STUDY ON THE STRUCTURAL CHANGE OF LIGNIN DURING AUTO-CATALYZED ETHANOL-WATER PULPING OF ASPEN BY 1H-NMR

STUDY ON THE STRUCTURAL CHANGE OF LIGNIN DURING AUTO-CATALYZED ETHANOL-WATER PULPING OF ASPEN BY 1H-NMR

This study concerns the structural change of lignin during auto-catalyzed ethanol-water pulping of aspen by 1H-NMR. The results showed that the linkages of alkyl-aryl ether of lignin, such as the α-ether linkages (α-O-4) and the β-ether linkages (β-O-4), were broken and the alkyl part formed carbeni...

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Bibliographic Details
Main Authors: Jinghui Zhou, Xinjin Sui, Haiqiang Shi
Format: Article
Language:English
Published: North Carolina State University 2009-08-01
Series:BioResources
Subjects:
Auto-catalyzed
Ethanol-water
Pulping
Aspen
Lignin structure
1H-NMR
Mechanism of delignification
Online Access:http://ojs.cnr.ncsu.edu/index.php/BioRes/article/viewFile/BioRes_04_3_0979_Struc_Change_Lignin_Acidic/397
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spelling doaj-46feed4648e9422c8deb9812c19f2da22020-11-24T23:30:57ZengNorth Carolina State UniversityBioResources1930-21262009-08-0143979985STUDY ON THE STRUCTURAL CHANGE OF LIGNIN DURING AUTO-CATALYZED ETHANOL-WATER PULPING OF ASPEN BY 1H-NMRJinghui ZhouXinjin SuiHaiqiang ShiThis study concerns the structural change of lignin during auto-catalyzed ethanol-water pulping of aspen by 1H-NMR. The results showed that the linkages of alkyl-aryl ether of lignin, such as the α-ether linkages (α-O-4) and the β-ether linkages (β-O-4), were broken and the alkyl part formed carbenium at the Cα and Cβ of the aliphatic branch. Meanwhile, the aryl part of ether accepted one H+ and formed phenol. Because of the electronegative effect originating from the electron cloud of phenyl, partial carbenium of Cβ was rearranged. Due to its ether or hydroxyl linkage, rearranging to Cβ, the Cα was changed into carbenium and formed a new β-O-4 alkyl-aryl ether. The β-O-4 alkyl-aryl ether was not stable and broken further. So the large molecule of lignin was disintegrated into a smaller one and dissolved into ethanol. Finally, the α+ carbenium reformed α-O-4 linkages of ether with phenol.http://ojs.cnr.ncsu.edu/index.php/BioRes/article/viewFile/BioRes_04_3_0979_Struc_Change_Lignin_Acidic/397Auto-catalyzedEthanol-waterPulpingAspenLignin structure1H-NMRMechanism of delignification
collection DOAJ
language English
format Article
sources DOAJ
author Jinghui Zhou
Xinjin Sui
Haiqiang Shi
spellingShingle Jinghui Zhou
Xinjin Sui
Haiqiang Shi
STUDY ON THE STRUCTURAL CHANGE OF LIGNIN DURING AUTO-CATALYZED ETHANOL-WATER PULPING OF ASPEN BY 1H-NMR
BioResources
Auto-catalyzed
Ethanol-water
Pulping
Aspen
Lignin structure
1H-NMR
Mechanism of delignification
author_facet Jinghui Zhou
Xinjin Sui
Haiqiang Shi
author_sort Jinghui Zhou
title STUDY ON THE STRUCTURAL CHANGE OF LIGNIN DURING AUTO-CATALYZED ETHANOL-WATER PULPING OF ASPEN BY 1H-NMR
title_short STUDY ON THE STRUCTURAL CHANGE OF LIGNIN DURING AUTO-CATALYZED ETHANOL-WATER PULPING OF ASPEN BY 1H-NMR
title_full STUDY ON THE STRUCTURAL CHANGE OF LIGNIN DURING AUTO-CATALYZED ETHANOL-WATER PULPING OF ASPEN BY 1H-NMR
title_fullStr STUDY ON THE STRUCTURAL CHANGE OF LIGNIN DURING AUTO-CATALYZED ETHANOL-WATER PULPING OF ASPEN BY 1H-NMR
title_full_unstemmed STUDY ON THE STRUCTURAL CHANGE OF LIGNIN DURING AUTO-CATALYZED ETHANOL-WATER PULPING OF ASPEN BY 1H-NMR
title_sort study on the structural change of lignin during auto-catalyzed ethanol-water pulping of aspen by 1h-nmr
publisher North Carolina State University
series BioResources
issn 1930-2126
publishDate 2009-08-01
description This study concerns the structural change of lignin during auto-catalyzed ethanol-water pulping of aspen by 1H-NMR. The results showed that the linkages of alkyl-aryl ether of lignin, such as the α-ether linkages (α-O-4) and the β-ether linkages (β-O-4), were broken and the alkyl part formed carbenium at the Cα and Cβ of the aliphatic branch. Meanwhile, the aryl part of ether accepted one H+ and formed phenol. Because of the electronegative effect originating from the electron cloud of phenyl, partial carbenium of Cβ was rearranged. Due to its ether or hydroxyl linkage, rearranging to Cβ, the Cα was changed into carbenium and formed a new β-O-4 alkyl-aryl ether. The β-O-4 alkyl-aryl ether was not stable and broken further. So the large molecule of lignin was disintegrated into a smaller one and dissolved into ethanol. Finally, the α+ carbenium reformed α-O-4 linkages of ether with phenol.
topic Auto-catalyzed
Ethanol-water
Pulping
Aspen
Lignin structure
1H-NMR
Mechanism of delignification
url http://ojs.cnr.ncsu.edu/index.php/BioRes/article/viewFile/BioRes_04_3_0979_Struc_Change_Lignin_Acidic/397
work_keys_str_mv AT jinghuizhou studyonthestructuralchangeofligninduringautocatalyzedethanolwaterpulpingofaspenby1hnmr
AT xinjinsui studyonthestructuralchangeofligninduringautocatalyzedethanolwaterpulpingofaspenby1hnmr
AT haiqiangshi studyonthestructuralchangeofligninduringautocatalyzedethanolwaterpulpingofaspenby1hnmr
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