Biomass to High Performance Adhesives： A New Strategy for Green Bonding

Zou Shuanglin; Xu Yingchun; Gui Tao; Tan Rong; Xiao Lingping; Sun Runcang

doi:10.7536/PC20250305

PDF(16057 KB)

Prog Chem ›› 2025, Vol. 37 ›› Issue (9) : 1352-1360. DOI: 10.7536/PC20250305

Review

Biomass to High Performance Adhesives： A New Strategy for Green Bonding

Author information +

History +

Abstract

In the era of heightened global environmental consciousness， the principle of sustainable development has become deeply ingrained in public awareness. However， conventional petroleum-based adhesives are plagued by issues of unsustainability， high energy consumption， and significant environmental pollution during their production and application. Consequently， the development of green， sustainable， and high-performance biomass-based adhesives has emerged as a critical research focus. Biomass-based adhesives continue to encounter significant challenges， including suboptimal water resistance， elevated production costs， and the necessity for enhanced environmental performance. Future research should focus on optimizing the modification process of biomass raw materials， reducing production costs， improving the comprehensive properties of adhesives， and promoting their large-scale industrial application. In-depth investigation into the correlation between the structure and properties of biomass is crucial for the development of environmentally friendly and cost-effective adhesives. This paper summarizes the classification， modification methods， and properties of biomass-based raw materials and provides a detailed prospect for their future development.

Contents

1 Introduction

2 Modification strategies for the preparation of bio-based adhesives

2.1 Physical modification

2.2 Chemical modification

2.3 Composite modification

3 Adhesive production from biomass-based material

3.1 Lignin

3.2 Polysaccharides

3.3 Proteins

4 Conclusion and outlook

Key words

biomass / lignin / polysaccharides / proteins / adhesives / sustainable development

Cite this article

EndNote

Ris (Procite)

Bibtex

Download Citations

Zou Shuanglin , Xu Yingchun , Gui Tao , et al . Biomass to High Performance Adhesives： A New Strategy for Green Bonding[J]. Progress in Chemistry. 2025, 37(9): 1352-1360 https://doi.org/10.7536/PC20250305

References

List( Publishing order | Descend order by publishing year | Descend order by cited within ) Chart analysis

[1]	Zhou Y, Luo J, Jing Q, Ge S, Chen S, Guo Z, Li J, Liu Z, He P, He X, Xu B B. Adv. Funct. Mater., 2024, 34: 2406557. Cited in this article [1]

[2]	Liu J M, Xie E J, Tang Y R, Feng R, Gan W X. Sustain. Chem. Pharm., 2023, 33: 101129. Cited in this article [1]

[3]	Du X T, Zhang J, Zhu G, Li Z, Dong C L, Du G B, Deng S D. Colloids Surf. A Physicochem. Eng. Aspects, 2024, 695: 134219. Cited in this article [1]

[4]	Chaudhary M L, Patel P, Patel R, Gupta R K. Mater. Today Commun., 2024, 39: 109172. Cited in this article [2]

[5]	Norfarhana A S, Ilyas R A, Ngadi N, Othman M H D, Misenan M S M, Norrrahim M N F. Int. J. Biol. Macromol., 2024, 256: 128256. Cited in this article [1]

[6]	Kim M S, Chang H, Zheng L, Yan Q, Pfleger B F, Klier J, Nelson K, Majumder E L W, Huber G W. Chem. Rev., 2023, 123: 9915. Cited in this article [1]

[7]	Song J, Chen S, Zhang Q, Xi X, Lei H, Du G, Pizzi A. Int. J. Biol. Macromol., 2023, 251: 126254. Cited in this article [2]

[8]	Dai F Y, Liu H C, Wang J, Lan K, Chen Y R, Lv K P, Lv D Y, Yang W H, Zhao Y P. Int. J. Biol. Macromol., 2024, 279: 135175. Cited in this article [2]

[9]	Zhang Q Y, Yan R J, Xiong Y Y, Lei H, Du G B, Pizzi A, Puangsin B, Xi X D. Carbohydr. Polym., 2025, 347: 122705. Cited in this article [2]

[10]	Gong X Y, Liu T L, Yu S S, Meng Y, Lu J, Cheng Y, Wang H S. Ind. Crops. Prod., 2020, 153: 112593. Cited in this article [2]

[11]	Nardi M, Ceseracciu L, Scribano V, Contardi M, Athanassiou A, Zych A. Chem. Eng. J., 2024, 495: 153400. Cited in this article [1]

[12]	Wang Q, Xiao L P, Lv Y H, Yin W Z, Hou C J, Sun R C. ACS Catal., 2022, 12(19): 11899. Cited in this article [1]

[13]	Yang G, Gong Z, Luo X, Chen L, Shuai L. Nature, 2023, 621: 511. Cited in this article [1]

[14]	Wang H Z, Zhou J Y, Sun L F, Lai J Y, Zheng X, Lu B, Zhang L M, Zhang W. Ind. Crop. Prod., 2024, 222: 119536. Cited in this article [2]

[15]	Liu J N, Song J Y, Zeng L, Hu B R. Int. J. Mol. Sci., 2024, 25(14): 7994. Cited in this article [1]

[16]	Jara-Muñoz P, Guzmán-Fierro V, Arriagada C, Campos V, Campos J L, Gallardo-Rodríguez J J, Fernández K, Roeckel M. J. Chem. Technol. Biotechnol., 2019, 94(2): 475. Cited in this article [1]

[17]	Eshel-Green T, Bianco-Peled H. Colloids Surf. B Biointerfaces., 2016, 139: 42. Cited in this article [1]

[18]	Cheng J Y, Chen T J, Liu X Z, Zhou X L, Zhan Y N, Huang C X, Fang G G, Huang C. Chem. Eng. J., 2024, 499: 155980. Cited in this article [1]

[19]	Li S D, Chen N, Li Y, Zhao J, Hou X, Yuan X B. Macromol. Mater. Eng., 2020, 305(1): 1900620. Cited in this article [1]

[20]	Fukuya M N, Senoo K, Kotera M, Yoshimoto M, Sakata O. Biomacromolecules, 2017, 18(12): 4411. Cited in this article [1]

[21]	Barretto R, Qi G Y, Xiao R S, Jones C, Sun X S, Li Y H, Griffin J, Wang D H. Int. J. Adhes. Adhes., 2024, 133: 103740. Cited in this article [1]

[22]	Du Q L, Hu B W, Shen Q R, Su S H, Wang S Z, Song G Y. Chem. Eng. J., 2024, 482: 148828. Cited in this article [1]

[23]	Gan D, Xing W, Jiang L, Fang J, Zhao C, Ren F, Fang L, Wang K, Lu X. Nat. Commun., 2019, 10: 1487. Cited in this article [1]

[24]	Afewerki S, Wang X, Ruiz-Esparza G U, Tai C W, Kong X, Zhou S, Welch K, Huang P, Bengtsson R, Xu C, Strømme M. ACS Nano, 2020, 14: 17004. Cited in this article [1]

[25]	Hu O, Lu M, Cai M, Liu J, Qiu X, Guo C F, Zhang C Y, Qian Y. Adv. Mater., 2024, 36: 2407129. Cited in this article [3]

[26]	Wei C Y, Zhu X W, Peng H Y, Chen J J, Zhang F, Zhao Q. ACS Sustainable Chem. Eng., 2019, 7(4): 4508. Cited in this article [3]

[27]	Zhang S, Zhao X, Chen P C, Sun G W, Li Y, Han Y, Wang X, Li J G. New J. Chem., 2023, 47(14): 6721. Cited in this article [1]

[28]	Yang G X, Gong Z G, Zhou B, Luo X L, Liu J, Du G B, Zhao C K, Shuai L. Green Chem., 2024, 26(2): 753. Cited in this article [3]

[29]	Wang S H, Chen M Z, Hu Y, Yi Z G, Lu A. Nano Lett., 2024, 24(19): 5870. Cited in this article [1]

[30]	Yang H X, Wu Y C, Ni K L, Liu T D, Ran X, Tan X P, Gao W, Yang Z J, Du G B, Yang L. Int. J. Adhes. Adhes., 2023, 126: 103449. Cited in this article [4]

[31]	Yin H, Zheng P T, Zhang E B, Rao J P, Lin Q J, Fan M Z, Zhu Z Q, Zeng Q Z, Chen N R. Carbohydr. Polym., 2020, 250: 116884. Cited in this article [3]

[32]	Yu H J, Xia Y, Liu X T, Chen H Z, Jin Z X, Wang Z C, Wang S W. Ind. Crop. Prod., 2024, 211: 118204. Cited in this article [2]

[33]	Yuan Z H, Wang T, Shao C Y, Yang S R, Sun W X, Chen Y H, Peng Z P, Tong Z. Adv. Funct. Mater., 2025, 35(2): 2412950. Cited in this article [3]

[34]	Jiang K, Dong X M, Chen Y, Fan D B, Chu F X. Adv. Funct. Mater., 2024, 34(39): 2403490. Cited in this article [1]

[35]	Zhang J Y, Long C, Zhang X, Liu Z, Zhang X L, Liu T, Li J Z, Gao Q. Chem. Eng. J., 2022, 450: 138387. Cited in this article [1]

[36]	Zeng G D, Zhou Y, Wang T Z, Li K, Dong Y M, Li J J, Li J Z, Fang Z. Chem. Eng. J., 2023, 453: 139761. Cited in this article [3]

[37]	Siahkamari M, Emmanuel S, Hodge D B, Nejad M. ACS Sustainable Chem. Eng., 2022, 10(11): 3430. Cited in this article [2]

[38]	Yuan J F, Du G B, Yang H X, Liu S C, Wu Y C, Ni K L, Ran X, Gao W, Yang L, Li J. Int. J. Biol. Macromol., 2022, 222: 2719. Cited in this article [1]

[39]	Pruksawan S, Samitsu S, Fujii Y, Torikai N, Naito M. ACS Appl. Polym. Mater., 2020, 2(3): 1234. Cited in this article [1]

[40]	Yu H J, Xia Y, Jin Z X, Zhang L, Liu X T, Chen H Z, Wang Z C, Wang S W, Shi S L. Polym. Compos., 2024, 45(8): 7495. Cited in this article [1]

[41]	Liu M Y, Yao W R, Shan J Y, Zheng H, Yang Y Q, Cao L J, Qi B, Tan H Y, Sun C, Zhang X Q, Zhang Y H. Int. J. Biol. Macromol., 2024, 279: 135560. Cited in this article [1]