EVA PE=1-9

Rank	Match %	Compound Name	Formula / SMILES	Library preview	Action
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Rank

Match %

Compound Name

Formula / SMILES

Library preview

Action

Reference candidates load with this Top-15 workbench.

Evidence

Key evidence

لائبریری معروف مماثلت

EVA PE=1-9 #65 | match 89.3%

مواد کی سمت

Ethylene-vinyl acetate copolymer (EVA) The sample is identified as an ethylene-vinyl acetate (EVA) copolymer with high spectral similarity to the library entry EVA PE=1-9. The spectral features are dominated by the ester carbonyl at 1732 cm⁻¹, C–O stretching at 1112 and 1237 cm⁻¹, and strong aliphatic C–H bands at 2917, 2849, 2955 cm⁻¹ together with the CH₂ rocking at 720 cm⁻¹, all consistent with a polyethylene backbone substituted with acetate ester side groups.

Supporting peaks

720 cm-1 757 cm-1 1112 cm-1 1237 cm-1 1377 cm-1 1462 cm-1 1555 cm-1 1732 cm-1

Supporting groups

methyl alkyl_c_h aromatic o_c_o amide ester c_o

Support

Evidence supporting the conclusion

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

The sample is identified as an ethylene-vinyl acetate (EVA) copolymer with high spectral similarity to the library entry EVA PE=1-9. The spectral features are dominated by the ester carbonyl at 1732 cm⁻¹, C–O stretching at 1112 and 1237 cm⁻¹, and strong aliphatic C–H bands at 2917, 2849, 2955 cm⁻¹ together with the CH₂ rocking at 720 cm⁻¹, all consistent with a polyethylene backbone substituted with acetate ester side groups.
The library search returns EVA PE=1-9 as the top match (similarity 0.86) and the next candidates (paraffin, Cera Flava, 5%EVA PE, 10%EVA PE, ethylene vinyl acetate) cluster around EVA‑polyethylene wax chemistries, reinforcing the EVA direction.
The coexistence of strong ester carbonyl, C–O, and prominent alkane-type C–H bands is chemically coherent with a vinyl acetate-modified polyethylene.
The direct evidence from [7] explicitly assigns the 1732 cm⁻¹ peak to a carbonyl group, and the supporting data from [1] and [2] confirm the aliphatic C–H stretching assignments at 2849, 2917, and 2955 cm⁻¹.
The strong band at 1732 cm⁻¹ is attributable to the ester carbonyl (C=O) stretching vibration of the vinyl acetate comonomer.
Ester C–O stretching bands are observed at 1112 cm⁻¹ and 1237 cm⁻¹, the latter corresponding to the asymmetric C–O–C mode typical of acetate esters.
The prominent pair at 2917 cm⁻¹ (asymmetric) and 2849 cm⁻¹ (symmetric) arises from methylene (CH₂) stretching of the polyethylene backbone.
The CH₂ rocking band at 720 cm⁻¹ confirms the presence of extended methylene sequences, further supporting the polyethylene character of the copolymer.
A methyl deformation band appears near 1377 cm⁻¹, consistent with the terminal CH₃ groups and the methyl group of the acetate moiety.
Many of these assignments are corroborated by literature reports, e.g., the long-chain methylene rocking at 720 cm⁻¹ is assigned in processed hydrocarbon-rich products [13] and the carbonyl at 1732 cm⁻¹ is attributed to a carbonyl group in hemicellulose and related oxygenated aliphatic systems [7].
Major peak assignments include 2917: Related literature: Aliphatic C-H stretching modes (asymmetric CH2, symmetric CH2, and asymmetric CH3) | Direct reference: alkyl c h; c o single bond; 2849: Related literature: Aliphatic C-H stretching modes (asymmetric CH2, symmetric CH2, and asymmetric CH3); 1462: Related literature: Aliphatic CH2/CH3 bending and Amide III region | Direct reference: alkyl c h; c o single bond; 720: Related literature: Long-chain methylene rocking (CH₂)ₙ | Direct reference: alkyl c h; c o single bond.

Limitations

Evidence that limits the conclusion

A band at 1555 cm⁻¹ is attributed in literature to N–H bending (amide II) [5], a functional group absent in pure EVA; this band is not characteristic of the expected copolymer chemistry.
The moderate band near 757 cm⁻¹ cannot be confidently assigned to a functional group that is typical of EVA; direct literature linking it to CF₂ bending is irrelevant to this polymer.
The precise vinyl acetate content cannot be deduced from the FTIR spectrum alone; the library hit EVA PE=1-9 suggests a low proportion of vinyl acetate, but the actual ratio should be confirmed by an independent method.
Weak or unexplained features such as the 1555 cm⁻¹ band could arise from a minor additive, residual processing aid, or surface contaminant, adding uncertainty to the purity assessment.

Recommendation

Suggested next verification

Perform quantitative analysis of the vinyl acetate content by hydrolysis and titration, NMR spectroscopy, or calibrated FTIR method.
Use differential scanning calorimetry (DSC) to confirm the melting behavior and crystallinity of the polyethylene phase, verifying it is indeed a copolymer rather than a blend.
If the 1555 cm⁻¹ band persists after purification, apply complementary techniques (e.g., Raman, XPS, or extraction) to identify possible amide‑containing additives or contaminants.

Index	Characteristic	Wavenumber	Absorbance	Evidence	One-line interpretation	Citation	Confidence
1	★	2917	1.00	ادب سے تعاون یافتہ تفویض	بینڈ 2917 cm-1 کو alkyl C-H[18] تفویض کیا گیا ہے۔	[18]	LLM اعتماد
2	★	2849	0.65	ادب سے تعاون یافتہ تفویض	بینڈ 2849 cm-1 کو alkyl C-H[18] تفویض کیا گیا ہے۔	[18]	LLM اعتماد
3	★	1462	0.33	ادب سے تعاون یافتہ تفویض	بینڈ 1462 cm-1 کو paraffin[10] تفویض کیا گیا ہے۔	[10]	LLM اعتماد
4	★	720	0.22	مشابہ ادبی اسائنمنٹ	بینڈ 720 cm-1 کو Long chain methylene rocking (CH₂)ₙ[13] تفویض کیا گیا ہے۔	[13]	LLM اعتماد
5	★	2955	0.21	ادب سے تعاون یافتہ تفویض	بینڈ 2955 cm-1 کو alkyl C-H[19] تفویض کیا گیا ہے۔	[19]	LLM اعتماد
6	·	1555	0.16	-	-	-	-
7	★	1732	0.14	ادب سے تعاون یافتہ تفویض	بینڈ 1732 cm-1 کو carbonyl[17] تفویض کیا گیا ہے۔	[17]	LLM اعتماد
8	★	1377	0.11	ادب سے تعاون یافتہ تفویض	بینڈ 1377 cm-1 کو C-H asymmetric + symmetric bending[6] تفویض کیا گیا ہے۔	[6]	LLM اعتماد
9	★	1237	0.10	ادب سے تعاون یافتہ تفویض	بینڈ 1237 cm-1 کو C-O single bond[16] تفویض کیا گیا ہے۔	[16]	LLM اعتماد
10	★	1112	0.08	ادب سے تعاون یافتہ تفویض	بینڈ 1112 cm-1 کو C-O stretching (ether/ester/alcohol)[11][14][15] تفویض کیا گیا ہے۔	[11], [14], [15]	LLM اعتماد
11	·	757	0.05	-	-	-	-

Index

Characteristic

Wavenumber

Absorbance

Evidence

One-line interpretation

Citation

Confidence

★

2917

1.00

ادب سے تعاون یافتہ تفویض

بینڈ 2917 cm-1 کو alkyl C-H[18] تفویض کیا گیا ہے۔

[18]

LLM اعتماد

★

2849

0.65

ادب سے تعاون یافتہ تفویض

بینڈ 2849 cm-1 کو alkyl C-H[18] تفویض کیا گیا ہے۔

[18]

LLM اعتماد

★

1462

0.33

ادب سے تعاون یافتہ تفویض

بینڈ 1462 cm-1 کو paraffin[10] تفویض کیا گیا ہے۔

[10]

LLM اعتماد

★

720

0.22

مشابہ ادبی اسائنمنٹ

بینڈ 720 cm-1 کو Long chain methylene rocking (CH₂)ₙ[13] تفویض کیا گیا ہے۔

[13]

LLM اعتماد

★

2955

0.21

ادب سے تعاون یافتہ تفویض

بینڈ 2955 cm-1 کو alkyl C-H[19] تفویض کیا گیا ہے۔

[19]

LLM اعتماد

1555

0.16

★

1732

0.14

ادب سے تعاون یافتہ تفویض

بینڈ 1732 cm-1 کو carbonyl[17] تفویض کیا گیا ہے۔

[17]

LLM اعتماد

★

1377

0.11

ادب سے تعاون یافتہ تفویض

بینڈ 1377 cm-1 کو C-H asymmetric + symmetric bending[6] تفویض کیا گیا ہے۔

[6]

LLM اعتماد

★

1237

0.10

ادب سے تعاون یافتہ تفویض

بینڈ 1237 cm-1 کو C-O single bond[16] تفویض کیا گیا ہے۔

[16]

LLM اعتماد

★

1112

0.08

ادب سے تعاون یافتہ تفویض

بینڈ 1112 cm-1 کو C-O stretching (ether/ester/alcohol)[11][14][15] تفویض کیا گیا ہے۔

[11], [14], [15]

LLM اعتماد

757

0.05

No.	Title	DOI	Page
[1]	Aamouche 和 Goormaghtigh - 2008 - FTIR-ATR biosensor based on self-assembled phospho	10.3233/spe-2008-0351	-
[2]	Zhao 等 - 2015 - Evaluation of Oil Yield of Oil Shale by Infrared S	10.1007/s40242-015-4364-3	-
[3]	Harstad 等 - 2017 - Enhancement of beta-phase in PVDF films embedded w	10.1063/1.4973596	-
[4]	Fouda 等 - 2022 - Investigate the role of fungal communities associa	10.1038/s41529-022-00296-4	-
[5]	Cojocaru 等 - 2022 - Electrospun Nanofibrous Membranes Based on Citric	10.3390/polym14020294	-
[6]	Cebi - 2021 - Quantification of the Geranium Essential Oil, Palm	10.3390/foods10081848	-
[7]	Boonsuk 等 - 2021 - Structure-properties relationships in alkaline tre	10.1016/j.aiepr.2019.11.003	-
[8]	Arya 等 - 2018 - Effect of variation of different nanofillers on st	10.1007/s11581-016-1784	-
[9]	Arya 和 Sharma - 2018 - Structural, microstructural and electrochemical pr	10.1007/s11581-017-2364-7	-
[10]	Al Jedani 等 - 2020 - A de-waxing methodology for scanning probe microsc	10.1039/d0ay00965b	-
[11]	Arya 和 Sharma - 2018 - Structural, microstructural and electrochemical pr	10.1007/s11581-017-2364-7	46
[12]	Weaver 等 - 2011 - Characterization of Organics Consistent with beta-	10.1371/journal.pone.0028195	5
[13]	Tu-ya 等 - 2010 - Analysis of fingerprints features of infrared spec	10.1016/j.molstruc.2010.01.008	4
[14]	Suresh 等 - 2018 - Investigation of the Thermal and Dielectric Behavi	10.1007/s12633-017-9604-3	6
[15]	Varol 和 Mutlu - 2023 - TGA-FTIR Analysis of Biomass Samples Based on the	10.3390/en16093674	7
[16]	Saadon 和 Osman - 2023 - Effect of Drying Pretreatment on Cellulolytic Enzy	10.3390/pr11041092	6
[17]	Sengupta 等 - 2019 - Graphene oxide as selective transporter of flavono	10.1016/j.saa.2019.02.029	4
[18]	Weaver 等 - 2022 - Microfluidic-mediated self-assembly of phospholipi	10.1016/j.ijpharm.2021.121347	23
[19]	Zhao 等 - 2015 - Evaluation of Oil Yield of Oil Shale by Infrared S	10.1007/s40242-015-4364-3	4

No.

Title

DOI

Page

[1]

Aamouche 和 Goormaghtigh - 2008 - FTIR-ATR biosensor based on self-assembled phospho

10.3233/spe-2008-0351

[2]

Zhao 等 - 2015 - Evaluation of Oil Yield of Oil Shale by Infrared S

10.1007/s40242-015-4364-3

[3]

Harstad 等 - 2017 - Enhancement of beta-phase in PVDF films embedded w