Aromatic methacrylate-based material likely containing a silica/silox…

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Rank

Match %

Compound Name

Formula / SMILES

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Action

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Evidence

Key evidence

Könyvtár vezető egyezés

3-(4-Chlorophenyl)-1-methoxy-1-methylurea #33549 | match 0.0%

Anyag iránya

Aromatic methacrylate-based material likely containing a silica/siloxane component The FTIR spectrum most closely matches aromatic methacrylate-type compounds, with strong indications of ester, methacrylate, and aromatic ring vibrations, along with bands characteristic of silica or siloxane structures. The reference library comparison provided a low-confidence match to 3-(4-Chlorophenyl)-1-methoxy-1-methylurea, but the consensus of the top candidates and the direct literature evidence supports a broader classification as an aromatic ester/methacrylate material, possibly a composite containing an inorganic silica filler.

Supporting peaks

745 cm-1 801 cm-1 938 cm-1 983 cm-1 1077 cm-1 1169 cm-1 1212 cm-1 1243 cm-1

Supporting groups

aromatic methyl alkyl_c_h amide silicon_oxygen siloxane c_n nitro

Support

Evidence supporting the conclusion

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

The FTIR spectrum most closely matches aromatic methacrylate-type compounds, with strong indications of ester, methacrylate, and aromatic ring vibrations, along with bands characteristic of silica or siloxane structures. The reference library comparison provided a low-confidence match to 3-(4-Chlorophenyl)-1-methoxy-1-methylurea, but the consensus of the top candidates and the direct literature evidence supports a broader classification as an aromatic ester/methacrylate material, possibly a composite containing an inorganic silica filler.
Library top-15 candidates consistently share ester, methacrylate, and aromatic functionalities.
The coexistence of strong organic ester/aromatic bands and inorganic Si-O vibrations suggests a composite or mixed-phase material.
The band at 1604 cm-1 is consistent with aromatic C=C stretching and is commonly observed in methacrylate-based polymers.
A peak at 1169 cm-1 is assigned to ester C-O stretching, with direct literature attribution to ester group vibrations [7].
The absorption at 801 cm-1 is attributable to Si-O or siloxane bending, supported by literature evidence for silicon [10].
Strong C-H deformation bands around 1461 and 1393 cm-1 indicate aliphatic methyl and methylene groups typical of methacrylate backbones.
The peak at 1077 cm-1, while also assignable to C-O in methacrylate, lacks direct citation but fits the expected methoxy/ester pattern.
Absorptions near 2157, 2132, and 2180 cm-1, identified as triple bond stretches (nitrile/alkyne) by analogical literature, suggest a small amount of nitrile or alkyne functionality, consistent with some library candidates.
Major peak assignments include 2157: Related literature: Triple bond stretch (nitrile/alkyne) | Direct reference: ring; ring 6m | Quality: The spectrum edges look truncated or baseline-shifted; 3659: Related literature: Free O-H stretch | Direct reference: ring; ring 6m | Quality: The spectrum edges look truncated or baseline-shifted; 2132: Related literature: Triple bond stretch (nitrile/alkyne) | Quality: The spectrum edges look truncated or baseline-shifted; 1958: Quality: The spectrum edges look truncated or baseline-shifted.

Limitations

Evidence that limits the conclusion

The nearest library match, 3-(4-Chlorophenyl)-1-methoxy-1-methylurea, had very low spectral similarity (0.000) and cannot be confirmed.
The presence of Si-O bands, possibly from silica, does not correspond to the pure organic library candidates and may indicate an inorganic filler or contamination.
No specific compound identity could be established; the assignment rests on functional group interpretation rather than a definitive match.

Recommendation

Suggested next verification

Perform complementary analyses such as GC-MS, NMR, or elemental analysis to identify the organic constituents and confirm the presence of methacrylate.
If the material is a composite, thermal gravimetric analysis (TGA) could quantify the inorganic fraction and help identify the filler.
Consider re-running the library search with the sample spectrum after subtracting the silica contribution for a better match.

Index	Characteristic	Wavenumber	Absorbance	Evidence	One-line interpretation	Citation	Confidence
1	★	2157	1.00	Analóg irodalmi hozzárendelés	A 2157 cm-1 sávhoz a Triple bond stretch (nitrile/alkyne)[S1] van rendelve.	[S1]	Összesített megbízhatóság
2	★	3659	0.79	Analóg irodalmi hozzárendelés	A 3659 cm-1 sávhoz a Free O-H stretch[S1] van rendelve.	[S1]	Összesített megbízhatóság
3	★	2132	0.74	Analóg irodalmi hozzárendelés	A 2132 cm-1 sávhoz a Triple bond stretch (nitrile/alkyne)[S1] van rendelve.	[S1]	LLM megbízhatóság
4	·	1958	0.73	-	-	-	-
5	·	1971	0.70	-	-	-	-
6	·	2005	0.68	-	-	-	-
7	·	2022	0.68	-	-	-	-
8	·	1816	0.66	-	-	-	-
9	★	2180	0.64	Analóg irodalmi hozzárendelés	A 2180 cm-1 sávhoz a Triple bond stretch (nitrile/alkyne)[S1] van rendelve.	[S1]	LLM megbízhatóság
10	·	2094	0.62	-	-	-	-
11	·	2039	0.61	-	-	-	-
12	·	2053	0.61	-	-	-	-
13	·	2366	0.52	-	-	-	-
14	·	1309	0.51	-	-	-	-
15	·	1359	0.51	-	-	-	-
16	·	1529	0.49	-	-	-	-
17	★	1169	0.47	Irodalom által támogatott hozzárendelés	A 1169 cm-1 sávhoz a ester[7] van rendelve.	[7]	LLM megbízhatóság
18	★	1077	0.45	Irodalom által támogatott hozzárendelés	A 1077 cm-1 sávhoz a methacrylate[RC2953] van rendelve.	[RC2953]	LLM megbízhatóság
19	·	1393	0.42	-	-	-	-
20	·	983	0.39	-	-	-	-
21	·	1212	0.38	-	-	-	-
22	·	938	0.37	-	-	-	-
23	★	1604	0.32	Analóg irodalmi hozzárendelés	A 1604 cm-1 sávhoz a Aromatic C=C stretching[S5] van rendelve.	[S5]	LLM megbízhatóság
24	·	1243	0.31	-	-	-	-
25	·	1461	0.30	-	-	-	-
26	·	1277	0.27	-	-	-	-
27	·	745	0.22	-	-	-	-
28	★	801	0.22	Irodalom által támogatott hozzárendelés	A 801 cm-1 sávhoz a acetate[29] van rendelve.	[29]	Összesített megbízhatóság

Index

Characteristic

Wavenumber

Absorbance

Evidence

One-line interpretation

Citation

Confidence

★

2157

1.00

Analóg irodalmi hozzárendelés

A 2157 cm-1 sávhoz a Triple bond stretch (nitrile/alkyne)[S1] van rendelve.

[S1]

Összesített megbízhatóság

★

3659

0.79

Analóg irodalmi hozzárendelés

A 3659 cm-1 sávhoz a Free O-H stretch[S1] van rendelve.

[S1]

Összesített megbízhatóság

★

2132

0.74

Analóg irodalmi hozzárendelés

A 2132 cm-1 sávhoz a Triple bond stretch (nitrile/alkyne)[S1] van rendelve.

[S1]

LLM megbízhatóság

1958

0.73

1971

0.70

2005

0.68

2022

0.68

1816

0.66

★

2180

0.64

Analóg irodalmi hozzárendelés

A 2180 cm-1 sávhoz a Triple bond stretch (nitrile/alkyne)[S1] van rendelve.

[S1]

LLM megbízhatóság

2094

0.62

2039

0.61

2053

0.61

2366

0.52

1309

0.51

1359

0.51

1529

0.49

★

1169

0.47

Irodalom által támogatott hozzárendelés

A 1169 cm-1 sávhoz a ester[7] van rendelve.

[7]

LLM megbízhatóság

★

1077

0.45

Irodalom által támogatott hozzárendelés

A 1077 cm-1 sávhoz a methacrylate[RC2953] van rendelve.

[RC2953]

LLM megbízhatóság

1393

0.42

983

0.39

1212

0.38

938

0.37

★

1604

0.32

Analóg irodalmi hozzárendelés

A 1604 cm-1 sávhoz a Aromatic C=C stretching[S5] van rendelve.

[S5]

LLM megbízhatóság

1243

0.31

1461

0.30

1277

0.27

745

0.22

★

801

0.22

Irodalom által támogatott hozzárendelés

A 801 cm-1 sávhoz a acetate[29] van rendelve.

[29]

Összesített megbízhatóság

No.	Title	Page
[1]	Rajendran 等 - 2013 -	-
[2]	Purba 等 - 2023 - Novel method of hydrolysed collagen extraction fro	-
[3]	Pulyalina 等 - 2022 - Effect of ionic liquid on formation of copolyimide	-
[4]	Naseem 等 - 2020 - Mesoporous ZnAl2Si10O24 nanofertilizers enable hig	-
[5]	Goldsztein 等 - 2010 - Gastric ATPase phosphorylationdephosphorylation m	-
[6]	Espinosa-Velazquez 等 - 2018 - Rapid physicochemical characterization of innovati	-
[7]	Chaparro 等 - 2023 - Biowaxes from Palm Oil as Promising Candidates for	-
[8]	Butova 等 - 2023 - In Situ FTIR Spectroscopy for Scanning Accessible	-
[9]	Baldassarre 等 - 2020 - Crystal Chemistry and Luminescence Properties of E	-
[10]	Athinarayanan 等 - 2020 - Fabrication of Biogenic Silica Nanostructures from	-
[11]	pdf20231221 cm-1 infrared 第一部分/duband 等 - 2012 - laryngeal teflonoma identified by fourier-transfor.pdf	-
[12]	0816 ftir cm_1 peak wos/braiman 等 - 1988 - vibrational spectroscopy of bacteriorhodopsin muta.pdf	-
[13]	Wang 等 - 2022 - Dentin collagen denaturation status assessed by co	-
[14]	Retnoningtyas 等 - 2022 - Synthesis and Characterization of Methionine-Funct	-
[15]	Mansour 等 - 2022 - Green Synthesis of Zinc Oxide Nanoparticles Using	-
[16]	Gutierrez 等 - 2012 - Liquid phase hydrogenation of crotonaldehyde over	-
[17]	Blanco 等 - 2020 - Acidic Properties of Alkaline-Earth Phosphates Det	-
[18]	Al-Shdefat 等 - 2023 - Ribociclib Hybrid Lipid-Polymer Nanoparticle Prepa	-
[19]	Al Jedani 等 - 2020 - A de-waxing methodology for scanning probe microsc	-
[20]	Affatato 等 - 2012 - In vitro wear performance of standard, crosslinked	-
[21]	pdf20231221 cm-1 infrared 第一部分/sivakumar 等 - 2003 - photo-oxidation of p740, the primary electron dono.pdf	-
[22]	pdf20231221 cm-1 infrared 第一部分/aran-ais 等 - 2011 - on the behavior of the pt(100) and vicinal surface.pdf	-
[23]	0816 ftir cm_1 peak wos/yuan 等 - 1999 - characterization of co- and h-2-adsorbed au6pt-pho.pdf	-
[24]	0816 ftir cm_1 peak wos/mathiowitz 等 - 1993 - morphological characterization of bioerodible poly.pdf	-
[25]	Stavrakis 等 - 2002 - Decay of the transient Cu-B-CO complex is accompan	-
[26]	Starowicz 等 - 2014 - Alumina-based nanoparticles obtained by anodic dis	-
[27]	Senger 等 - 2018 - Infrared Characterization of the Bidirectional Oxy	-
[28]	Rasko 等 - 2007 - Characterization of Au-RhTiO2 catalysts by CO ads	-
[29]	Wankhede 和 Haram - 2003 - Synthesis and characterization of Cd-DMSO complex	-
[S1]	Kert 等 - 2021 - Application of Fragrance Microcapsules onto Cotton	13
[S5]	Sen 等 - 2010 - Fluorescence and FTIR Spectra Analysis of Trans-A(	9
[S6]	Arivazhagan 和 Rexalin - 2013 - Vibrational spectra, UV-vis spectral analysis and	5
[RC2953]	Delgado 和 Young - 2021 - Modelling ATR-FTIR Spectra of Dental Bonding Syste	11

No.

Title

Page

[1]

Rajendran 等 - 2013 -

[2]

Purba 等 - 2023 - Novel method of hydrolysed collagen extraction fro

[3]

Pulyalina 等 - 2022 - Effect of ionic liquid on formation of copolyimide

[4]

Naseem 等 - 2020 - Mesoporous ZnAl2Si10O24 nanofertilizers enable hig

[5]

Goldsztein 等 - 2010 - Gastric ATPase phosphorylationdephosphorylation m

[6]

Espinosa-Velazquez 等 - 2018 - Rapid physicochemical characterization of innovati

[7]

Chaparro 等 - 2023 - Biowaxes from Palm Oil as Promising Candidates for

[8]

Butova 等 - 2023 - In Situ FTIR Spectroscopy for Scanning Accessible

[9]

Baldassarre 等 - 2020 - Crystal Chemistry and Luminescence Properties of E

[10]

Athinarayanan 等 - 2020 - Fabrication of Biogenic Silica Nanostructures from

[11]

pdf20231221 cm-1 infrared 第一部分/duband 等 - 2012 - laryngeal teflonoma identified by fourier-transfor.pdf

[12]

0816 ftir cm_1 peak wos/braiman 等 - 1988 - vibrational spectroscopy of bacteriorhodopsin muta.pdf

[13]

Wang 等 - 2022 - Dentin collagen denaturation status assessed by co

[14]

Retnoningtyas 等 - 2022 - Synthesis and Characterization of Methionine-Funct

[15]

Mansour 等 - 2022 - Green Synthesis of Zinc Oxide Nanoparticles Using

[16]

Gutierrez 等 - 2012 - Liquid phase hydrogenation of crotonaldehyde over

[17]

Blanco 等 - 2020 - Acidic Properties of Alkaline-Earth Phosphates Det

[18]

Al-Shdefat 等 - 2023 - Ribociclib Hybrid Lipid-Polymer Nanoparticle Prepa

[19]

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

[20]

Affatato 等 - 2012 - In vitro wear performance of standard, crosslinked

[21]

pdf20231221 cm-1 infrared 第一部分/sivakumar 等 - 2003 - photo-oxidation of p740, the primary electron dono.pdf

[22]

pdf20231221 cm-1 infrared 第一部分/aran-ais 等 - 2011 - on the behavior of the pt(100) and vicinal surface.pdf

[23]

0816 ftir cm_1 peak wos/yuan 等 - 1999 - characterization of co- and h-2-adsorbed au6pt-pho.pdf

[24]

0816 ftir cm_1 peak wos/mathiowitz 等 - 1993 - morphological characterization of bioerodible poly.pdf

[25]

Stavrakis 等 - 2002 - Decay of the transient Cu-B-CO complex is accompan

[26]

Starowicz 等 - 2014 - Alumina-based nanoparticles obtained by anodic dis

[27]

Senger 等 - 2018 - Infrared Characterization of the Bidirectional Oxy

[28]

Rasko 等 - 2007 - Characterization of Au-RhTiO2 catalysts by CO ads

[29]

Wankhede 和 Haram - 2003 - Synthesis and characterization of Cd-DMSO complex

[S1]

Kert 等 - 2021 - Application of Fragrance Microcapsules onto Cotton

[S5]

Sen 等 - 2010 - Fluorescence and FTIR Spectra Analysis of Trans-A(

[S6]

Arivazhagan 和 Rexalin - 2013 - Vibrational spectra, UV-vis spectral analysis and

[RC2953]

Delgado 和 Young - 2021 - Modelling ATR-FTIR Spectra of Dental Bonding Syste

Aromatic methacrylate-based material likely containing a silica/siloxane component

FTIR Spectrum Analysis Report

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