Structural characterization of sugarcane lignins extracted from different protic ionic liquid pretreatments

Thaynara C. Pin; Viviane M. Nascimento; Aline C. Costa; Yunqiao Pu; Arthur J. Ragauskas; Sarita C. Rabelo

doi:10.1016/j.renene.2020.07.078

Structural characterization of sugarcane lignins extracted from different protic ionic liquid pretreatments

Thaynara C. Pin, Viviane M. Nascimento, Aline C. Costa, Yunqiao Pu, Arthur J. Ragauskas, Sarita C. Rabelo

Biomaterials and Biomass Characterizatio

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Abstract

Previous studies based on protic ionic liquids have shown them to be effective for extracting lignins from biomass. Moreover, ILs synthesized with amine cations can promote the insertion of nitrogen into lignin, favoring its valorization for industrial applications. In this study, lignins extracted from sugarcane bagasse by eight different PILs were analyzed. Several techniques of characterization were employed (2D HSQC NMR, 31P NMR, GPC, Py-GC/MS, TGA, FTIR, and elemental analysis), seeking a deeper understanding of lignin structure post-PILS treatment. In particular, lignin obtained with acetate and lactate anions with monoethanolamonium cations showed similar structural compositions. Lignins obtained from ethylenediamonium cation combined anions acetate and lactate exhibited relatively higher molecular weights compared to the other lignins studied. The elemental analysis of these lignins further revealed the presence of nitrogen in their structures, suggesting that amination occurred. In this work we used PILs not yet reported in the literature for this purpose, and consequently obtained lignins with specific structures. Overall, our results demonstrated that depending on the PILs used, lignins with distinct properties could be obtained which might be used for value-added applications. This work covered new advances in elucidation of lignin chemical structure and opened a new path for lignin valorization.

Original language	English
Pages (from-to)	579-592
Number of pages	14
Journal	Renewable Energy
Volume	161
DOIs	https://doi.org/10.1016/j.renene.2020.07.078
State	Published - Dec 2020

Funding

The authors acknowledge the National Council for Scientific and Technological Development (CNPq) (Grant numbers: 141393/2018-1, 204710/2018-9, 304944/2018-1 and 405934/2018-1), the Coordination of Superior Level Staff Improvement (Capes) (Grant number: 23038.007211/2012-93, Finance Code 001) and São Paulo Research Foundation (Fapesp) (Grant number: 2015/20630-4) for financial support. Also, would like to thank Pedro Nakasu for GPC analysis, Joint Institute for Biological Sciences (JIBS/ORNL) for fellowship on 31P and 2D NMR analysis and Brazilian Biorenewables National Laboratory (LNBR/CNPEM) for fellowship infrastructure available and Brazilian Biosciences National Laboratory (LNBIO/CNPEM), in particular, Silvana A. Rocco for NMR analysis (22872). The authors acknowledge the National Council for Scientific and Technological Development (CNPq) (Grant numbers: 141393/2018-1 , 204710/2018-9 , 304944/2018-1 and 405934/2018-1 ), the Coordination of Superior Level Staff Improvement (Capes) (Grant number: 23038.007211/2012-93 , Finance Code 001 ) and São Paulo Research Foundation (Fapesp) (Grant number: 2015/20630-4 ) for financial support.

Keywords

Biorefinery
Chemical features
Ionic liquid
Lignin characterization
Radar classification
Sugarcane bagasse

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title = "Structural characterization of sugarcane lignins extracted from different protic ionic liquid pretreatments",

abstract = "Previous studies based on protic ionic liquids have shown them to be effective for extracting lignins from biomass. Moreover, ILs synthesized with amine cations can promote the insertion of nitrogen into lignin, favoring its valorization for industrial applications. In this study, lignins extracted from sugarcane bagasse by eight different PILs were analyzed. Several techniques of characterization were employed (2D HSQC NMR, 31P NMR, GPC, Py-GC/MS, TGA, FTIR, and elemental analysis), seeking a deeper understanding of lignin structure post-PILS treatment. In particular, lignin obtained with acetate and lactate anions with monoethanolamonium cations showed similar structural compositions. Lignins obtained from ethylenediamonium cation combined anions acetate and lactate exhibited relatively higher molecular weights compared to the other lignins studied. The elemental analysis of these lignins further revealed the presence of nitrogen in their structures, suggesting that amination occurred. In this work we used PILs not yet reported in the literature for this purpose, and consequently obtained lignins with specific structures. Overall, our results demonstrated that depending on the PILs used, lignins with distinct properties could be obtained which might be used for value-added applications. This work covered new advances in elucidation of lignin chemical structure and opened a new path for lignin valorization.",

keywords = "Biorefinery, Chemical features, Ionic liquid, Lignin characterization, Radar classification, Sugarcane bagasse",

author = "Pin, \{Thaynara C.\} and Nascimento, \{Viviane M.\} and Costa, \{Aline C.\} and Yunqiao Pu and Ragauskas, \{Arthur J.\} and Rabelo, \{Sarita C.\}",

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year = "2020",

month = dec,

doi = "10.1016/j.renene.2020.07.078",

language = "English",

volume = "161",

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T1 - Structural characterization of sugarcane lignins extracted from different protic ionic liquid pretreatments

AU - Pin, Thaynara C.

AU - Nascimento, Viviane M.

AU - Costa, Aline C.

AU - Pu, Yunqiao

AU - Ragauskas, Arthur J.

AU - Rabelo, Sarita C.

PY - 2020/12

Y1 - 2020/12

N2 - Previous studies based on protic ionic liquids have shown them to be effective for extracting lignins from biomass. Moreover, ILs synthesized with amine cations can promote the insertion of nitrogen into lignin, favoring its valorization for industrial applications. In this study, lignins extracted from sugarcane bagasse by eight different PILs were analyzed. Several techniques of characterization were employed (2D HSQC NMR, 31P NMR, GPC, Py-GC/MS, TGA, FTIR, and elemental analysis), seeking a deeper understanding of lignin structure post-PILS treatment. In particular, lignin obtained with acetate and lactate anions with monoethanolamonium cations showed similar structural compositions. Lignins obtained from ethylenediamonium cation combined anions acetate and lactate exhibited relatively higher molecular weights compared to the other lignins studied. The elemental analysis of these lignins further revealed the presence of nitrogen in their structures, suggesting that amination occurred. In this work we used PILs not yet reported in the literature for this purpose, and consequently obtained lignins with specific structures. Overall, our results demonstrated that depending on the PILs used, lignins with distinct properties could be obtained which might be used for value-added applications. This work covered new advances in elucidation of lignin chemical structure and opened a new path for lignin valorization.

AB - Previous studies based on protic ionic liquids have shown them to be effective for extracting lignins from biomass. Moreover, ILs synthesized with amine cations can promote the insertion of nitrogen into lignin, favoring its valorization for industrial applications. In this study, lignins extracted from sugarcane bagasse by eight different PILs were analyzed. Several techniques of characterization were employed (2D HSQC NMR, 31P NMR, GPC, Py-GC/MS, TGA, FTIR, and elemental analysis), seeking a deeper understanding of lignin structure post-PILS treatment. In particular, lignin obtained with acetate and lactate anions with monoethanolamonium cations showed similar structural compositions. Lignins obtained from ethylenediamonium cation combined anions acetate and lactate exhibited relatively higher molecular weights compared to the other lignins studied. The elemental analysis of these lignins further revealed the presence of nitrogen in their structures, suggesting that amination occurred. In this work we used PILs not yet reported in the literature for this purpose, and consequently obtained lignins with specific structures. Overall, our results demonstrated that depending on the PILs used, lignins with distinct properties could be obtained which might be used for value-added applications. This work covered new advances in elucidation of lignin chemical structure and opened a new path for lignin valorization.

KW - Biorefinery

KW - Chemical features

KW - Ionic liquid

KW - Lignin characterization

KW - Radar classification

KW - Sugarcane bagasse

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AN - SCOPUS:85089337948

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SP - 579

EP - 592

JO - Renewable Energy

JF - Renewable Energy

ER -

Structural characterization of sugarcane lignins extracted from different protic ionic liquid pretreatments

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