Advanced search
Publication Cover
Journal of Wood Chemistry and Technology Volume 27, 2007 - Issue 2
Submit an article Journal homepage
776
Views
82
CrossRef citations to date
0
Altmetric
Original Articles

Condensation Reactions of Some Lignin Related Compounds at Relatively Low Pyrolysis TemperatureFootnote

Takeshi Nakamura Graduate School of Energy Science, Kyoto University, Kyoto, Japan
,
Haruo Kawamoto Graduate School of Energy Science, Kyoto University, Kyoto, JapanCorrespondence[email protected]
&
Shiro Saka Graduate School of Energy Science, Kyoto University, Kyoto, Japan
Pages 121-133 | Published online: 27 Jul 2007

Citations (82)

Keep up to date with the latest research on this topic with citation updates for this article.

Subscribe to citation updates

Read on this site (3)

Y. Fu, K. Kato, H. Ohtani & Y. Chen. (2014) Pyrolysis Products of Lignin in Open and Sealed Vessels Studied by Py-GC-MS. Journal of Wood Chemistry and Technology 34:1, pages 1-7.
Read now
Haruo Kawamoto & Shiro Saka. (2007) Role of Side‐Chain Hydroxyl Groups in Pyrolytic Reaction of Phenolic β‐Ether Type of Lignin Dimer . Journal of Wood Chemistry and Technology 27:2, pages 113-120.
Read now
Tao Ding, Ziyang Qin & Ruotong Luan. Discoloration of heat-treated and untreated red alder wood in outdoor, transitional and indoor space. Wood Material Science & Engineering 0:0, pages 1-12.
Read now

Articles from other publishers (79)

Zhen Yang, Zhenyu Li, Shaoxin Ye, Lan Ma, Feng Zhao, Xuejun Gu, Ying Jiang, Yingquan Chen, Xiaofeng Tang & Liangyuan Jia. (2024) Molecular characterization of organic aerosol particles from biomass pyrolysis. Journal of Analytical and Applied Pyrolysis 178, pages 106393.
Crossref
Zong-Pin Fu, Le-Le Qiu, Yun-Peng Zhao, Fa-Peng Wu, Jin-Xuan Xie, Jian Xiao, Jing Liang, Jian Li, Fang-Jing Liu & Jing-Pei Cao. (2024) In-situ transfer hydrogenolysis of lignin into phenolic monomers over Ni0.5Co1.5Al catalyst. Molecular Catalysis 555, pages 113853.
Crossref
Adil Mazar & Michael Paleologou. (2024) Comparison of the effects of three drying methods on lignin properties. International Journal of Biological Macromolecules 258, pages 128974.
Crossref
Zhe Shang & Hui Li. (2024) Unraveling pyrolysis mechanisms of lignin dimer model compounds: Neural network-based molecular dynamics simulation investigations. Fuel 357, pages 129909.
Crossref
You Wayne Cheah, Rawipa Intakul, Muhammad Abdus Salam, Joby Sebastian, Phuoc Hoang Ho, Prakhar Arora, Olov Öhrman, Derek Creaser & Louise Olsson. (2023) Slurry co-hydroprocessing of Kraft lignin and pyrolysis oil over unsupported NiMoS catalyst: A strategy for char suppression. Chemical Engineering Journal 475, pages 146056.
Crossref
Masud Rana, Shubho Ghosh, Theoneste Nshizirungu & Jeong-Hun Park. (2023) Catalytic depolymerization of Kraft lignin to high yield alkylated-phenols over CoMo/SBA-15 catalyst in supercritical ethanol. RSC Advances 13:43, pages 30022-30039.
Crossref
Tina Ročnik Kozmelj, Matej Žula, Janvit Teržan, Blaž Likozar, Uroš Maver, Laura Činč Ćurić, Edita Jasiukaitytė-Grojzdek & Miha Grilc. (2023) Understanding stability, oligomerization and deactivation during catalytic lignin hydrodeoxygenation by mechanistic reaction micro-kinetics linked with 3D catalyst particle nanotomography. Journal of Cleaner Production 414, pages 137701.
Crossref
Avnish Kumar, Bijoy Biswas, Ramandeep Kaur, Reeta Rani, Bhavya B. Krishna & Thallada Bhaskar. (2023) Structure elucidation of prot, alkali and dealkaline lignin(s) by NMR, FT-IR and Py-GC/MS: effect of solid acid and base catalysts. Sustainable Energy & Fuels 7:8, pages 1942-1954.
Crossref
Jiaqi Wang, Eiji Minami & Haruo Kawamoto. (2023) Pyrolysis-assisted catalytic hydrogenolysis of softwood lignin at elevated temperatures for the high yield production of monomers. Green Chemistry 25:7, pages 2583-2595.
Crossref
Yushuai Sang, Hong Chen, Mohamad Khalifeh & Yongdan Li. (2023) Catalysis and chemistry of lignin depolymerization in alcohol solvents - A review. Catalysis Today 408, pages 168-181.
Crossref
Alexander V. Levdansky, Natalya Yu. Vasilyeva, Yuriy N. Malyar, Alexander A. Kondrasenko, Olga Yu. Fetisova, Aleksandr S. Kazachenko, Vladimir A. Levdansky & Boris N. Kuznetsov. (2022) An Efficient Method of Birch Ethanol Lignin Sulfation with a Sulfaic Acid-Urea Mixture. Molecules 27:19, pages 6356.
Crossref
Jiaqi Wang, Eiji Minai & Haruo Kawamoto. (2022) Stable Oligomer Formation from Lignin by Pyrolysis of Softwood in an Aprotic Solvent with a Hydrogen Donor. ChemistryOpen 11:9.
Crossref
Mohamad Barekati-Goudarzi, Lavrent Khachatryan, Dorin Boldor, Mengxia Xu, Eli Ruckenstein & Rubik Asatryan. (2022) Radicals and molecular products from the gas-phase pyrolysis of lignin model compounds: Coniferyl alcohol, theory and experiment. Journal of Analytical and Applied Pyrolysis 161, pages 105413.
Crossref
Parth G. Marakana, Anirban Dey & Bharti Saini. 2022. Zero Waste Biorefinery. Zero Waste Biorefinery 113 141 .
Pouya Sirous-Rezaei, Derek Creaser & Louise Olsson. (2021) Reductive liquefaction of lignin to monocyclic hydrocarbons: ReS2/Al2O3 as efficient char inhibitor and hydrodeoxygenation catalyst. Applied Catalysis B: Environmental 297, pages 120449.
Crossref
Zezhong Zhang, Shangran Ning, Qingbo Li, Meiling Sun, Jianguo Lin & Xiaofeng Wang. (2021) Levels and risk assessment of polycyclic aromatic hydrocarbons in wood vinegars from pyrolysis of biomass. Chemosphere 278, pages 130453.
Crossref
Cesar Nieto-Delgado, Fred S. Cannon, Zilong Zhao & Pablo G. Nieto-Delgado. (2021) Evolution of Raman signal during lignin pyrolysis and its correlation with the binding mechanism in anthracite briquettes. Fuel 298, pages 120816.
Crossref
Haruo Kawamoto. (2021) Woody Biomass Refinery by Thermochemical Conversion熱化学変換による木質バイオリファイナリー. JAPAN TAPPI JOURNAL 75:11, pages 986-989.
Crossref
Kwang Ho Kim, Keunhong Jeong, Jingshun Zhuang, Hye Jin Jeong, Chang Soo Kim, Bonwook Koo & Chang Geun Yoo. (2021) Tandem conversion of lignin to catechols via demethylation and catalytic hydrogenolysis. Industrial Crops and Products 159, pages 113095.
Crossref
Li-Yang Liu, Kim Bessler, Siwei Chen, Mijung Cho, Qi Hua & Scott Renneckar. (2021) In-situ real-time monitoring of hydroxyethyl modification in obtaining uniform lignin derivatives. European Polymer Journal 142, pages 110082.
Crossref
Cornel Hagiopol. 2021. Natural Polyphenols from Wood. Natural Polyphenols from Wood 183 258 .
Erika Bartolomei, Yann Le Brech, Anthony Dufour, Vincent Carre, Frederic Aubriet, Evan Terrell, Manuel Garcia‐Perez & Philippe Arnoux. (2020) Lignin Depolymerization: A Comparison of Methods to Analyze Monomers and Oligomers. ChemSusChem 13:17, pages 4633-4648.
Crossref
Mohamad Barekati-Goudarzi, Dorin Boldor, Lavrent Khachatryan, Bert Lynn, Ryan Kalinoski & Jian Shi. (2020) Heterogeneous and Homogeneous Components in Gas-Phase Pyrolysis of Hydrolytic Lignin. ACS Sustainable Chemistry & Engineering 8:34, pages 12891-12901.
Crossref
Jason M. Hudzik, Mohamad Barekati-Goudarzi, Lavrent Khachatryan, Joseph W. Bozzelli, Eli Ruckenstein & Rubik Asatryan. (2020) OH-Initiated Reactions of para -Coumaryl Alcohol Relevant to the Lignin Pyrolysis. Part II. Kinetic Analysis . The Journal of Physical Chemistry A 124:24, pages 4875-4904.
Crossref
Boyu Du, Changzhou Chen, Yang Sun, Bingyang Liu, Yingying Yang, Si Gao, Zhenshu Zhang, Xing Wang & Jinghui Zhou. (2019) Ni–Mg–Al Catalysts Effectively Promote Depolymerization of Rice Husk Lignin to Bio-Oil. Catalysis Letters 150:6, pages 1591-1604.
Crossref
A. Krutof & K.A. Hawboldt. (2019) Co-pyrolysis of softwood with waste mussel shells: Liquid analysis. Fuel 254, pages 115584.
Crossref
Zhongqing Ma, Junhao Wang, Cong Li, Youyou Yang, Xiaohuan Liu, Chao Zhao & Dengyu Chen. (2019) New sight on the lignin torrefaction pretreatment: Relevance between the evolution of chemical structure and the properties of torrefied gaseous, liquid, and solid products. Bioresource Technology 288, pages 121528.
Crossref
Adel Baimoldina, Konstantinos Papadikis & Elena Yu. Konysheva. (2019) Diverse impact of α-Fe2O3 with nano/micro-sized shapes on the catalytic fast pyrolysis of pinewood: Py-GC/MS study. Journal of Analytical and Applied Pyrolysis 139, pages 145-155.
Crossref
Mahdi Sharifzadeh, Majid Sadeqzadeh, Miao Guo, Tohid N. Borhani, N.V.S.N. Murthy Konda, Marti Cortada Garcia, Lei Wang, Jason Hallett & Nilay Shah. (2019) The multi-scale challenges of biomass fast pyrolysis and bio-oil upgrading: Review of the state of art and future research directions. Progress in Energy and Combustion Science 71, pages 1-80.
Crossref
Ming Lei, Shubin Wu, Jiajin Liang & Chao Liu. (2019) Comprehensive understanding the chemical structure evolution and crucial intermediate radical in situ observation in enzymatic hydrolysis/mild acidolysis lignin pyrolysis. Journal of Analytical and Applied Pyrolysis 138, pages 249-260.
Crossref
Dan Liu, Xu Yan, Mengying Si, Xinhui Deng, Xiaobo Min, Yan Shi & Liyuan Chai. (2018) Bioconversion of lignin into bioplastics by Pandoraea sp. B-6: molecular mechanism. Environmental Science and Pollution Research 26:3, pages 2761-2770.
Crossref
Celso Pires Araújo Junior, Carlos Alberto Cáceres Coaquira, Adriano Lincoln Albuquerque Mattos, Men de Sá Moreira de Souza Filho, Judith Pessoa de Andrade Feitosa, João Paulo Saraiva de Morais & Morsyleide de Freitas Rosa. (2017) Binderless Fiberboards Made from Unripe Coconut Husks. Waste and Biomass Valorization 9:11, pages 2245-2254.
Crossref
Kwang Ho Kim & Chang Soo Kim. (2018) Recent Efforts to Prevent Undesirable Reactions From Fractionation to Depolymerization of Lignin: Toward Maximizing the Value From Lignin. Frontiers in Energy Research 6.
Crossref
Georg D. Ripberger, Jim R. Jones, A.H.J. (Tony) Paterson & Craig Kirwan. (2018) Effect of autogenous pressure on volatile pyrolysis products. Fuel 225, pages 80-88.
Crossref
Jindong Li, Xiaoyan Lv, Yue Wang, Qiuxing Li & Changwei Hu. (2018) Hydrotreatment Upgrading of Bio-oil from Torrefaction of Pubescens in Alcohol over Pd/NbOPO 4 . ACS Omega 3:5, pages 4836-4846.
Crossref
Xiaoyan Jiang, Qiang Lu, Bin Hu, Ji Liu, Changqing Dong & Yongping Yang. (2017) A Comprehensive Study on Pyrolysis Mechanism of Substituted β-O-4 Type Lignin Dimers. International Journal of Molecular Sciences 18:11, pages 2364.
Crossref
Mehmet K. Akalin, Parthapratim Das, Koray Alper, Kubilay Tekin, Arthur J. Ragauskas & Selhan Karagöz. (2017) Deconstruction of lignocellulosic biomass with hydrated cerium (III) chloride in water and ethanol. Applied Catalysis A: General 546, pages 67-78.
Crossref
Kwang Ho Kim, Tanmoy Dutta, Eric D. Walter, Nancy G. Isern, John R. Cort, Blake A. Simmons & Seema Singh. (2017) Chemoselective Methylation of Phenolic Hydroxyl Group Prevents Quinone Methide Formation and Repolymerization During Lignin Depolymerization. ACS Sustainable Chemistry & Engineering 5:5, pages 3913-3919.
Crossref
Haruo Kawamoto. (2017) Lignin pyrolysis reactions. Journal of Wood Science 63:2, pages 117-132.
Crossref
Thanaphong Phongpreecha, Nicholas C. Hool, Ryan J. Stoklosa, Adam S. Klett, Cliff E. Foster, Aditya Bhalla, Daniel Holmes, Mark C. Thies & David B. Hodge. (2017) Predicting lignin depolymerization yields from quantifiable properties using fractionated biorefinery lignins. Green Chem. 19:21, pages 5131-5143.
Crossref
Hui Zhang, Youcan Bai, Boming Yu, Xinxin Liu & Fangeng Chen. (2017) A practicable process for lignin color reduction: fractionation of lignin using methanol/water as a solvent. Green Chem. 19:21, pages 5152-5162.
Crossref
Claudia Crestini, Heiko Lange, Marco Sette & Dimitris S. Argyropoulos. (2017) On the structure of softwood kraft lignin. Green Chemistry 19:17, pages 4104-4121.
Crossref
Zhongyue Zhou, Hanfeng Jin, Long Zhao, Yizun Wang, Wu Wen, Jiuzhong Yang, Yuyang Li, Yang Pan & Fei Qi. (2017) A thermal decomposition study of pine wood under ambient pressure using thermogravimetry combined with synchrotron vacuum ultraviolet photoionization mass spectrometry. Proceedings of the Combustion Institute 36:2, pages 2217-2224.
Crossref
Hao Luo & Mahdi M. Abu-Omar. 2017. Encyclopedia of Sustainable Technologies. Encyclopedia of Sustainable Technologies 573 585 .
Haruo Kawamoto. 2016. Production of Biofuels and Chemicals from Lignin. Production of Biofuels and Chemicals from Lignin 321 353 .
Hermann Hofbauer, Martin Kaltschmitt, Frerich Keil, Dietrich Meier & Johannes Welling. 2016. Energie aus Biomasse. Energie aus Biomasse 1183 1265 .
Rafael Luque. (2015) Unravelling Methodologies for a Rational Lignin Valorisation Using Heterogeneously Catalysed Protocols. Journal of Technology Innovations in Renewable Energy 4:4, pages 147-151.
Crossref
Xiaoming Huang, Ceylanpinar Atay, Tamás I. Korányi, Michael D. BootEmiel J. M. Hensen. (2015) Role of Cu–Mg–Al Mixed Oxide Catalysts in Lignin Depolymerization in Supercritical Ethanol. ACS Catalysis 5:12, pages 7359-7370.
Crossref
Göran Gellerstedt. (2015) Softwood kraft lignin: Raw material for the future. Industrial Crops and Products 77, pages 845-854.
Crossref
Dekui Shen, Wei Jin, Jun Hu, Rui Xiao & Kaihong Luo. (2015) An overview on fast pyrolysis of the main constituents in lignocellulosic biomass to valued-added chemicals: Structures, pathways and interactions. Renewable and Sustainable Energy Reviews 51, pages 761-774.
Crossref
Isabell Kühnel, Jacob Podschun, Bodo Saake & Ralph Lehnen. (2015) Synthesis of lignin polyols via oxyalkylation with propylene carbonate. Holzforschung 69:5, pages 531-538.
Crossref
Haruo Kawamoto, Toshihiro Watanabe & Shiro Saka. (2015) Strong interactions during lignin pyrolysis in wood – A study by in situ probing of the radical chain reactions using model dimers. Journal of Analytical and Applied Pyrolysis 113, pages 630-637.
Crossref
Takeo Kotake, Haruo Kawamoto & Shiro Saka. (2015) Pyrolytic formation of monomers from hardwood lignin as studied from the reactivities of the primary products. Journal of Analytical and Applied Pyrolysis 113, pages 57-64.
Crossref
Chikako Asada, Sunita Basnet, Masaya Otsuka, Chizuru Sasaki & Yoshitoshi Nakamura. (2015) Epoxy resin synthesis using low molecular weight lignin separated from various lignocellulosic materials. International Journal of Biological Macromolecules 74, pages 413-419.
Crossref
Elmer B. Ledesma, Jennifer N. Hoang, Adam J. Solon, Marianne M. H. Tran, Mitchell P. Nguyen, Hien D. Nguyen, Tammy Hendrix-Doucette, Jacqueline V. Vu, Carla K. Fortune & Shuhsien Batamo. (2014) Vapor-Phase Cracking of 4-Vinylguaiacol in a Laminar-Flow Reactor: Kinetics and Effect of Temperature on Product Composition. Industrial & Engineering Chemistry Research 53:31, pages 12527-12536.
Crossref
Xiaoming Huang, Tamás I. Korányi, Michael D. Boot & Emiel J. M. Hensen. (2014) Catalytic Depolymerization of Lignin in Supercritical Ethanol. ChemSusChem 7:8, pages 2276-2288.
Crossref
Thomas Elder. (2014) Bond Dissociation Enthalpies of a Pinoresinol Lignin Model Compound. Energy & Fuels 28:2, pages 1175-1182.
Crossref
Ana Toledano, Luis Serrano, Antonio Pineda, Antonio A. Romero, Rafael Luque & Jalel Labidi. (2014) Microwave-assisted depolymerisation of organosolv lignin via mild hydrogen-free hydrogenolysis: Catalyst screening. Applied Catalysis B: Environmental 145, pages 43-55.
Crossref
Chunping Xu, Rick Arneil D. Arancon, Jalel Labidi & Rafael Luque. (2014) Lignin depolymerisation strategies: towards valuable chemicals and fuels. Chem. Soc. Rev. 43:22, pages 7485-7500.
Crossref
Takeo Kotake, Haruo Kawamoto & Shiro Saka. (2014) Mechanisms for the formation of monomers and oligomers during the pyrolysis of a softwood lignin. Journal of Analytical and Applied Pyrolysis 105, pages 309-316.
Crossref
Takeo Kotake, Haruo Kawamoto & Shiro Saka. (2013) Pyrolysis reactions of coniferyl alcohol as a model of the primary structure formed during lignin pyrolysis. Journal of Analytical and Applied Pyrolysis 104, pages 573-584.
Crossref
Kung-Yuh Chiang, Cheng-Han Lu, Ming-Hui Lin & Kuang-Li Chien. (2013) Reducing tar yield in gasification of paper-reject sludge by using a hot-gas cleaning system. Energy 50, pages 47-53.
Crossref
M.M. Ramirez-Corredores. 2013. The Role of Catalysis for the Sustainable Production of Bio-fuels and Bio-chemicals. The Role of Catalysis for the Sustainable Production of Bio-fuels and Bio-chemicals 161 216 .
Haoxi Ben & Arthur J. Ragauskas. (2012) In Situ NMR Characterization of Pyrolysis Oil during Accelerated Aging. ChemSusChem 5:9, pages 1687-1693.
Crossref
L. Sanchez-Silva, D. López-González, J. Villaseñor, P. Sánchez & J.L. Valverde. (2012) Thermogravimetric–mass spectrometric analysis of lignocellulosic and marine biomass pyrolysis. Bioresource Technology 109, pages 163-172.
Crossref
Mohd Asmadi,Haruo Kawamoto & Shiro Saka. (2012) The effects of combining guaiacol and syringol on their pyrolysis. Holzforschung 66:3.
Crossref
Yueyuan Ye, Juan Fan & Jie Chang. (2012) Effect of reaction conditions on hydrothermal degradation of cornstalk lignin. Journal of Analytical and Applied Pyrolysis 94, pages 190-195.
Crossref
Pushkaraj R. Patwardhan, Robert C. Brown & Brent H. Shanks. (2011) Understanding the Fast Pyrolysis of Lignin. ChemSusChem 4:11, pages 1629-1636.
Crossref
Mohd Asmadi, Haruo Kawamoto & Shiro Saka. (2011) Gas- and solid/liquid-phase reactions during pyrolysis of softwood and hardwood lignins. Journal of Analytical and Applied Pyrolysis 92:2, pages 417-425.
Crossref
Mohd Asmadi, Haruo Kawamoto & Shiro Saka. 2011. Zero-Carbon Energy Kyoto 2010. Zero-Carbon Energy Kyoto 2010 129 135 .
D.K. Shen, S. Gu, K.H. Luo, S.R. Wang & M.X. Fang. (2010) The pyrolytic degradation of wood-derived lignin from pulping process. Bioresource Technology 101:15, pages 6136-6146.
Crossref
Mohd Asmadi, Haruo Kawamoto & Shiro Saka. (2010) Pyrolysis reactions of Japanese cedar and Japanese beech woods in a closed ampoule reactor. Journal of Wood Science 56:4, pages 319-330.
Crossref
Thomas Elder. (2010) A computational study of pyrolysis reactions of lignin model compounds. Holzforschung 64:4.
Crossref
Sung Phil Mun & Chang Sub Ku. (2009) Pyrolysis GC-MS analysis of tars formed during the aging of wood and bamboo crude vinegars. Journal of Wood Science 56:1, pages 47-52.
Crossref
Marcos M. González-Peña & Michael D.C. Hale. (2009) Colour in thermally modified wood of beech, Norway spruce and Scots pine. Part 1: Colour evolution and colour changes. hfsg 63:4, pages 385-393.
Crossref
Takashi Hosoya, Haruo Kawamoto & Shiro Saka. (2009) Solid/liquid- and vapor-phase interactions between cellulose- and lignin-derived pyrolysis products. Journal of Analytical and Applied Pyrolysis 85:1-2, pages 237-246.
Crossref
Takashi Hosoya, Haruo Kawamoto & Shiro Saka. (2009) Role of methoxyl group in char formation from lignin-related compounds. Journal of Analytical and Applied Pyrolysis 84:1, pages 79-83.
Crossref
Takashi Hosoya, Haruo Kawamoto & Shiro Saka. (2008) Secondary reactions of lignin-derived primary tar components. Journal of Analytical and Applied Pyrolysis 83:1, pages 78-87.
Crossref
Takeshi Nakamura, H. Kawamoto & S. Saka. (2008) Pyrolysis behavior of Japanese cedar wood lignin studied with various model dimers. Journal of Analytical and Applied Pyrolysis 81:2, pages 173-182.
Crossref

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.