A Comparison of Phenolic Monomers Produced from Different Types of Lignin by Phosphotungstic Acid Catalysts

A Comparison of Phenolic Monomers Produced from Different Types of Lignin by Phosphotungstic Acid Catalysts

Abstract Herein we studied the chemical structure of different types of lignin samples and the potential to prepare phenolic monomers was illustrated by phosphotungstic acid catalysts. Different types of H/G/S lignin components had different structures. The lignin extracted from poplar had the highe...

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Main Authors: Dr. Boyu Du, Dr. Bingyang Liu, Dr. Xing Wang, Prof. Jinghui Zhou
Format: Article
Language:English
Published: Wiley-VCH 2019-05-01
Series:ChemistryOpen
Subjects:
lignin
depolymerization
renewable resources
catalysts
phenolic monomers
Online Access:https://doi.org/10.1002/open.201900088
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spelling doaj-a783878368e941c2939ff7b650fe9dcf2021-03-02T08:44:43ZengWiley-VCHChemistryOpen2191-13632019-05-018564364910.1002/open.201900088A Comparison of Phenolic Monomers Produced from Different Types of Lignin by Phosphotungstic Acid CatalystsDr. Boyu Du0Dr. Bingyang Liu1Dr. Xing Wang2Prof. Jinghui Zhou3Department Liaoning Key Laboratory of Pulp and Papermaking Engineering Dalian Polytechnic University Dalian Liaoning 116034 ChinaDepartment Liaoning Key Laboratory of Pulp and Papermaking Engineering Dalian Polytechnic University Dalian Liaoning 116034 ChinaDepartment Liaoning Key Laboratory of Pulp and Papermaking Engineering Dalian Polytechnic University Dalian Liaoning 116034 ChinaDepartment Liaoning Key Laboratory of Pulp and Papermaking Engineering Dalian Polytechnic University Dalian Liaoning 116034 ChinaAbstract Herein we studied the chemical structure of different types of lignin samples and the potential to prepare phenolic monomers was illustrated by phosphotungstic acid catalysts. Different types of H/G/S lignin components had different structures. The lignin extracted from poplar had the highest molecular weight and β‐O‐4 aryl ether contents, followed by pine and straw lignin samples. After depolymerization by PTA catalyst, the yields of phenolic monomers detected was 8.06 wt % (poplar), 5.44 wt % (pine) and 4.52 wt % (straw), respectively. Further, the ratios of H/G/S in the phenol monomers were also different, indicating that the S, G and H types structural units were continuously transformed with each other during the reaction. In our study, the change in the types of lignin samples resulted into an improvement of the distribution of phenolic products, and also the selectivity of phenolic monomers significantly.https://doi.org/10.1002/open.201900088lignindepolymerizationrenewable resourcescatalystsphenolic monomers
collection DOAJ
language English
format Article
sources DOAJ
author Dr. Boyu Du
Dr. Bingyang Liu
Dr. Xing Wang
Prof. Jinghui Zhou
spellingShingle Dr. Boyu Du
Dr. Bingyang Liu
Dr. Xing Wang
Prof. Jinghui Zhou
A Comparison of Phenolic Monomers Produced from Different Types of Lignin by Phosphotungstic Acid Catalysts
ChemistryOpen
lignin
depolymerization
renewable resources
catalysts
phenolic monomers
author_facet Dr. Boyu Du
Dr. Bingyang Liu
Dr. Xing Wang
Prof. Jinghui Zhou
author_sort Dr. Boyu Du
title A Comparison of Phenolic Monomers Produced from Different Types of Lignin by Phosphotungstic Acid Catalysts
title_short A Comparison of Phenolic Monomers Produced from Different Types of Lignin by Phosphotungstic Acid Catalysts
title_full A Comparison of Phenolic Monomers Produced from Different Types of Lignin by Phosphotungstic Acid Catalysts
title_fullStr A Comparison of Phenolic Monomers Produced from Different Types of Lignin by Phosphotungstic Acid Catalysts
title_full_unstemmed A Comparison of Phenolic Monomers Produced from Different Types of Lignin by Phosphotungstic Acid Catalysts
title_sort comparison of phenolic monomers produced from different types of lignin by phosphotungstic acid catalysts
publisher Wiley-VCH
series ChemistryOpen
issn 2191-1363
publishDate 2019-05-01
description Abstract Herein we studied the chemical structure of different types of lignin samples and the potential to prepare phenolic monomers was illustrated by phosphotungstic acid catalysts. Different types of H/G/S lignin components had different structures. The lignin extracted from poplar had the highest molecular weight and β‐O‐4 aryl ether contents, followed by pine and straw lignin samples. After depolymerization by PTA catalyst, the yields of phenolic monomers detected was 8.06 wt % (poplar), 5.44 wt % (pine) and 4.52 wt % (straw), respectively. Further, the ratios of H/G/S in the phenol monomers were also different, indicating that the S, G and H types structural units were continuously transformed with each other during the reaction. In our study, the change in the types of lignin samples resulted into an improvement of the distribution of phenolic products, and also the selectivity of phenolic monomers significantly.
topic lignin
depolymerization
renewable resources
catalysts
phenolic monomers
url https://doi.org/10.1002/open.201900088
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