features with a polyether‑ester system, possibly a blend or a polymer containing aromatic ester and ether segments.

Supporting peaks

723 cm-1 790 cm-1 845 cm-1 871 cm-1 955 cm-1 1016 cm-1 1094 cm-1 1240 cm-1

Supporting groups

methyl aromatic alkyl_c_h carboxyl phosphate carbonate c_o_c_asymmetric_stretch ch2_rocking/twisting

Support

Evidence supporting the conclusion

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

The sample spectrum indicates a material dominated by aromatic ester functional groups and polyether‑like C–O–C linkages. A strong carbonyl band at 1714 cm⁻¹ is attributable to an ester C=O, and characteristic aromatic C–H out‑of‑plane vibrations appear near 723 and 790 cm⁻¹. The overall pattern closely matches tert‑butyl benzoate (library similarity 86%), but the presence of several bands (e.g., 845, 871, 955 cm⁻¹) that are inconsistent with a pure aromatic ester, together with direct literature evidence of Si–O and carbonate absorptions, suggests the material is not a single pure compound. The spectrum shares many features with a polyether‑ester system, possibly a blend or a polymer containing aromatic ester and ether segments.
Library highest‑similarity match is tert‑butyl benzoate, highlighting the aromatic ester fingerprint.
Direct literature evidence assigns the 1016 cm⁻¹ band to C–O single bond stretching [7] and the 1407 cm⁻¹ band to carbonate asymmetric stretching [4], although these do not all align with a pure small‑molecule ester.
The collective Top‑15 library candidates consistently contain aromatic, ester, and methoxy/ether motifs, reinforcing the ester‑ether character of the sample.
The band at 1714 cm⁻¹ is characteristic of ester C=O stretching and supports an aromatic ester component.
A band at 1094 cm⁻¹ and a strong absorption at 1240 cm⁻¹ are consistent with C–O–C asymmetric stretching vibrations often encountered in polyether or ester backbones; similar assignments have been reported for a PEO‑PVC blend.
The peaks at 845 cm⁻¹ and 955 cm⁻¹ can be assigned to C–H rocking and trans C–H wag respectively, while the 1338 cm⁻¹ band corresponds to CH₂ rocking/twisting, all in a polyether‑type environment.
Aromatic C–H out‑of‑plane deformation at 790 cm⁻¹ and in‑plane deformation suggested near 1016 cm⁻¹ point toward a substituted aromatic ring.
The absorption at 723 cm⁻¹ is consistent with alkyl C–H rocking, indicating the presence of aliphatic chains [2].
Major peak assignments include 723: Related literature: Ester/carbonyl and aromatic hydrocarbon pattern | Direct reference: c o single bond; alkyl c h | Quality: The spectrum edges look truncated or baseline-shifted; 1094: Related literature: Polyether/alkane chain pattern (PEO‑PVC‑like); Heterocyclic / thio‑compound motif | Direct reference: c o single bond; alkyl c h | Quality: The spectrum edges look truncated or baseline-shifted; 1240: Related literature: Polyether/alkane chain pattern (PEO‑PVC‑like); Ester/carbonyl and aromatic hydrocarbon pattern | Direct reference: c o single bond; alkyl c h | Quality: The spectrum edges look truncated or baseline-shifted; 1714: Related literature: Ester/carbonyl and aromatic hydrocarbon pattern | Direct reference: c o single bond; alkyl c h | Quality: The spectrum edges look truncated or baseline-shifted.

Limitations

Evidence that limits the conclusion

Direct evidence also attributes the 845 cm⁻¹ band to Si–O stretching of Al–Mg–OH [3], the 871 cm⁻¹ band to carbonate [9], and the 955 cm⁻¹ band to silicon‑oxygen [5], which are incompatible with a single organic ester compound.
The library match to a specific small molecule conflicts with the inorganic group assignments that appear in multiple literature reports on the same peaks.
Whether the Si–O and carbonate assignments represent trace inorganic additives, contaminants, or mis‑attributions cannot be resolved from the IR spectrum alone.
The exact molecular structure—whether a polyester, a polyether‑ester, or a small ester blended with other materials—remains ambiguous.
The library hit may be a deceiving match because of shared functional groups, not a true identification.

Recommendation

Suggested next verification

Perform GC‑MS or NMR analysis to identify volatile/soluble components and confirm the presence of tert‑butyl benzoate or related esters.
Use X‑ray fluorescence (XRF) or SEM‑EDS to check for silicon, phosphorus, or metal ions that might explain the inorganic‑type bands.
If the sample is polymeric, additional techniques such as pyrolysis‑GC‑MS or MALDI‑TOF would help elucidate the polymer backbone.

Index	Characteristic	Wavenumber	Absorbance	Evidence	One-line interpretation	Citation	Confidence
1	★	723	1.00	Адабият менен колдоого алынган ыйгаруу	723 cm-1 тилкеси alkyl C-H[RC469] дайындалган.	[RC469]	LLM ишеним деңгээли
2	★	1094	0.86	Адабият менен колдоого алынган ыйгаруу	1094 cm-1 тилкеси Polyether/alkane chain pattern (PEO‑PVC‑like)[S1] дайындалган.	[S1]	LLM ишеним деңгээли
3	★	1240	0.84	Адабият менен колдоого алынган ыйгаруу	1240 cm-1 тилкеси Polyether/alkane chain pattern (PEO‑PVC‑like)[S1] дайындалган.	[S1]	LLM ишеним деңгээли
4	★	1714	0.83	Адабият менен колдоого алынган ыйгаруу	1714 cm-1 тилкеси ester[RC1199] дайындалган.	[RC1199]	LLM ишеним деңгээли
5	·	1016	0.61	-	-	-	-
6	·	871	0.49	-	-	-	-
7	★	955	0.44	Адабият менен колдоого алынган ыйгаруу	955 cm-1 тилкеси Polyether/alkane chain pattern (PEO‑PVC‑like)[S1] дайындалган.	[S1]	Жалпы ишенимдүүлүк
8	★	845	0.42	Адабият менен колдоого алынган ыйгаруу	845 cm-1 тилкеси Polyether/alkane chain pattern (PEO‑PVC‑like)[S1] дайындалган.	[S1]	Жалпы ишенимдүүлүк
9	★	790	0.35	Адабият менен колдоого алынган ыйгаруу	790 cm-1 тилкеси ch in plane deformation[6] дайындалган.	[6]	Жалпы ишенимдүүлүк
10	★	1338	0.31	Адабият менен колдоого алынган ыйгаруу	1338 cm-1 тилкеси Polyether/alkane chain pattern (PEO‑PVC‑like)[S1] дайындалган.	[S1]	Жалпы ишенимдүүлүк
11	★	1407	0.27	Адабият менен колдоого алынган ыйгаруу	1407 cm-1 тилкеси alkyl C-H[RC1133] дайындалган.	[RC1133]	LLM ишеним деңгээли
12	★	1472	0.21	Адабият менен колдоого алынган ыйгаруу	1472 cm-1 тилкеси aromatic[13] дайындалган.	[13]	Жалпы ишенимдүүлүк

Index

Characteristic

Wavenumber

Absorbance

Evidence

One-line interpretation

Citation

Confidence

★

723

1.00

Адабият менен колдоого алынган ыйгаруу

723 cm-1 тилкеси alkyl C-H[RC469] дайындалган.

[RC469]

LLM ишеним деңгээли

★

1094

0.86

Адабият менен колдоого алынган ыйгаруу

1094 cm-1 тилкеси Polyether/alkane chain pattern (PEO‑PVC‑like)[S1] дайындалган.

[S1]

LLM ишеним деңгээли

★

1240

0.84

Адабият менен колдоого алынган ыйгаруу

1240 cm-1 тилкеси Polyether/alkane chain pattern (PEO‑PVC‑like)[S1] дайындалган.

[S1]

LLM ишеним деңгээли

★

1714

0.83

Адабият менен колдоого алынган ыйгаруу

1714 cm-1 тилкеси ester[RC1199] дайындалган.

[RC1199]

LLM ишеним деңгээли

1016

0.61

871

0.49

★

955

0.44

Адабият менен колдоого алынган ыйгаруу

955 cm-1 тилкеси Polyether/alkane chain pattern (PEO‑PVC‑like)[S1] дайындалган.

[S1]

Жалпы ишенимдүүлүк

★

845

0.42

Адабият менен колдоого алынган ыйгаруу

845 cm-1 тилкеси Polyether/alkane chain pattern (PEO‑PVC‑like)[S1] дайындалган.

[S1]

Жалпы ишенимдүүлүк

★

790

0.35

Адабият менен колдоого алынган ыйгаруу

790 cm-1 тилкеси ch in plane deformation[6] дайындалган.

[6]

Жалпы ишенимдүүлүк

★

1338

0.31

Адабият менен колдоого алынган ыйгаруу

1338 cm-1 тилкеси Polyether/alkane chain pattern (PEO‑PVC‑like)[S1] дайындалган.

[S1]

Жалпы ишенимдүүлүк

★

1407

0.27

Адабият менен колдоого алынган ыйгаруу

1407 cm-1 тилкеси alkyl C-H[RC1133] дайындалган.

[RC1133]

LLM ишеним деңгээли

★

1472

0.21

Адабият менен колдоого алынган ыйгаруу

1472 cm-1 тилкеси aromatic[13] дайындалган.

[13]

Жалпы ишенимдүүлүк

No.	Title	Page
[1]	Solihat 等 - 2020 - Microwave assisted dilute organic acid pre-treatme	-
[2]	Salimon 等 - 2011 - Hydrolysis optimization and characterization study	-
[3]	Natkanski 等 - 2013 - Effect of Fe3+ ions present in the structure of po	-
[4]	Mino 等 - 2014 - CO2 Capture by TiO2 Anatase Surfaces A Combined D	-
[5]	Madadi 和 Wei - 2022 - Characterization of Calcium Silicate Hydrate Gels	-
[6]	Khudaida 等 - 2022 - Microparticle Production of Active Pharmaceutical	-
[7]	Combrzynski 等 - 2022 - Selected Physical and Spectroscopic Properties of	-
[8]	Chatchawal 等 - 2021 - Detection of Human Cholangiocarcinoma Markers in S	-
[9]	Castorina 等 - 2023 - Evidence for Mild Diagenesis in Archaeological Hum	-
[10]	Ashby 等 - 2013 - The effect of alkyl chain length on the level of c	-
[11]	Al Jedani 等 - 2020 - A de-waxing methodology for scanning probe microsc	-
[12]	Abdolahi 等 - 2012 - Synthesis of Uniform Polyaniline Nanofibers throug	-
[13]	Li 等 - 2013 - Synthesis and Microwave Absorption Characteristics	-
[S1]	Arya 和 Sharma - 2018 - Structural, microstructural and electrochemical pr	46
[S2]	Sciutto 等 - 2017 - A Multivariate Methodological Workflow for the Ana	10
[S4]	Ovchinnikov 等 - 2016 - Manifestation of intermolecular interactions in FT	23
[S5]	Kert 等 - 2021 - Application of Fragrance Microcapsules onto Cotton	13
[RC469]	Jaggy 等 - 2020 - ATR-FTIR Analysis and One-Week Stress Relaxation o	3
[RC1133]	Kupryaniuk 等 - 2021 - The Influence of the Pressure-Thermal Agglomeratio	19
[RC1199]	Castro 等 - 2020 - Pretreatment Affects Activated Carbon from Piassav	6

No.

Title

Page

[1]

Solihat 等 - 2020 - Microwave assisted dilute organic acid pre-treatme

[2]

Salimon 等 - 2011 - Hydrolysis optimization and characterization study

[3]

Natkanski 等 - 2013 - Effect of Fe3+ ions present in the structure of po

[4]

Mino 等 - 2014 - CO2 Capture by TiO2 Anatase Surfaces A Combined D

[5]

Madadi 和 Wei - 2022 - Characterization of Calcium Silicate Hydrate Gels

[6]

Khudaida 等 - 2022 - Microparticle Production of Active Pharmaceutical

[7]

Combrzynski 等 - 2022 - Selected Physical and Spectroscopic Properties of

[8]

Chatchawal 等 - 2021 - Detection of Human Cholangiocarcinoma Markers in S

[9]

Castorina 等 - 2023 - Evidence for Mild Diagenesis in Archaeological Hum

[10]

Ashby 等 - 2013 - The effect of alkyl chain length on the level of c

[11]

Al Jedani 等 - 2020 - A de-waxing methodology for scanning probe microsc

[12]

Abdolahi 等 - 2012 - Synthesis of Uniform Polyaniline Nanofibers throug

[13]

Li 等 - 2013 - Synthesis and Microwave Absorption Characteristics

[S1]

Arya 和 Sharma - 2018 - Structural, microstructural and electrochemical pr

[S2]

Sciutto 等 - 2017 - A Multivariate Methodological Workflow for the Ana

[S4]

Ovchinnikov 等 - 2016 - Manifestation of intermolecular interactions in FT

[S5]

Kert 等 - 2021 - Application of Fragrance Microcapsules onto Cotton

[RC469]

Jaggy 等 - 2020 - ATR-FTIR Analysis and One-Week Stress Relaxation o

[RC1133]

Kupryaniuk 等 - 2021 - The Influence of the Pressure-Thermal Agglomeratio

[RC1199]

Castro 等 - 2020 - Pretreatment Affects Activated Carbon from Piassav

aromatic ester compound with ether/alkyl components, possibly a polyether‑ester blend or contaminated small molecule

FTIR Spectrum Analysis Report

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Reference library candidates