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|d OPELS
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|a 9780443190209
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|z 9780443190193
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|a (OCoLC)1432602442
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|a TP248.65.P62
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|a 620.1/92
|2 23/eng/20240604
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|a High performance plant phenol-based polymers /
|c edited by Samy Madbouly, Chaoqun Zhang.
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|a Amsterdam :
|b Elsevier,
|c 2024.
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| 300 |
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|a 1 online resource (372 p.)
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|a text
|b txt
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|a online resource
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|a Description based upon print version of record.
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|a Front Cover -- HIGH PERFORMANCEPLANT PHENOL-BASED POLYMERS -- HIGH PERFORMANCEPLANT PHENOL-BASED POLYMERS -- Copyright -- Contents -- List of contributors -- 1 -- Introduction -- 1. Classification and chemical structure of typical plant phenolics -- 2. Properties of typical plant phenolics -- 2.1 Reaction of plant phenolics with polysaccharides and proteins -- 2.2 Complexation of plant phenolics-metal ions -- 2.3 Antioxidant properties of plant phenolics -- 3. Major source of plant phenolics -- 3.1 Soy isoflavones -- 3.2 Catechins -- 3.3 Quercetin -- 3.4 Anthocyanin -- 3.5 Procyanidins
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|a 3.6 Curcumin -- 4. Extraction and processing of plant phenolics -- 4.1 Extraction of plant polyphenols -- 4.1.1 Biological enzymatic extraction -- 4.1.2 Ultrasonic extraction -- 4.1.3 Microwave extraction -- 4.1.4 Membrane technology extraction -- 4.1.5 Supercritical fluid extraction technology -- 5. Application of plant polyphenols -- 5.1 Food additives -- 5.2 Cosmetic industry -- 5.3 Others -- 6. Outlook -- References -- 2 -- Resources of plant phenols -- 1. Introduction -- 2. Vanillin -- 2.1 Structure and properties of vanillin -- 2.2 Applications of vanillin -- 3. Vanillyl alcohol
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|a 3.1 Structure and properties of vanillin alcohol -- 3.2 Applications of vanillin alcohol -- 4. Vanillic acid -- 4.1 Structure and properties of vanillin acid -- 4.2 Applications of vanillin acid -- 5. Eugenol -- 5.1 Structure and properties of eugenol -- 5.2 Applications of eugenol -- 6. Syringaldehyde -- 6.1 Structure and properties of syringaldehyde -- 6.2 Applications of syringaldehyde -- 7. Cardanol -- 7.1 Structure and properties of cardanol -- 7.2 Application of cardanol in synthesizing drugs -- 7.3 Application of cardanol in plasticizer -- 8. Catechol
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|a 8.1 Structure and properties of catechol -- 8.2 Application of catechol in hydrogel -- 8.3 Application of catechol in antibacterial material -- 8.4 Application of catechol in adhesive -- 9. Urushiol -- 9.1 Structure and properties of urushiol -- 9.2 Application of urushiol in resin -- 9.3 Application of urushiol in coating material -- 10. Ginkgolic acid -- 10.1 Structure and properties of ginkgolic acid -- 10.2 Application of anthocyanin in antibacterial -- 10.3 Application of anthocyanin in anti-inflammatory -- 11. Ferulic acid -- 11.1 Structure and properties of ferulic acid
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|a 11.2 Applications of ferulic acid -- 12. Anthocyanin -- 12.1 Structure and properties of anthocyanin -- 12.2 Application of anthocyanin in anticancer -- 12.3 Application of anthocyanin in anti-inflammation -- 12.4 Application of anthocyanin in food colorant -- 13. Quercetin -- 13.1 Structure and properties of quercetin -- 13.2 Applications of quercetin -- 14. Curcumin -- 14.1 Structure and properties of curcumin -- 14.2 Application of curcumin in food packaging -- 14.3 Application of curcumin in biomedical field -- 15. Tannic acid -- 15.1 Structure and properties of tannic acid
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| 500 |
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|a 15.2 Applications of tannic acid
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| 500 |
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|a ScienceDirect eBook - Materials Science 2024 [EBCMS24]
|5 TMurS
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| 650 |
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|a Plant polymers.
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| 700 |
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|a Madbouly, Samy.
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| 700 |
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|a Zhang, Chaoqun.
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| 730 |
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|a WORLDSHARE SUB RECORDS
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|i Print version:
|a Madbouly, Samy
|t High Performance Plant Phenol-Based Polymers
|d San Diego : Elsevier,c2024
|z 9780443190193
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|a Middle Tennessee State University
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|e TP248.65.P62
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