Synthesis and characterization of aryl boron-containing thermoplastic phenolic resin with high thermal decomposition temperature and char yield

Junjun Feng; Lixin Chen; Junwei Gu; Zeyu He; Jin Yun; Xiaobin Wang

doi:10.1007/s10965-016-0966-9

Synthesis and characterization of aryl boron-containing thermoplastic phenolic resin with high thermal decomposition temperature and char yield

Junjun Feng, Lixin Chen, Junwei Gu, Zeyu He, Jin Yun, Xiaobin Wang

School of Chemistry and Chemical Engineering

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

17 Scopus citations

Abstract

Phenol, zinc acetate dihydrate and paraformaldehyde are firstly performed to synthesize thermoplastic phenolic resin (PR), then phenylboronic acid (PBA) and other two boron compounds (4-hydroxymethyl phenylboronic acid & boronic acid) are introduced to fabricate the boron-containing thermoplastic phenolic resins (BPRs). The corresponding molecular structure, softening points, thermal decomposition temperature and char yield ratio of the BPRs are characterized and investigated by FTIR, NMR, XPS and TGA. Compared to pure thermoplastic PR, all the BPRs present relatively higher softening points, more excellent thermal decomposition temperature and higher char yield values. BPR-a exhibits the optimal thermal decomposition temperature (T₅ of 317.4 °C) and char yield ratio at 800 °C (69.6 %).

Original language	English
Article number	97
Journal	Journal of Polymer Research
Volume	23
Issue number	5
DOIs	https://doi.org/10.1007/s10965-016-0966-9
State	Published - 1 May 2016

Keywords

Aryl boron-containing thermoplastic phenolic resin
Char yield ratio
Softening points
Thermal stabilities

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10.1007/s10965-016-0966-9

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title = "Synthesis and characterization of aryl boron-containing thermoplastic phenolic resin with high thermal decomposition temperature and char yield",

abstract = "Phenol, zinc acetate dihydrate and paraformaldehyde are firstly performed to synthesize thermoplastic phenolic resin (PR), then phenylboronic acid (PBA) and other two boron compounds (4-hydroxymethyl phenylboronic acid & boronic acid) are introduced to fabricate the boron-containing thermoplastic phenolic resins (BPRs). The corresponding molecular structure, softening points, thermal decomposition temperature and char yield ratio of the BPRs are characterized and investigated by FTIR, NMR, XPS and TGA. Compared to pure thermoplastic PR, all the BPRs present relatively higher softening points, more excellent thermal decomposition temperature and higher char yield values. BPR-a exhibits the optimal thermal decomposition temperature (T5 of 317.4 °C) and char yield ratio at 800 °C (69.6 %).",

keywords = "Aryl boron-containing thermoplastic phenolic resin, Char yield ratio, Softening points, Thermal stabilities",

author = "Junjun Feng and Lixin Chen and Junwei Gu and Zeyu He and Jin Yun and Xiaobin Wang",

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TY - JOUR

T1 - Synthesis and characterization of aryl boron-containing thermoplastic phenolic resin with high thermal decomposition temperature and char yield

AU - Feng, Junjun

AU - Chen, Lixin

AU - Gu, Junwei

AU - He, Zeyu

AU - Yun, Jin

AU - Wang, Xiaobin

PY - 2016/5/1

Y1 - 2016/5/1

N2 - Phenol, zinc acetate dihydrate and paraformaldehyde are firstly performed to synthesize thermoplastic phenolic resin (PR), then phenylboronic acid (PBA) and other two boron compounds (4-hydroxymethyl phenylboronic acid & boronic acid) are introduced to fabricate the boron-containing thermoplastic phenolic resins (BPRs). The corresponding molecular structure, softening points, thermal decomposition temperature and char yield ratio of the BPRs are characterized and investigated by FTIR, NMR, XPS and TGA. Compared to pure thermoplastic PR, all the BPRs present relatively higher softening points, more excellent thermal decomposition temperature and higher char yield values. BPR-a exhibits the optimal thermal decomposition temperature (T5 of 317.4 °C) and char yield ratio at 800 °C (69.6 %).

AB - Phenol, zinc acetate dihydrate and paraformaldehyde are firstly performed to synthesize thermoplastic phenolic resin (PR), then phenylboronic acid (PBA) and other two boron compounds (4-hydroxymethyl phenylboronic acid & boronic acid) are introduced to fabricate the boron-containing thermoplastic phenolic resins (BPRs). The corresponding molecular structure, softening points, thermal decomposition temperature and char yield ratio of the BPRs are characterized and investigated by FTIR, NMR, XPS and TGA. Compared to pure thermoplastic PR, all the BPRs present relatively higher softening points, more excellent thermal decomposition temperature and higher char yield values. BPR-a exhibits the optimal thermal decomposition temperature (T5 of 317.4 °C) and char yield ratio at 800 °C (69.6 %).

KW - Aryl boron-containing thermoplastic phenolic resin

KW - Char yield ratio

KW - Softening points

KW - Thermal stabilities

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VL - 23

JO - Journal of Polymer Research

JF - Journal of Polymer Research

IS - 5

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ER -

Synthesis and characterization of aryl boron-containing thermoplastic phenolic resin with high thermal decomposition temperature and char yield

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Keywords

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