The case-dependent lignin role in lignocellulose nanofibers preparation and functional application-A review

Xiya Zhang; Lili Zhang; Yimin Fan; Zhiguo Wang

doi:10.1016/j.gee.2022.09.008

Volume 8 Issue 6

Dec. 2023

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Xiya Zhang, Lili Zhang, Yimin Fan, Zhiguo Wang. The case-dependent lignin role in lignocellulose nanofibers preparation and functional application-A review. Green Energy&Environment, 2023, 8(6): 1553-1566. doi: 10.1016/j.gee.2022.09.008

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Xiya Zhang, Lili Zhang, Yimin Fan, Zhiguo Wang. The case-dependent lignin role in lignocellulose nanofibers preparation and functional application-A review. Green Energy&Environment, 2023, 8(6): 1553-1566. doi: 10.1016/j.gee.2022.09.008

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The case-dependent lignin role in lignocellulose nanofibers preparation and functional application-A review

doi: 10.1016/j.gee.2022.09.008

Abstract

Abstract

Lignocellulose nanofibers (LCNFs) as a new material is attracting extensive attention. The pretreatment and mechanical fibrillation are the two main stages involved in the preparation of LCNFs, and lignin plays the important role of these two stages. This review discussed the interaction between lignin and chemicals in the pretreatment stage, and discovered the general law of the effect of lignin in the mechanical fibrillation stage. Lignin exhibits both promotion and inhibition effects on mechanical fibrillation, and the mutual competition between the two effects ultimately affects the energy consumption, morphology and yield of LCNFs. Furthermore, the recent research progress related to the contributions of lignin on the functional application of LCNFs was summarized, aiming to provide profound guidance for the preparation and application of LCNFs.
- Lignocellulose nanofibers,
- Lignin,
- Fibrillation,
- Cellulose,
- Pretreatment

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[1]	M. Poletto, A.J. Zattera, M.M. Forte, R.M. Santana, Bioresour. Technol. 109 (2012) 148-153.
[2]	X. Shen, R. Sun, Carbohydr. Polym. 261 (2021) 117884-117899.
[3]	E. Abraham, B. Deepa, L.A. Pothan, M. Jacob, S. Thomas, U. Cvelbar, R. Anandjiwala, Carbohydr. Polym. 86 (2011) 1468-1475.
[4]	K. Liu, H. Du, T. Zheng, W. Liu, M. Zhang, H. Liu, X. Zhang, C. Si, Green Chem. 23 (2021) 9723-9746.
[5]	T. Li, C. Chen, A.H. Brozena, J.Y. Zhu, L. Xu, C. Driemeier, J. Dai, O.J. Rojas, A. Isogai, L. Wagberg, L. Hu, Nature 590 (2021) 47-56.
[6]	I.C. Hoeger, S.S. Nair, A.J. Ragauskas, Y. Deng, O.J. Rojas, J.Y. Zhu, Cellulose 20 (2013) 807-818.
[7]	K. Ninomiya, M. Abe, T. Tsukegi, K. Kuroda, Y. Tsuge, C. Ogino, K. Taki, T. Taima, J. Saito, M. Kimizu, K. Uzawa, K. Takahashi, Carbohydr. Polym. 182 (2018) 8-14.
[8]	M. Delgado-Aguilar, I. Gonzalez, Q. Tarres, M.A. Pelach, M. Alcala, P. Mutje, Ind. Crops. Prod. 86 (2016) 295-300.
[9]	R.P. Chandra, R. Bura, W. Mabee, D.A. Berlin, X. Pan, J. Saddler, Biofuels 64 (2007) 67-93.
[10]	G. Avgerinos, D.I.C. Wang, Biotechnol. Bioeng. 25 (1983) 67-83.
[11]	X. Wang, H. Chen, X. Feng, Q. Zhang, N. Labbe, K. Kim, J. Huang, A.J. Ragauskas, S. Wang, Y. Zhang, Wood Sci. Technol. 54 (2020) 503-517.
[12]	J. Luo, K. Huang, Y. Xu, Y. Fan, Cellulose 26 (2019) 5237-5246.
[13]	H. Bian, L. Chen, H. Dai, J.Y. Zhu, Carbohydr. Polym. 167 (2017) 167-176.
[14]	M. Visanko, J.A. Sirvio, P. Piltonen, R. Sliz, H. Liimatainen, M. Illikainen, Cellulose 24 (2017) 4173-4187.
[15]	J.A. Sirvio, M. Visanko, J. Hazard. Mater. 383 (2020) 121174.
[16]	Q. Zhang, R.T. Ma, L.S. Ma, L.L. Zhang, Y.M. Fan, Z.G. Wang, Ind. Crops. Prod. 166 (2021) 114360-114369.
[17]	A. Ferrer, I.C. Hoeger, X. Lu, O.J. Rojas, J. Appl. Polym. Sci. 133 (2016) 43854-43864.
[18]	S. Yang, T. Wang, R. Tang, Q. Yan, W. Tian, L. Zhang, Int. J. Biol. Macromol. 151 (2020) 159-167.
[19]	J.A. Sirvio, M.Y. Ismail, K. Zhang, M.V. Tejesvi, A. Ammala, J. Mater. Chem. A 8 (2020) 7935-7946.
[20]	J.A. Sirvio, M. Visanko, Biomacromolecules 20 (2019) 2413-2420.
[21]	L. Petridis, J.C. Smith, Nat. Rev. Chem. 2 (2018) 382-389.
[22]	X. Kang, A. Kirui, M.C. Dickwella Widanage, F. Mentink-Vigier, D.J. Cosgrove, T. Wang, Nat. Commun. 10 (2019) 347.
[23]	V.B. Agbor, N. Cicek, R. Sparling, A. Berlin, D.B. Levin, Biotechnol. Adv. 29 (2011) 675-685.
[24]	A.T. Hendriks, G. Zeeman, Bioresour. Technol. 100 (2009) 10-18.
[25]	C. Xu, R.A. Arancon, J. Labidi, R. Luque, Chem. Soc. Rev. 43 (2014) 7485-7500.
[26]	M. A. Hossain, T. K. Phung, M. S. Rahaman, Appl. Catal. A-Gen. 582 (2019) 117100
[27]	P. Langan, L. Petridis, H.M. O'neill, S.V. Pingali, M. Foston, Y. Nishiyama, R. Schulz, B. Lindner, B.L. Hanson, S. Harton, W.T. Heller, V. Urban, B.R. Evans, S. Gnanakaran, A.J. Ragauskas, J.C. Smith, B.H. Davison, Green Chem. 16 (2014) 63-68.
[28]	R. El Hage, N. Brosse, P. Sannigrahi, A. Ragauskas, Polym. Degrad. Stab. 95 (2010) 997-1003.
[29]	C. Feng, J. Zhu, L. Cao, L. Yan, C. Qin, C. Liang, S. Yao, Ind. Crops. Prod. 176 (2022) 114374-114385.
[30]	C. Alvarez-Vasco, R.S. Ma, M. Quintero, M. Guo, S. Geleynse, K.K. Ramasamy, M. Wolcott, X. Zhang, Green Chem. 18 (2016) 5133-5141.
[31]	K. Iiyama, T.B.-T. Lam, B.A. Stone, Plant physiol. 104 (1994) 315-320.
[32]	X. Meng, Q. Sun, M. Kosa, F. Huang, Y. Pu, A.J. Ragauskas, ACS Sustain. Chem. Eng. 4 (2016) 4563-4572.
[33]	Z. Sun, G. Bottari, A. Afanasenko, M.C.A. Stuart, P.J. Deuss, B. Fridrich, K. Barta, Nat. Catal. 1 (2018) 82-92.
[34]	M. Todaka, W. Kowhakul, H. Masamoto, M. Shigematsu, J. Wood Sci. 65 (2019) 49-58.
[35]	X. Zhang, H. Huang, Y. Qing, H. Wang, X. Li, Materials 13 (2020) 237-250.
[36]	S. Hong, Y. Song, Y. Yuan, H. Lian, H. Liimatainen, Ind. Crops. Prod. 143 (2020) 111913-111921.
[37]	W. Schutyser, T. Renders, S. Van Den Bosch, S.F. Koelewijn, G.T. Beckham, B.F. Sels, Chem. Soc. Rev. 47 (2018) 852-908.
[38]	S. Bilatto, J.M. Marconcini, L.H.C. Mattoso, C.S. Farinas, Ind. Crops. Prod. 157 (2020) 112938-112946.
[39]	L.P. Novo, L.V. Gurgel, K. Marabezi, A.A. Curvelo, Bioresour. Technol. 102 (2011) 10040-10046.
[40]	H. Lu, L. Zhang, C. Liu, Z. He, X. Zhou, Y. Ni, Cellulose 25 (2018) 7043-7051.
[41]	H. Lu, L. Zhang, M. Yan, K. Wang, J. Jiang, Carbohydr. Polym. 277 (2022) 118897.
[42]	X. Zhao, K. Cheng, D. Liu, Appl. Microbiol. Biotechnol. 82 (2009) 815-827.
[43]	C. Cai, J. Li, K. Hirth, G.W. Huber, H. Lou, J.Y. Zhu, ChemSusChem 13 (2020) 4649-4659.
[44]	H. Bian, L. Chen, R. Gleisner, H. Dai, J.Y. Zhu, Green Chem. 19 (2017) 3370-3379.
[45]	H. Bian, Y. Gao, J. Luo, L. Jiao, W. Wu, G. Fang, H. Dai, Waste Manag. 91 (2019) 1-8.
[46]	Y. Song, X. Shi, X. Yang, X. Zhang, T. Tan, Energ. Fuel. 34 (2019) 557-567.
[47]	J.Y. Zhu, X. Pan, Renew. Sust. Energ. Rev. 164 (2022) 112583-112606.
[48]	J.Y. Zhu, U.P. Agarwal, P.N. Ciesielski, M.E. Himmel, R. Gao, Y. Deng, M. Morits, M. Osterberg, Biotechnol. Biofuels. 14 (2021) 114.
[49]	J. Jiang, N.C. Carrillo-Enriquez, H. Oguzlu, X. Han, R. Bi, J.N. Saddler, R.C. Sun, F. Jiang, Carbohydr. Polym. 247 (2020) 116727-116735.
[50]	Q. Liu, T. Yuan, Q. J. Fu, Y. Y. Bai, F. Peng, C. L. Yao, Cellulose 26 (2019) 9447-9462.
[51]	C. Liu, M.C. Li, W. Chen, R. Huang, S. Hong, Q. Wu, C. Mei, Carbohydr. Polym. 246 (2020) 116548.
[52]	X.D. Hou, K.P. Lin, A.L. Li, L.M. Yang, M.H. Fu, Ind. Crops. Prod. 120 (2018) 322-329.
[53]	C.W. Zhang, S.Q. Xia, P.S. Ma, Bioresour. Technol. 219 (2016) 1-5.
[54]	Y. Liu, W. Chen, Q. Xia, B. Guo, Q. Wang, S. Liu, Y. Liu, J. Li, H. Yu, ChemSusChem 10 (2017) 1692-1700.
[55]	S. Hong, X. J. Shen, Z. Xue, Z. Sun, T. Q. Yuan, Green Chem. 22 (2020) 7219-7232.
[56]	S. Hong, X. J. Shen, B. Pang, Z. Xue, X. F. Cao, J. L. Wen, Z. H. Sun, S.S. Lam, T. Q. Yuan, R. C. Sun, Green Chem. 22 (2020) 1851-1858.
[57]	X. J. Shen, J. L. Wen, Q. Q. Mei, X. Chen, D. Sun, T. Q. Yuan, R. C. Sun, Green Chem. 21 (2019) 275-283.
[58]	Q. Tarres, N.V. Ehman, M.E. Vallejos, M.C. Area, M. Delgado-Aguilar, P. Mutje, Carbohydr. Polym. 163 (2017) 20-27.
[59]	N. Zhang, P. Tao, Y. Lu, S. Nie, Cellulose 26 (2019) 7823-7835.
[60]	A. Ferrer, E. Quintana, I. Filpponen, I. Solala, T. Vidal, A. Rodriguez, J. Laine, O.J. Rojas, Cellulose 19 (2012) 2179-2193.
[61]	S.S. Nair, N. Yan, Cellulose 22 (2015) 3137-3150.
[62]	D.N. Hon, J. Appl. Polym. Sci. 23 (1979) 1487-1499.
[63]	M.P. Vinardell, V. Ugartondo, M. Mitjans, Ind. Crops. Prod. 27 (2008) 220-223.
[64]	I. Solala, A. Volperts, A. Andersone, T. Dizhbite, N. Mironova Ulmane, A. Vehniainen, J. Pere, T. Vuorinen, Holzforschung 66 (2012) 477-483.
[65]	E. Rojo, M.S. Peresin, W.W. Sampson, I.C. Hoeger, J. Vartiainen, J. Laine, O.J. Rojas, Green Chem. 17 (2015) 1853-1866.
[66]	Y. Jiang, X. Liu, Q. Yang, X. Song, C. Qin, S. Wang, K. Li, Cellulose 25 (2018) 6479-6494.
[67]	Y. Chen, D. Fan, Y. Han, S. Lyu, Y. Lu, G. Li, F. Jiang, S. Wang, Cellulose 25 (2018) 6421-6431.
[68]	G. Albornoz-Palma, D. Ching, O. Valerio, R.T. Mendonca, M. Pereira, Cellulose 27 (2020) 10631-10647.
[69]	F. Gu, W. Wang, Z. Cai, F. Xue, Y. Jin, J.Y. Zhu, Cellulose 25 (2018) 2861-2871.
[70]	L.O. Morales, M. Iakovlev, R. Martin-Sampedro, J.L. Rahikainen, J. Laine, A. Van Heiningen, O.J. Rojas, Bioresour. Technol. 161 (2014) 55-62.
[71]	J.Y. Zhu, R. Sabo, X. Luo, Green Chem. 13 (2011) 1339-1344.
[72]	E. Espinosa, F. Rol, J. Bras, A. Rodriguez, J. Clean. Prod. 239 (2019) 118083- 118090.
[73]	M. Dong, C. Wu, L. Chen, X. Zhou, W. Yang, H. Xiao, X. Ji, H. Dai, C. Hu, H. Bian, Bioresour. Technol. 337 (2021) 125379-125386.
[74]	P. Li, J.A. Sirvio, S. Hong, A. Ammala, H. Liimatainen, Chem. Eng.J. 375 (2019). 122050
[75]	X. Liu, Y. Li, C.M. Ewulonu, J. Ralph, F. Xu, Q. Zhang, M. Wu, Y. Huang, ACS Sustain. Chem. Eng. 7 (2019) 14135-14142.
[76]	Z. Yan, C. Yi, T. Liu, J. Yang, H. Ma, L. Sha, D. Guo, H. Zhao, X. Zhang, W. Wang, BioResources 16 (2021) 6560-6576.
[77]	D. Huang, M. Wu, C. Wang, S. Kuga, Y. Huang, ACS Sustain. Chem. Eng. 8 (2020) 11389-11395.
[78]	M. Nordenstrom, T. Kaldeus, J. Erlandsson, T. Pettersson, E. Malmstrom, L. Wagberg, ACS Sustain. Chem. Eng. 9 (2021) 11003-11010.
[79]	H. Fu, W. Gao, B. Wang, J. Zeng, Z. Cheng, J. Xu, K. Chen, Cellulose 27 (2019) 1327-1340.
[80]	X. Li, C. Ning, L. Li, W. Liu, Q. Ren, Q. Hou, Carbohydr. Polym. 274 (2021) 118650.
[81]	Y. Xue, X. Qiu, Z. Liu, Y. Li, ACS Sustain. Chem. Eng. 6 (2018) 7695-7703.
[82]	J.K. Han, A. Madhusudhan, R. Bandi, C.W. Park, J.C. Kim, Y.K. Lee, S.H. Lee, J.M. Won, BioResources 15 (2020) 2119-2132.
[83]	M. Jonoobi, J. Harun, A.P. Mathew, K. Oksman, Compos. Sci. and Technol. 70 (2010) 1742-1747.
[84]	W. Lei, X. Zhou, C. Fang, Y. Li, Y. Song, C. Wang, Z. Huang, Waste Manage. 95 (2019) 59-69.
[85]	Z. Wang, P. Gnanasekar, S. Sudhakaran Nair, R. Farnood, S. Yi, N. Yan, ACS Sustain. Chem. Eng. 8 (2020) 11215-11223.
[86]	B. Chihaoui, Q. Tarres, M. Delgado-Aguilar, P. Mutje, S. Boufi, Ind. Crops. Prod. 175 (2022) 114287-114299.
[87]	Y.C. Wang, S.S. Liu, Q. Wang, X.X. Ji, G.H. Yang, J.C. Chen, P. Fatehi, Ind. Crops. Prod. 171 (2021) 113898-113908.
[88]	H. Bian, L. Wei, C. Lin, Q. Ma, H. Dai, J.Y. Zhu, ACS Sustain. Chem. Eng. 6 (2018) 4821-4828.
[89]	T.Y. Chong, M.C. Law, Y.S. Chan, J. Polym. Environ. 29 (2020) 363-381.
[90]	S. Iwamoto, S. Yamamoto, S.H. Lee, H. Ito, T. Endo, Materials 7 (2014) 6919-6929.
[91]	C.W. Zhang, S.S. Nair, H. Chen, N. Yan, R. Farnood, F.Y. Li, Carbohydr. Polym. 230 (2020) 115626.
[92]	X. Wang, S. Wang, W. Liu, S. Wang, L. Zhang, R. Sang, Q. Hou, J. Li, Carbohydr. Polym. 225 (2019) 115213.
[93]	W. Yang, E. Fortunati, D. Gao, G.M. Balestra, G. Giovanale, X. He, L. Torre, J.M. Kenny, D. Puglia, ACS Sustain. Chem. Eng. 6 (2018) 3502-3514.
[94]	H. Sadeghifar, R. Venditti, J. Jur, R.E. Gorga, J.J. Pawlak, ACS Sustain. Chem. Eng. 5 (2016) 625-631.
[95]	H. Bian, L. Chen, M. Dong, L. Wang, R. Wang, X. Zhou, C. Wu, X. Wang, X. Ji, H. Dai, Int. J. Biol. Macromol. 166 (2021) 1578-1585.
[96]	J. Dou, T. Vuorinen, H. Koivula, N. Forsman, M. Sipponen, S. Hietala, ACS Appl. Nano Mater. 4 (2021) 2921-2929.
[97]	N.R. Tanguy, H. Wu, S.S. Nair, K. Lian, N. Yan, ChemSusChem 14 (2021) 1057-1067.
[98]	S. Guo, X. Li, Y. Kuang, J. Liao, K. Liu, J. Li, L. Mo, S. He, W. Zhu, J. Song, T. Song, O.J. Rojas, Carbohydr. Polym. 253 (2021) 117223.
[99]	Y. Zhong, L. Gu, S. Wang, Y. Jin, H. Xiao, Ind. Eng. Chem. Res. 58 (2019) 20323-20330.
[100]	H. Chen, P. Gnanasekar, S.S. Nair, W. Xu, P. Chauhan, N. Yan, ACS Sustain. Chem. Eng. 8 (2020) 17165-17176.
[101]	C.I.K. Diop, M. Tajvidi, M.A. Bilodeau, D.W. Bousfield, J.F. Hunt, Ind. Crops. Prod. 109 (2017) 27-36.
[102]	A.A. Adam, J. Ojur Dennis, Y. Al-Hadeethi, E.M. Mkawi, B. Abubakar Abdulkadir, F. Usman, Y. Mudassir Hassan, I.A. Wadi, M. Sani, Polymers 12 (2020) 2884.
[103]	Chinomso M. Ewulonu, Xuran Liu, Min Wu, Huang Yong, J. Bioresour. Bioprod. 4 (2019) 3-10.
[104]	K. Shikinaka, Y. Otsuka, Green Chem. 24 (2022) 3243-3249.

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The case-dependent lignin role in lignocellulose nanofibers preparation and functional application-A review

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The case-dependent lignin role in lignocellulose nanofibers preparation and functional application-A review

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