Guo YJ, Wang XY, Li BB, Shen Y, Shen LY, Wu JX, Yang J. Oxidized sodium alginate crosslinked silk fibroin composite scaffold for pores and skin tissue engineering. J Biomed Mater Res B Appl Biomater. 2022;110:2667–75.
Hisham F, Akmal MHM, Ahmad F, Ahmad Ok, Samat N. Biopolymer chitosan: potential sources, extraction strategies, and rising functions. Ain Shams Eng J. 2024, 15.
Pan XH, Li R, Li WY, Solar W, Yan YY, Xiang XC, Fang JH, Liao YG, Xie C, Wang XZ et al. Silk fibroin hydrogel adhesive allows sealed-tight reconstruction of meniscus tears. Nat Commun. 2024, 15.
Solar J, Xiao LL, Li B, Zhao KL, Wang ZL, Zhou Y, Ma C, Li JJ, Zhang HJ, Herrmann A, Liu Ok. Genetically engineered polypeptide adhesive coacervates for surgical functions. Angew Chem Int Ed. 2021;60:23687–94.
Wang HH, Wang MX, Wu JH, Zhu SL, Ye YA, Liu YS, Li Ok, Li RY, Zhang YH, Wei M et al. Nature-inspired gelatin-based adhesive hydrogel: A fast and user-friendly answer for hemostatic functions. Adv Healthc Mater. 2024.
Tarafder S, Park GY, Felix J, Lee CH. Bioadhesives for musculoskeletal tissue regeneration. Acta Biomater. 2020;117:77–92.
Nakipoglu M, Tezcaner A, Contag CH, Annabi N, Ashammakhi N. Bioadhesives with antimicrobial properties. Adv Mater. 2023, 35.
Zhu J, Zhou HL, Gerhard EM, Zhang SH, Rodríguez FIP, Pan TS, Yang HB, Lin Y, Yang J, Cheng HY. Good bioadhesives for wound therapeutic and closure. Bioact Mater. 2023;19:360–75.
Chen XM, Zhang J, Chen GD, Xue Y, Zhang JJ, Liang XY, Lei EM, Lin JS, Xu BB, Liu J. Hydrogel bioadhesives with excessive acid-tolerance for gastric perforation repairing. Adv Funct Mater. 2022, 32.
Singh M, Nanda HS, Lee JYH, Wang JK, Tan NS, Steele TWJ. Photocurable platelet wealthy plasma bioadhesives. Acta Biomater. 2020;117:133–41.
Barapatre A, Meena AS, Mekala S, Das A, Jha H. In vitro analysis of antioxidant and cytotoxic actions of lignin fractions extracted from Acacia nilotica. Int J Biol Macromol. 2016;86:443–53.
Xue J, Wang D, Li XJ, Li GC, Wang Z, Liu YS, Li XB. A tandem technique of gentle preoxidation-hydrogenolysis for environment friendly depolymerization of lignin. Mol Catal. 2023, 549.
Sharifi M, Pothu R, Boddula R. Inamuddin. Lignin to value-added chemical synthesis. Curr Anal Chem. 2021;17:936–46.
Track CY, Gao C, Fatehi P, Wang SJ, Jiang CB, Kong FG. Affect of construction and useful group of modified kraft lignin on adsorption habits of dye. Int J Biol Macromol. 2023, 240.
Singh M, Lee SC, Received Ok. Lignin phenolation by graft copolymerization to spice up its reactivity. Int J Biol Macromol. 2024, 266.
Figueiredo P, Lintinen Ok, Hirvonen JT, Kostiainen MA, Santos HA. Properties and chemical modifications of lignin: in direction of lignin-based nanomaterials for biomedical functions. Prog Mater Sci. 2018;93:233–69.
Shao Y, Xia QN, Dong L, Liu XH, Han X, Parker SF, Cheng YQ, Daemen LL, Ramirez-Cuesta AJ, Yang SH, Wang YQ. Selective manufacturing of Arenes by way of direct lignin upgrading over a niobium-based catalyst. Nat Commun. 2017, 8.
Martim DB, Brilhante A, Lima AR, Paixao DAA, Martins J Jr., Kashiwagi FM, Wolf LD, Costa MS, Menezes FF, Prata R et al. Resolving the metabolism of monolignols and different lignin-related fragrant compounds in Xanthomonas citri. Nat Commun. 2024, 15.
Sugiarto S, Leow Y, Tan CL, Wang G, Kai D. How Far is lignin from being a biomedical materials? Bioact Mater. 2022;8:71–94.
Dong L, Wang YQ, Dong YG, Zhang Y, Pan MZ, Liu XH, Gu XL, Antonietti M, Chen ZP. Sustainable manufacturing of dopamine hydrochloride from softwood lignin. Nat Commun. 2023, 14.
Sapouna I, Alexakis AE, Malmström E, McKee LS. Construction-property relationship of native-like lignin nanoparticles from softwood and hardwood. Ind Crops Prod. 2023, 206.
Wang TP, Li H, Yuan JM, Li WX, Li Ok, Huang YB, Xiao LP, Lu Q. Constructions and pyrolytic traits of organosolv lignins from typical softwood, hardwood and herbaceous biomass. Ind Crops Prod. 2021, 171.
Vigh M. A trashed treasure: lignin may change into a big and renewable supply of natural compounds for the chemical trade to exchange fossil fuel-based chemical compounds. EMBO Rep. 2023, 24.
Bajwa DS, Pourhashem G, Ullah AH, Bajwa SG. A concise evaluate of present lignin manufacturing, functions, merchandise and their environmental impression. Ind Crops Prod. 2019;139:111526.
Weidener D, Holtz A, Klose H, Jupke A, Leitner W, Grande PM. Lignin precipitation and fractionation from organocat pulping to acquire lignin with completely different sizes and chemical composition. Molecules. 2020, 25.
Solar RC. Lignin supply and structural characterization. Chemsuschem. 2020;13:4385–93.
Dessbesell L, Paleologou M, Leitch M, Pulkki R, Xu C. International lignin provide overview and kraft lignin potential as a substitute for petroleum-based polymers. Renew Sustainable Vitality Critiques. 2020, 123.
Söderholm Ok, Bergquist AK. Rising inexperienced and Aggressive-A case examine of a Swedish pulp mill. Sustainability. 2013;5:1789–805.
UPM Biochemicals. https://www.upmbiochemicals.com. Accessed 10 June 2025.
Borregaard. https://www.borregaard.com/product-areas/lignin. Accessed 10 June 2025.
Domsjö. https://www.domsjo.adityabirla.com/produkter/lignin/. Accessed 10 June 2025.
Stora Enso. https://www.storaenso.com/en/merchandise/bio-based-materials/neoligno-by-stora-enso. Accessed 10 June 2025.
Escalante FME, Carranza-Hernández A, García-Zamora A, Aguilar-Garnica E. Optimization of lignin-based biocatalyst manufacturing from pine sawdust and wheat straw. Molecules. 2018, 23.
Bécsy-Jakab VE, Savoy A, Saulnier BK, Singh SK, Hodge DB. Extraction, restoration, and characterization of lignin from industrial corn Stover lignin cake. Bioresour Technol. 2024, 399.
Huang YX, Peng LL, Liu Y, Zhao GJ, Chen JY, Yu GH. Biobased nano porous energetic carbon fibers for high-performance supercapacitors. ACS Appl Mater Interfaces. 2016;8:15205–15.
Mainka H, Täger O, Körner E, Hilfert L, Busse S, Edelmann FT, Herrmann AS. Lignin – another precursor for sustainable and cost-effective automotive carbon fiber. J Mater Res Technol. 2015;4:283–96.
Webber MS, Watson J, Zhu J, Jang JH, Çaglayan M, Heyne JS, Beckham GT, Róman-Leshkov Y. Lignin deoxygenation for the manufacturing of sustainable aviation gasoline blendstocks. Nat Mater. 2024;23:1622–38.
Prakash VRA, Bourchak M, Alshahrani H, Juhany KA. Synthesis and characterization of light-weight unmanned aerial car composite Constructing materials for protection utility. Biomass Convers Biorefin. 2023.
Dorieh A, Pahlavan F, Hájková Ok, Hysek S, Pour MF, Fini EH. Advancing sustainable Constructing supplies: decreasing formaldehyde emissions in medium density fiber boards with lignin nanoparticles. Adv Maintain Syst. 2024, 8.
Liu SC, Xin X, He ZJ, Xie ZH, Xie ZX, Liu ZH, Li BZ, Yuan YJ. Organic conversion of lignin-derived ferulic acid from wheat Bran into Vanillin. Int J Biol Macromol. 2024, 281.
Track J, He YN, Luo CH, Feng B, Ran F, Xu H, Ci ZM, Xu RC, Han L, Zhang DK. New progress within the Pharmacology of Protocatechuic acid: A compound ingested in every day meals and herbs continuously and closely. Pharmacol Res. 2020, 161.
Liu B, Li CP, Wang WQ, Track SG, Liu XM. Lignans extracted from Eucommia ulmoides oliv. Protects in opposition to AGEs-induced retinal endothelial cell harm. Cell Physiol Biochem. 2016;39:2044–54.
Moussaoui Y, Ferhi F, Elaloui E, Ben Salem R, Belgacem MN. Utilization of Astragalus armatus roots in papermaking. BioResources. 2011;6:4969–78.
Leventis TE, Choose P, Zhang JL, Kazmi MZH, Foston MB, Williams FJ. Boron Lewis acid extraction of wooden generates prime quality lignin. ACS Maintain Chem Eng. 2024;12:17210–21.
Bakshi MI, Nazir S, Restu WK, Rajamanickam R, Selvasembian R, Hua LS, Antov P, Yadav KK, Abbas M, Farobie O, Fatriasari W. Current advances in lignin from forest residue for hydrogel utility. Biomass Convers Biorefin. 2024.
Carvajal JC, Gómez A, Cardona CA. Comparability of lignin extraction processes: financial and environmental evaluation. Bioresour Technol. 2016;214:468–76.
Dong X, Shang J, Xiao TY, Track R, Sheng XR, Li N, Zhang J, Ping QW. A facile technique to manufacture sustainable bamboo ethanol lignin/carboxymethylcellulose movies with environment friendly anti-ultraviolet and insulation properties. Int J Biol Macromol. 2024, 273.
Solar D, Wang B, Wang HM, Li MF, Shi QT, Zheng L, Wang SF, Liu SJ, Solar RC. Structural transformations of hybrid Pennisetum lignin: impact of microwave-assisted hydrothermal pretreatment. ACS Maintain Chem Eng. 2019;7:3073–82.
Rao KCA, Nair CS. Mixture of ensemble machine studying fashions in photocatalytic research utilizing nano TiO2-lignin primarily based Biochar. Chemosphere. 2024;352:141326.
De Saegher T, Deroma M, Atanasova B, Van Geem KM, De Clercq J, Lauwaert J, Verberckmoes A. Maximizing the valorization potential of lignin by way of optimization of the soda pulping circumstances. Sep Purif Technol. 2025, 354.
Mao YJ, Gerrow A, Ray E, Perez ND, Edler Ok, Wolf B, Binner E. Lignin restoration from cocoa bean shell utilizing microwave-assisted extraction and deep eutectic solvents. Bioresour Technol. 2023, 372.
Mohammadabadi SI, Javanbakht V. Lignin extraction from barley straw utilizing ultrasound-assisted remedy technique for a lignin-based biocomposite Preparation with exceptional adsorption capability for heavy steel. Int J Biol Macromol. 2020;164:1133–48.
Shen XJ, Huang PL, Wen JL, Solar RC. A facile technique for Char elimination throughout base-catalyzed depolymerization and hydrogenolysis of lignin. Gasoline Course of Technol. 2017;167:491–501.
Aro T, Fatehi P. Manufacturing and utility of lignosulfonates and sulfonated lignin. Chemsuschem. 2017;10:1861–77.
Agwu KA, Ekeoma BC, Enguita JM, Daymude JW, Bara JE, Sheehan JD. Glycerol-derived solvents for tractable organosolv extraction of softwood lignins. ACS Maintain Chem Eng. 2024;12:15089–102.
Sebhat W, El Roz A, Fongarland P, Vilcocq L, Djakovitch L. Catalytic liquefaction of kraft lignin with solvothermal method. Catalysts. 2021, 11.
Vishtal A, Kraslawski A. Challenges in industrial functions of technical lignins. BioResources. 2011;6:3547–68.
Dhara S, Samanta NS, Uppaluri R, Purkait MK. Excessive-purity alkaline lignin extraction from Saccharum ravannae and optimization of lignin restoration by way of response floor methodology. Int J Biol Macromol. 2023, 234.
Lugovitskaya TN, Kolmachikhina EB. Associative habits of lignosulfonates in reasonably concentrated water, water-salt, and water-alcoholic media. Biomacromolecules. 2021;22:3323–31.
Kumar N, Vijayshankar S, Pasupathi P, Kumar SN, Elangovan P, Rajesh M, Tamilarasan Ok. Optimum extraction, sequential fractionation and structural characterization of soda lignin. Res Chem Intermed. 2018;44:5403–17.
Dababi I, Gimello O, Elaloui E, Quignard F, Brosse N. Organosolv lignin-based wooden adhesive: affect of the lignin extraction circumstances on the adhesive efficiency. Polymers. 2016, 8.
Thoresen PP, Lange HK, Crestini C, Rova U, Matsakas L, Christakopoulos P. Characterization of organosolv Birch lignins: towards application-specific lignin manufacturing. ACS Omega. 2021;6:4374–85.
Zheng JY, Chen LH, Qiu XQ, Liu YC, Qin YL. Construction investigation of light-colored lignin extracted by Lewis acid-based deep eutectic solvent from softwood. Bioresour Technol. 2023, 385.
Nardella F, Prothmann J, Sandahl M, Spégel P, Ribechini E, Turner C. Native lignin extraction from soft- and hardwood by inexperienced and benign sub/supercritical fluid extraction methodologies. RSC Adv. 2023;13:21945–53.
Pérez E, Tuck CO, Poliakoff M. Valorisation of lignin by depolymerisation and fractionation utilizing supercritical fluids and standard solvents. J Supercrit Fluids. 2018;133:690–5.
Li Man ZX, Huahui Z, Xiangxiang W. Analysis progress on ionic liquid extraction expertise in extracting efficient elements of Chinese language drugs. World J Tradit Chin Med. 2023;18:2541–7.
Miao CL, Xinshu Z, Yang LM, Li HW, Lv PM, Luo W. Examine on extraction of lignin and synthesis of lignin-based epoxy resins utilizing ionic liquid. Biomass Convers Biorefin. 2023;13:1115–26.
Ciolacu F, Malutan T, Lisa G, Ichim M. Affect of lignin kind on the properties of hemp fiber-reinforced polypropylene composites. Polymers. 2024, 16.
Johansson M, Skrifvars M, Kadi N, Dhakal HN. Impact of lignin acetylation on the mechanical properties of lignin-poly-lactic acid biocomposites for superior functions. Ind Crops Prod. 2023, 202.
Greco R, Tiburcio E, Palomar-De Lucas B, et al. Click on amidations, esterifications and one–pot reactions catalyzed by Cu salts and multimetal–natural frameworks (M–MOFs). Mol Catal. 2022;522:112228.
Heble AY, Chen C. Entry to superior useful supplies by way of postmodification of biomimetic assemblies by way of click on chemistry. Biomacromolecules. 2024;25(3):1391–407.
An. l, chen j, heo jw, bae jh, jeong h, kim ys. Synthesis of lignin-modified cellulose nanocrystals with antioxidant exercise by way of diels–alder response and its utility in carboxymethyl cellulose movie. Carbohydrate polymers. 2021. 274: 118651.
Zhang duan. f, su y, wang m, wang j. Results of ultrasonic-alkali built-in extraction mixed with mannesi response on the antimicrobial properties of rice straw lignin and enhancement methods. Worldwide journal of organic macromolecules. 2025. 284: 138047.
Liu b. Shao x, Kang z, Cheng h, Hu d. Sustainable lignin-driven homogenization of microarchitecture in bettering tio2 dye-sensitized photoanode. J Energy Sources. 2025;644:237142.
Wu r. Liu w, Li z, Hou q. Revealing adsorption of combined enzymes onto Lignin resulted from integration of hydrothermal and chemi-mechanical pretreatment. Ind Crops Prod. 2023;194:116353.
Quesada-salas et al. mc, vuillemin me, dillies j,. 1-ethyl-3-methyl imidazolium acetate, hemicellulolytic enzymes and laccase-mediator system: towards an built-in co-valorization of polysaccharides and lignin from miscanthus. Industrial crops and merchandise. 2023. 197: 116627.
Kim KH, Jeong Ok, Zhuang JS, Jeong HJ, Kim CS, Koo B, Yoo CG. Tandem conversion of lignin to catechols by way of demethylation and catalytic hydrogenolysis. Ind Crops Prod. 2021;159.
Yan GH, Chen GF, Peng ZQ, Shen ZL, Tang X, Solar Y, Zeng XH, Lin L. The cross-linking mechanism and functions of catechol-metal polymer supplies. Adv Mater Interfaces. 2021;8.
Marcelo G, López-González M, Trabado I, Rodrigo MM, Valiente M, Mendicuti F. Lignin-inspired PEG hydrogels for drug supply. Mater Right now Commun. 2016;7:73–80.
Jia ZR, Zeng Y, Tang PF, Gan DL, Xing WS, Hou Y, Wang KF, Xie CM, Lu X. Conductive, robust, clear, and self-healing hydrogels primarily based on catechol-metal ion twin self-catalysis. Chem Mater. 2019;31:5625–32.
Wu HS, Sariola V, Zhao JS, Ding HJ, Sitti M, Bettinger CJ. Composition-dependent underwater adhesion of catechol-bearing hydrogels. Polym Int. 2016;65:1355–9.
Afewerki S, Wang XC, Ruiz-Esparza GU, Tai CW, Kong XY, Zhou SY, Welch Ok, Huang P, Bengtsson R, Xu C, Strömme M. Mixed catalysis for engineering bioinspired, lignin-based, long-lasting, adhesive, self-mending, antimicrobial hydrogels. ACS Nano. 2020;14:17004–17.
Chen LH, Li T, Qiu XQ, Qin YL. Amino acid-modified lignin mixed with methylation to kind novel pH-responsive colloidal spheres with tunable properties. ACS Maintain Chem Eng. 2024;12:5052–60.
Hajirahimkhan S, Xu CC, Ragogna PJ. Ultraviolet curable coatings of modified lignin. ACS Maintain Chem Eng. 2018;6:14685–94.
Yu XN, Chen SS, Wang WC, Deng TS, Wang HL. Empowering alkali lignin with excessive efficiency in Pickering emulsion by selective phenolation for the safety and controlled-release of agrochemical. J Clear Prod. 2022;339.
Korich AL, Fleming AB, Walker AR, Wang JF, Tang CB, Iovine PM. Chemical modification of organosolv lignin utilizing boronic acid-containing reagents. Polymer. 2012;53:87–93.
Deng PP, Chen FX, Zhang HD, Chen Y, Zhou JP. Conductive, self-healing, adhesive, and antibacterial hydrogels primarily based on lignin/cellulose for fast MRSA-infected wound repairing. ACS Appl Mater Interfaces. 2021;13:52333–45.
Nardi M, Ceseracciu L, Scribano V, Contardi M, Athanassiou A, Zych A. Sustainable adhesives: exploring boronic ester vitrimers containing lignin microparticles. Chem Eng J. 2024;495.
Wang DF, Shan YT, Liu L, Diao MY, Yao JM. Lignin demethylation enabled strong and reprocessable bio-polyurethane elastomer with adaptable cross-linking community. Ind Crops Prod. 2024;208.
Ahadyani N, Abdollahi M. Phenolation, amination and cross-linking of lignin: synthesis and characterization of functionalized lignin. Polym Bull. 2024;81:8643–61.
Dinu R, Cantarutti C, Mija A. Design of sustainable supplies by cross-linking a biobased epoxide with keratin and lignin. ACS Maintain Chem Eng. 2020;8:6844–52.
Anghel N, Melinte V, Spiridon I, Pertea M. Antioxidant, antimicrobial, and kinetic research of β-cyclodextrin crosslinked with lignin for drug supply. Pharmaceutics. 2022;14.
Srivastava A, Manu, Gupta RK. Xanthan gum and lignin grafted chemically crosslinked hydrogels for dye elimination: synthesis, characterization and isotherms research. Polym Sci Ser A. 2023;65:725–33.
Huang ZY, Wang H, Du JH, Liu XC, Pan GY, Yin XS, Lin WJ, Lin XF, Solar YJ, Yi GB, Niu L. Excessive-strength, self-reinforcing and recyclable multifunctional lignin-based polyurethanes primarily based on multi-level dynamic cross-linking. Chem Eng J. 2023;473.
Andriani F, Lawoko M. Oxidative carboxylation of lignin: exploring reactivity of various lignin varieties. Biomacromolecules. 2024;25:4246–54.
Zhang YJ, Wang H, Eberhardt TL, Gu Q, Pan H. Preparation of carboxylated lignin-based epoxy resin with glorious mechanical properties. Eur Polym J. 2021;150.
Qian Y, Zhou YJ, Lu MJ, Guo XS, Yang DJ, Lou HM, Qiu XQ, Guo CAF. Direct development of catechol lignin for engineering long-acting conductive, adhesive, and UV-blocking hydrogel bioelectronics. Small Strategies. 2021;5.
Zheng T, Zheng DF, Li XK, Cai C, Lou HM, Liu WF, Qiu XQ. Synthesis of quaternized lignin and its clay-tolerance properties in montmorillonite-containing cement paste. ACS Maintain Chem Eng. 2017;5:7743–50.
Ye XX, Luo W, Lin L, Zhang YQ, Liu MH. Quaternized lignin-based dye dispersant: characterization and efficiency analysis. J Dispers Sci Technol. 2017;38:852–9.
Wang YY, Wang H, Li ZX, Yang DJ, Qiu XQ, Liu YC, Yan MZ, Li Q. Fabrication of litchi-like lignin/zinc oxide composites with enhanced antibacterial exercise and their utility in polyurethane movies. J Colloid Interface Sci. 2021;594:316–25.
Wang YQ, Chen MJ, Yang Y, Ralph J, Pan XJ. Environment friendly O-demethylation of lignin-derived fragrant compounds beneath average circumstances. RSC Adv. 2023;13:5925–32.
Sawamura Ok, Tobimatsu Y, Kamitakahara H, Takano T. Lignin functionalization by way of chemical demethylation: Preparation and tannin-like properties of demethylated guaiacyl-type artificial lignins. ACS Maintain Chem Eng. 2017;5:5424–31.
Liu HL, Chung HY. Seen-light induced thiol-ene response on pure lignin. ACS Maintain Chem Eng. 2017;5:9160–8.
Belgodere JA, Son DW, Jeon B, Choe J, Guidry AC, Bao AX, Zamin SA, Parikh UM, Balaji S, Kim M, Jung JP. Attenuating fibrotic markers of patient-derived dermal fibroblasts by thiolated lignin composites. ACS Biomater Sci Eng. 2021;7:2212–8.
Paananen H, Alvila L, Pakkanen TT. Hydroxymethylation of softwood kraft lignin and phenol with paraformaldehyde. Maintain Chem Pharm. 2021;20.
Malutan T, Nicu R, Popa VI. Contribution to the examine of hydroxymethylation response of alkali lignin. BioResources. 2008;3:13–20.
Pang J, Meng LZ, Huang HT, Ma J, He LL, Huang P. Adorned gold nanoparticles on hydroxymethylated lignin modified magnetic composite: introducing a novel therapeutic drug for the remedy of renal anemia. Inorg Chem Commun. 2023;153.
de Oliveira DR, Avelino F, Mazzetto SE, Lomonaco D. Microwave-assisted selective acetylation of kraft lignin: acetic acid as a sustainable reactant for lignin valorization. Int J Biol Macromol. 2020;164:1536–44.
Zhao XH, Huang ZQ, Zhang YJ, Yang M, Chen D, Huang Ok, Hu HY, Huang AM, Qin XZ, Feng ZF. Environment friendly solid-phase synthesis of acetylated lignin and a comparability of the properties of various modified lignins. J Appl Polym Sci. 2017;134.
Maldonado-Carmona N, Ouk TS, Villandier N, Calliste CA, Calvete MJF, Pereira MM, Leroy-Lhez S. Photophysical and antibacterial properties of porphyrins encapsulated inside acetylated lignin nanoparticles. Antibiot (Basel). 2021;10.
Abdulkhani A, Khorasani Z, Hamzeh Y, Momenbeik F, Zadeh ZE, Solar FB, Madadi M, Zhang XM. Valorization of Bagasse alkali lignin to water-soluble derivatives by way of chemical modification. Biomass Convers Biorefin. 2024;14:8639–47.
Al-Horani RA, Aliter KF. Triple motion of lignosulfonic acid sodium: Anti-protease, antioxidant, and anti inflammatory results of a polymeric heparin mimetic. Med Chem. 2024;20:414–21.
Zhao CK, Li SX, Zhang H, Yue FX, Lu FC. Structural insights into the alkali lignins involving the formation and transformation of arylglycerols and enol ethers. Int J Biol Macromol. 2020;152:411–7.
Zhou HZ, Li JY, Ma EN. Multiscale modification of Populus Cathayana by alkali lignin mixed with warmth remedy. Polymers. 2018;10.
Zhou YJ, Qian Y, Wang JY, Qiu XQ, Zeng HB. Bioinspired lignin-polydopamine nanocapsules with sturdy bioadhesion for long-acting and high-performance pure sunscreens. Biomacromolecules. 2020;21:3231–41.
Yan L, Huertas-Alonso AJ, Liu H, Dai L, Si C, Sipponen MH. Lignin polymerization: in direction of high-performance supplies. Chem Soc Rev. 2025 Jun;10.
Guo HD, Cao MN, Liu RX, Tian B, Liu SX, Li J, Li SJ, Strehmel B, James TD, Chen ZJ. Photocured room temperature phosphorescent supplies from lignosulfonate. Nat Commun. 2024;15.
Michalek L, Mundsinger Ok, Barner-Kowollik C, Barner L. The lengthy and the wanting polymer grafting. Polym Chem. 2019;10:54–9.
Tobita H. Impact of small response locus in free-radical polymerization: standard and reversible-deactivation radical polymerization. Polymers. 2016;8.
Santos CCO, Ferreira V, Pinheiro F, Lona IF. Lignin valorization by way of polymer grafting by ring-opening polymerization and its utility in well being, packaging, and coating. J Environ Chem Eng. 2023;11(3):109691.
Najarro MC, Nikolic M, Iruthayaraj J, Johannsen I. Tuning the Lignin-Caprolactone copolymer for coating steel surfaces. ACS Appl Polym MaterialsACS Appl Polym MaterialsACS Appl Polym Mater. 2020;2(12):5767–78.
Tian J, Yang Y, Track J. Grafting Polycaprolactone onto alkaline lignin for improved compatibility and processability. Int J Biol Macromol. 2019;141:919–26.
Li Y, Wang XN, Han YY, Solar HY, Hilborn J, Shi LY. Click on chemistry-based biopolymeric hydrogels for regenerative drugs. Biomed Mater. 2021;16.
Wahan SK, Bhargava G, Chawla PA. Harnessing click on chemistry for the invention of fluorescent supplies. Dyes Pigm. 2024;222.
Devaraj NK, Finn MG. Introduction: click on chemistry. Chem Rev. 2021;121:6697–8.
Dudchak R, Podolak M, Holota S, Szewczyk-Roszczenko O, Roszczenko P, Bielawska A, Lesyk R, Bielawski Ok. Click on chemistry within the synthesis of antibody-drug conjugates. Bioorg Chem. 2024;143.
An RR, Liu CG, Wang J, Jia PY. Wooden-derived polymers from olefin-functionalized lignin and Ethyl cellulose by way of thiol-ene click on chemistry. Polymers. 2023;15.
Jin YJ, Joshi M, Araki T, Kamimura N, Masai E, Nakamura M, Michinobu T. Click on synthesis of Triazole polymers primarily based on lignin-derived metabolic intermediate and their sturdy adhesive properties to Cu plate. Polymers. 2023;15.
Han YM, Yuan L, Li GY, Huang LH, Qin TF, Chu FX, Tang CB. Renewable polymers from lignin by way of copper-free thermal click on chemistry. Polymer. 2016;83:92–100.
An LL, Chen J, Heo JW, Bae JH, Jeong H, Kim YS. Synthesis of lignin-modified cellulose nanocrystals with antioxidant exercise by way of Diels-Alder response and its utility in carboxymethyl cellulose movie. Carbohydr Polym. 2021;274.
Wang HX, Mai YA, Qiu WL, Liu WF, Yang DJ, Fang ZQ, Qiu XQ. Water-, oil-, and stain-resistant lignin-based degradable waterborne polyurethane for paper packaging coating. ACS Maintain Chem Eng. 2025.
Heble AY, Chen CL. Entry to superior useful supplies by way of postmodification of biomimetic assemblies by way of click on chemistry. Biomacromolecules. 2024;25:1391–407.
Sougrati L, Duval A, Avérous L. Introducing phenol-yne chemistry for the design of lignin-based vitrimers: in direction of sustainable and recyclable supplies. J Mater Chem A. 2025.
Ciferri MC, Bruno S, Rosenwasser N, Gorgun C, Reverberi D, Gagliani MC, Cortese Ok, Grange C, Bussolati B, Quarto R, Tasso R. Standardized technique to functionalize plasma-extracellular vesicles by way of copper-free click on chemistry for focused drug supply methods. ACS Appl Bio Mater. 2024;7:827–38.
Yoon HY, Lee D, Lim DK, Koo H, Kim Ok. Copper-free click on chemistry: functions in drug supply, cell monitoring, and tissue engineering. Adv Mater. 2022;34:e2107192.
Kim E, Koo H. Biomedical functions of copper-free click on chemistry: in vitro, in vivo, and ex vivo. Chem Sci. 2019;10:7835–51.
Kim JY, Hwang H, Oh S, Kim YS, Kim UJ, Choi JW. Investigation of structural modification and thermal traits of lignin after warmth remedy. Int J Biol Macromol. 2014;66:57–65.
Gu LH, Jiang B, Track JL, Jin YC, Xiao HN. Impact of lignin on efficiency of lignocellulose nanofibrils for sturdy superhydrophobic floor. Cellulose. 2019;26:933–44.
Gilca IA, Popa VI, Crestini C. Acquiring lignin nanoparticles by sonication. Ultrason Sonochem. 2015;23:369–75.
Xu J, Krietemeyer EF, Boddu VM, Liu SX, Liu WC. Manufacturing and characterization of cellulose nanofibril (CNF) from agricultural waste corn Stover. Carbohydr Polym. 2018;192:202–7.
Xia QQ, Chen CJ, Yao YG, He SM, Wang XZ, Li JG, Gao JL, Gan WT, Jiang B, Cui MJ, Hu LB. In situ lignin modification towards photonic wooden. Adv Mater. 2021;33.
Kumar A, Kumar GA. Modification of lignin properties utilizing alpha particles and gamma-rays for various functions. Radiat Phys Chem. 2023;202.
Ingti pi Ok, Choudhury BJ, Moholkar VS. Ultrasound assisted lignin-decorated MWCNT doped versatile PVA-Chitosan composite hydrogel. Mater Right now Commun. 2023;35.
Liza AA, Wang SH, Zhu YC, Wu H, Guo LK, Qi YG, Zhang FS, Track JL, Ren H, Guo JQ. Ultraviolet (UV) assisted fabrication and characterization of lignin containing cellulose nanofibrils (LCNFs) from wooden residues. Int J Biol Macromol. 2024;283.
Chen SL, Shao QZ, Hu L, Tan ZR, Zheng DF. Hydrophobic and magnetic fabrication of hydroxyethyl cellulose-lignin aerogel by way of ultrasound enhancement for environment friendly oil/water separation. J Water Course of Eng. 2023;52.
Fang L, Yazdi S, Frazier CE. Catalytic acidolysis: impression on in situ pine-lignin repolymerization. ACS Maintain Chem Eng. 2023;11:10709–16.
Wang X, Xu WB, Zhang D, Li XY, Shi JY. Structural characteristics-reactivity relationships for catalytic depolymerization of lignin into fragrant compounds: A evaluate. Int J Mol Sci. 2023;24.
Civzele A, Stipniece-Jekimova AA, Mezule L. Fungal ligninolytic enzymes and their utility in biomass lignin pretreatment. J Fungi. 2023;9.
Xu WH, Zhou CW, Hu Ok, Yang JW, Su WK, Qiao P. Novel mechanoenzymatic technique for lignin depolymerization. Ind Eng Chem Res. 2023;62:19448–58.
Qiu W, Liu J. Fermenting and lignin degradability of a white-rot fungus coriolopsis trogii utilizing industrial lignin as substrate. Appl Biochem Biotechnol. 2022;194:5220–35.
Chen HY, Liang XY, Li SZ, Cui ZL, Yong YC, Ni Z, Bu Q, Zhu DC. Straw lignin degradation by lignin peroxidase from Irpex lacteus cooperated with enzymes and small molecules. Biotechnol Lett. 2023;45:95–104.
Chen HY, Li SZ, Cui ZL, Feng T, Wang HC, Ni Z, Gao EB, Fang Z. Synergistic degradation of maize straw lignin by manganese peroxidase from Irpex lacteus. Appl Biochem Biotechnol. 2023;195:3855–71.
Zhu DC, Liang N, Zhang RX, Ahmad F, Zhang WM, Yang B, Wu J, Geng A, Gabriel M, Solar JZ. Perception into depolymerization mechanism of bacterial laccase for lignin. ACS Maintain Chem Eng. 2020;8:12920–33.
Xu R, Zhang Ok, Liu P, Han HW, Zhao S, Kakade A, Khan A, Du DL, Li XK. Lignin depolymerization and utilization by micro organism. Bioresour Technol. 2018;269:557–66.
Zhao ZM, Liu ZH, Pu YQ, Meng XZ, Xu JF, Yuan JS, Ragauskas AJ. Rising methods for modifying lignin chemistry to boost organic lignin valorization. Chemsuschem. 2020;13:5423–32.
Benner. r, hodson re: thermophilic anaerobic biodegradation of c-14 lignin, c-14 cellulose, and c-14 lignocellulose preparations. Appl. Environ. Microbiol. 1985;50:971–976.
Pereira JH, Heins RA, Gall DL, McAndrew RP, Deng Ok, Holland KC, Donohue TJ, Noguera DR, Simmons BA, Sale KL, et al. Structural and biochemical characterization of the early and late enzymes within the lignin β-Aryl ether cleavage pathway from Sphingobium sp.SYK-6. J Biol Chem. 2016;291:10228–38.
Sugano Y, Yoshida T. DyP-Sort peroxidases: latest advances and views. Int J Mol Sci. 2021;22.
Bricotte L, Chougrani Ok, Alard V, Ladmiral V, Caillol S. Adhesion theories: A didactic evaluate a few century of progress. Int J Adhes Adhes. 2024;132.
Wang Z, Wan XZ, Wang ST. Bioinspired chemical design to regulate interfacial moist adhesion. Chem. 2023;9:771–83.
Track TJ, He Z, He H, Wang TT, Du J, Lv YN, Tao YH, Lu J, Fu CL, Hu JW, Wang HS. Alkali lignin-Fe(III)-induced successive redox response triggered ultrafast gelation of top of the range hydrogel for wearable versatile sensors and self-powered units. Chem Eng J. 2024;500.
Hou Y, Li YZ, Li YQ, Li D, Guo TL, Deng X, Zhang HP, Xie CM, Lu X. Tuning waterproof networks in mussel-inspired hydrogels for strong moist tissue and bioelectronic adhesion. ACS Nano. 2023;17:2745–60.
Cao JF, Zhao YN, Jin SC, Li JZ, Wu P, Luo ZQ. Versatile lignin-based hydrogels with self-healing and adhesive capability pushed by noncovalent interactions. Chem Eng J. 2022;429.
Ghaffar SH, Fan MZ. Lignin in straw and its functions as an adhesive. Int J Adhes Adhes. 2014;48:92–101.
Luo J, Luo JL, Yuan C, Zhang W, Li JZ, Gao Q, Chen H. An eco-friendly wooden adhesive from soy protein and lignin: efficiency properties. RSC Adv. 2015;5:100849–55.
Roy T, James BD, Allen JB. Anti-VEGF-R2 aptamer and RGD peptide synergize in a bifunctional hydrogel for enhanced angiogenic potential. Macromol Biosci. 2021;21.
Wang X, Li X, Peng L, Han S, Hao C, Jiang C, Wang H, Fan X. Efficient elimination of heavy metals from water utilizing porous lignin-based adsorbents. Chemosphere. 2021;279:130504.
Santos OSH, da Silva MC, Silva VR, Mussel WN, Yoshida MI. Polyurethane foam impregnated with lignin as a filler for the elimination of crude oil from contaminated water. J Hazard Mater. 2017;324:406–13.
Domínguez-Robles J, Peresin MS, Tamminen T, Rodríguez A, Larrañeta E, Jääskeläinen AS. Lignin-based hydrogels with super-swelling capacities for dye elimination. Int J Biol Macromol. 2018;115:1249–59.
Zhang HN, Fu TT, Zhu YC, Hao C, Huang Y, Ren H, Yan N, Zhai HM. Strong and ultra-tough lignocellulosic organogel with zipper-like sliding noncovalent nanostructural design: in direction of next-generation bio-derived versatile electronics. Chem Eng J. 2024;485.
Alaoui CH, Rethoré G, Weiss P, Fatimi A. Sustainable biomass lignin-based hydrogels: A evaluate on properties, formulation, and biomedical functions. Int J Mol Sci. 2023;24.
Yan G, He S, Ding N, Lee Y, Solar Y, Tang X, Zeng X, Lin L. Speedy polymerization of conductive hydrogels with multifunctionality initiated by lignin-tin organometallic compounds. Mater Right now Chem. 2022;23.
Cao YX, Yang MQ, Zhang R, Ning X, Zong MR, Liu XM, Li JD, Jing X, Li B, Wu XP. Carbon dot-based photo-cross-linked gelatin methacryloyl hydrogel allows dental pulp regeneration: A preliminary examine. ACS Appl Mater Interfaces. 2024;16:22976–88.
Yang H, Ghiassinejad S, van Ruymbeke E, Fustin CA. Tunable interpenetrating polymer community hydrogels primarily based on dynamic covalent bonds and metal-ligand bonds. Macromolecules. 2020;53:6956–67.
Chen WX, Ming Y, Wang M, Huang MS, Liu HY, Huang YS, Huang ZJ, Qing L, Wang Q, Jia B. Nanocomposite hydrogels in regenerative drugs: functions and challenges. Macromol Speedy Commun. 2023;44.
Abdullah T, Ilyasoglu G, Memic A. Designing lignin-based biomaterials as carriers of bioactive molecules. Pharmaceutics. 2023;15.
Huzyan HI, Aziz AA, Hussin MH. Ecofriendly wooden adhesives from date palm fronds lignin for plywood. BioResources. 2021;16:4106–25.
Yiamsawas D, Kangwansupamonkon W, Kiatkamjornwong S. Lignin-based nanogels for the discharge of payloads in alkaline circumstances. Eur Polym J. 2021;145.
Zhong W, Su WT, Li PH, Li KY, Wu WJ, Jiang B. Preparation and analysis progress of lignin-based supercapacitor electrode supplies. Int J Biol Macromol. 2024;259.
Rico-García D, Ruiz-Rubio L, Pérez-Alvarez L, Hernández-Olmos SL, Guerrero-Ramírez GL, Vilas-Vilela JL. Lignin-based hydrogels: synthesis and functions. Polymers. 2020;12.
Steck J, Yang J, Suo Z. Covalent topological adhesion. ACS Macro Lett. 2019;8:754–8.
Lee SY, Lee J, Track Y, Valtiner M, Lee DW. pH-Dependent interplay mechanism of lignin nanofilms. Nanoscale. 2021;13:19568–77.
Chandna S, Paul S, Kaur R, Gogde Ok, Bhaumik J. Photodynamic lignin hydrogels: A flexible self-healing platform for sustained launch of photosensitizer nanoconjugates. ACS Appl Polym Mater. 2022;4:8962–76.
Li WW, Cheng GG, Wang SJ, Jiang Y, Liu XY, Huang Q. Bifunctional lignocellulose nanofiber hydrogel possessing intriguing pH-responsiveness and self-healing functionality in direction of wound therapeutic functions. Int J Biol Macromol. 2024;260.
Zhu JH, Luo YW, Wang JX, Yu J, Liu Q, Liu JY, Chen RR, Liu PL, Wang J. Extremely environment friendly uranium extraction by aminated lignin-based thermo-responsive hydrogels. J Mol Liq. 2022;368.
Chiani E, Beaucamp A, Hamzeh Y, Azadfallah M, Thanusha AV, Collins MN. Synthesis and characterization of gelatin/lignin hydrogels as fast launch drug carriers for ribavirin. Int J Biol Macromol. 2023;224:1196–205.
Jiang YH, Chen YY, Tian D, Shen FY, Wan X, Xu L, Chen YC, Zhang HZ, Hu JG, Shen F. Fabrication and characterization of lignin-xylan hybrid nanospheres as pesticide carriers with enzyme-mediated launch property. Tender Matter. 2020;16:9083–93.
Huang JL, Leng KY, Chen YQ, Chen LY, Liu SH, Khan S, Wu DC, Fu RW. An interfacial crosslinking technique to fabricate an ultrathin two-dimensional composite of silicon oxycarbide-enwrapped silicon nanoparticles for high-performance lithium storage. J Mater Chem A. 2019;7:22950–7.
Spicher MT, Schwaminger SP, von der Haar-Leistl D, Fellenberg E, Berensmeier S. Course of growth for pilot-scale spray drying of ultrasmall iron (oxyhydr)oxide nanoparticles. Powder Technol. 2024;433.
Li NN, Panagiotopoulos AZ, Nikoubashman A. Structured nanoparticles from the self-assembly of polymer blends by way of fast solvent change. Langmuir. 2017;33:6021–8.
Chen LH, Luo SM, Huo CM, Shi YF, Feng J, Zhu JY, Xue W, Qiu XQ. New perception into lignin aggregation guiding environment friendly synthesis and functionalization of a lignin nanosphere with glorious efficiency. Inexperienced Chem. 2022;24:285–94.
Ortega-Sanhueza I, Girard V, Ziegler-Devin I, Chapuis H, Brosse N, Valenzuela F, Banerjee A, Fuentealba C, Cabrera-Barjas G, Torres C et al. Preparation and characterization of lignin nanoparticles from completely different plant sources. Polymers. 2024;16.
Zhang JW, Tian ZJ, Ji XX, Zhang FS. Fabrication mechanisms of lignin nanoparticles and their ultraviolet safety capability in PVA composite movie. Polymers. 2022;14.
Jergens E, de Araujo Fernandes-Junior S, Cui Y, Robbins A, Castro CE, Poirier MG, Gurcan MN, Otero JJ, Winter JO. DNA-caged nanoparticles by way of electrostatic self-assembly. Nanoscale. 2023;15:9390–402.
Yang YY, Xu JY, Zhou JH, Wang X. Preparation, characterization and formation mechanism of size-controlled lignin nanoparticles. Int J Biol Macromol. 2022;217:312–20.
Singh G, Das Ok, Mandal DD. Valorization of kraft lignin by way of its conversion into lignin nanoparticles to behave each as DDS and biostimulator for plant. Waste Biomass Valorization. 2024;15:4823–38.
Meng TT, Ding Y, Liu Y, Xu L, Mao YM, Gelfond J, Li SK, Li ZH, Salipante PF, Kim H, et al. In situ lignin adhesion for high-performance bamboo composites. Nano Lett. 2023;23:8411–8.
Jiang WZ, Zhang YC, Yang DJ, Qiu XQ, Li ZX. Ultrasonic-assisted synthesis of lignin-based ultrasmall silver nanoparticles for photothermal-mediated sterilization. Int J Biol Macromol. 2024;262.
Yang ZM, Zhou ZW, Li YQ, Zhu LC, Chen JW, Cheng JW, Su JM, Zhuang ZX, Ning ZB, Yu QS, et al. Assessing the potential of latest lignin-based pH-responsive nanoparticles as drug carriers for most cancers remedy. ACS Maintain Chem Eng. 2022;10:10590–603.
Siddiqui L, Bag J, Mittal D, Leekha A, Mishra H, Mishra M, Verma AK, Mishra PK, Ekielski A, Iqbal Z, Talegaonkar S. Assessing the potential of lignin nanoparticles as drug service: synthesis, cytotoxicity and genotoxicity research. Int J Biol Macromol. 2020;152:786–802.
Porto DD, Estevao BM, Lins PMP, Rissi NC, Zucolotto V, da Silva M. Orange trunk waste-based lignin nanoparticles encapsulating Curcumin as a photodynamic remedy agent in opposition to liver most cancers. ACS Appl Polym Mater. 2021;3:5061–72.
Ren CH, Zhou ZS, Cao SM, Jiao MT, Xue DY. Examine on the adsorption deformation of a substrate by way of spin coating primarily based on the 3D-DIC technique and its impact on the homogeneity of perovskite movies. Supplies. 2023;16.
Zhang JJ, Yang P, Peng W, Dong HL, Li LX. The impact of thickness on the optical and electrical properties of hf doped indium oxide skinny movies. Vacuum. 2023;216.
He Y, Chen Q, Zhang YJ, Zhao YP, Chen L. H2O2-triggered fast deposition of poly(caffeic acid) coatings: A mechanism-based entry to versatile and high-efficient molecular separation. ACS Appl Mater Interfaces. 2020;12:52104–15.
Debeaufort F, Martinpolo M, Voilley A. Polarity homogeneity and construction have an effect on water-vapor permeability of mannequin edible movies. J Meals Sci. 1993;58:426–429.
Xu YX, Rehmani N, Alsubaie L, Kim C, Sismour E, Scales A. Tapioca starch energetic nanocomposite movies and their antimicrobial effectiveness on ready-to-eat rooster meat. Meals Packag Shelf Life. 2018;16:86–91.
Bai XJ, Chen D, Li LL, Shao L, He WX, Chen H, Li YN, Zhang XM, Zhang LY, Wang TQ, et al. Fabrication of MOF skinny movies at miscible liquid-liquid interface by spray technique. ACS Appl Mater Interfaces. 2018;10:25960–6.
Xia YM, Yu XQ, He ZM, Lu YL, Zhang YF, Solar SP, Zhu SQ, Li XP. Synthesis of novel copper-based oxide nanostructured movie on copper by way of solution-immersion. Ceram Int. 2017;43:14499–503.
Tyuftin AA, Kerry JP. Gelatin movies: examine evaluate of barrier properties and implications for future research using biopolymer movies. Meals Packag Shelf Life. 2021;29.
Han ML, Zhang Y, Zhang Y, Ye Q, Sillanpää M, Zhu XL, Yang WJ. A mini-review on Polyvinyl alcohol/lignin (nano)composites: preparation, functions and views. Sustainable Chem Pharm. 2024;42.
Zhang JW, Zhang KL, Tian C, Zhang GY, Jiang X, Wang Ok, Solar Ok, Jiang JC. Totally different lignin fraction extraction by pH fractionation for lignin microspheres Preparation as UV-blocking PVA movie. Int J Biol Macromol. 2025;311.
Zhang XX, Li G, Chen C, Fan HX, Fang J, Wu XJ, Qi JJ, Li H. Chitosan/PVA composite movie enhanced by zno/lignin with high-strength and antibacterial properties for meals packaging. Int J Biol Macromol. 2025;306.
Yang ZD, Li J, Jiang CL, Li BY, Guo YL, Wang YW, Zhao JN. Technical and experimental research on the Preparation of lignin/pva specifically formed carbon electrodes primarily based on frozen DIW expertise. Diam Relat Mater. 2025;155.
Karimah A, Wistara NJ, Fatriasari W, Hussin MH. Novel method: lignin extraction from sequentially pretreated sugarcane trashes to supply potential nanolignin/pva biosurfactants. Int J Biol Macromol. 2025;316:144425.
Duan WL, Bian XB, Bu YZ. Purposes of bioadhesives: A mini evaluate. Entrance Bioeng Biotechnol. 2021;9.
Li JH, Yu X, Martinez EE, Zhu JQ, Wang T, Shi SW, Shin SR, Hassan S, Guo CC. Rising biopolymer-based bioadhesives. Macromol Biosci. 2022;22.
Isnard F, Mulunda MM, Rubens M, Marien H, Harumashi T, Wakabayashi Ok, Vanbroekhoven Ok, Eevers W, Peeters L, Vendamme R. Stabilization of hybrid adhesives and sealants by thermodynamic tuning of molecularly optimized lignin bio-additives: small adjustments, massive results. Biomacromolecules. 2022;23:3174–85.
Du BY, Li WJ, Zhu HW, Xu JY, Wang QY, Shou XL, Wang X, Zhou JH. A useful lignin for heavy steel ions adsorption and wound care dressing. Int J Biol Macromol. 2023;239.
Wijaya CJ, Ismadji S, Gunawan S. A evaluate of lignocellulosic-derived nanoparticles for drug supply functions: lignin nanoparticles, Xylan nanoparticles, and cellulose nanocrystals. Molecules. 2021;26.
Xu C, Liu LY, Renneckar S, Jiang F. Chemically and bodily crosslinked lignin hydrogels with antifouling and antimicrobial properties. Ind Crops Prod. 2021;170.
Nguyen HM, Le TTN, Nguyen AT, Le HNT, Pham TT. Biomedical supplies for wound dressing: latest advances and functions. RSC Adv. 2023;13:5509–28.
Kharaziha M, Scheibel T, Salehi S. Multifunctional naturally derived bioadhesives: from strategic molecular design towards superior biomedical functions. Prog Polym Sci. 2024;150.
Legrand JMD, Martino MM. Progress issue and cytokine supply programs for wound therapeutic. Chilly Spring Harb Perspect Biol. 2022;14.
Dai ZW, Li J, Lin YF, Wang ZG, Huang Y. Facile development of a solely-DNA-based system for focused supply of nucleic acids. Nanomaterials. 2021;11.
Zhu HC, Luo H, Chang RL, Yang YF, Liu DK, Ji Y, Qin H, Rong HB, Yin J. Protein-based supply programs for RNA supply. J Management Launch. 2023;363:253–74.
Liu X, Huang KK, Zhang FX, Huang G, Wang L, Wu GY, Ren H, Yang G, Lin ZQ. Multifunctional nano-in-micro supply programs for focused remedy in fundus neovascularization illnesses. J Nanobiotechnol. 2024;22.
Maqsoudlou A, Assadpour E, Mohebodini H, Jafari SM. The affect of nanodelivery programs on the antioxidant exercise of pure bioactive compounds. Crit Rev Meals Sci Nutr. 2022;62:3208–31.
Fadaka AO, Sibuyi NRS, Madiehe AM, Meyer M. Nanotechnology-based supply programs for antimicrobial peptides. Pharmaceutics. 2021;13.
Yu HL, Yang ZH, Li F, Xu LS, Solar Y. Cell-mediated concentrating on medicine supply programs. Drug Deliv. 2020;27:1425–37.
Ivanova D, Nikolova G, Karamalakova Y, Semkova S, Marutsova V, Yaneva Z. Water-soluble alkali lignin as a pure radical scavenger and anticancer various. Int J Mol Sci. 2023;24.
Tsuji R, Ikado Ok, Fujiwara D. Modulation of innate immunity by lignin-carbohydrate, a novel TLR4 ligand, leads to augmentation of mucosal IgA and systemic IgG manufacturing. Int J Mol Sci. 2018;19.
Wang YL, Li ZX, Yang DJ, Qiu XQ, Xie YX, Zhang X. Microwave-mediated fabrication of silver nanoparticles integrated lignin-based composites with enhanced antibacterial exercise by way of electrostatic seize impact. J Colloid Interface Sci. 2021;583:80–8.
Liang RM, Yang XC, Yew PYM, Sugiarto S, Zhu Q, Zhao JM, Loh XJ, Zheng L, Kai D. PLA-lignin nanofibers as antioxidant biomaterials for cartilage regeneration and osteoarthritis remedy. J Nanobiotechnol. 2022;20.
Trinh TA, Nguyen TL, Kim J. Lignin-based antioxidant hydrogel patch for the administration of atopic dermatitis by mitigating oxidative stress within the pores and skin. ACS Appl Mater Interfaces. 2024.
Lin DR, Xiao LJ, Qin W, Loy DA, Wu ZJ, Chen H, Zhang Q. Preparation, characterization and antioxidant properties of Curcumin encapsulated chitosan/lignosulfonate micelles. Carbohydr Polym. 2022, 281.
Xun Y, Yang H, Kaminska B, You H. Toll-like receptors and toll-like receptor-targeted immunotherapy in opposition to glioma. J Hematol Oncol. 2021;14.
Slavin YN, Ivanova Ok, Hoyo J, Perelshtein I, Owen G, Haegert A, Lin YY, LeBihan S, Gedanken A, Häfeli UO, et al. Novel lignin-capped silver nanoparticles in opposition to multidrug-resistant micro organism. ACS Appl Mater Interfaces. 2021;13:22098–109.
Amini S, Saudi A, Amirpour N, Jahromi M, Najafabadi SS, Kazemi M, Rafienia M, Salehi H. Software of electrospun Polycaprolactone fibers embedding lignin nanoparticle for peripheral nerve regeneration: in vitro and in vivo examine. Int J Biol Macromol. 2020;159:154–73.
Huang CX, Tang S, Zhang WY, Tao YH, Lai CH, Li X, Yong Q. Unveiling the structural properties of lignin-carbohydrate complexes in bamboo residues and its performance as antioxidants and immunostimulants. ACS Maintain Chem Eng. 2018;6:12522–31.
Fan XD, Yue TX, Liu AD, Xie XW, Fang WX, Wei YH, Zheng HS, Zheng HY, Zhou MQ, Piao JG, Li FZ. Lignin-assisted development of sub-10 Nm supramolecular self-assembly for photothermal immunotherapy and potentiating anti-PD-1 remedy in opposition to main and distant breast tumors. Asian J Pharm Sci. 2022;17:713–27.
Kobayashi Y, Kurose N, Guo X, Shioya A, Kitamura M, Tsuji H, Yamada S. The potential position of follicular helper T cells and helper T cells kind 1 in warthin tumour. Pathol Res Pract. 2021;220.
Byrne CE, Astete CE, Vaithiyanathan M, Melvin AT, Moradipour M, Rankin SE, Knutson BL, Sabliov CM, Martin EC. Lignin-graft-PLGA drug-delivery system improves efficacy of MEK1/2 inhibitors in triple-negative breast most cancers cell line. Nanomedicine. 2020;15:981–1000.
Zheng Z, Zhang HS, Qian Ok, Li L, Shi DW, Zhang R, Li L, Yu HB, Zheng CS, Xie SX et al. Wooden structure-inspired injectable lignin-based nanogels as blood-vessel-embolic sustained drug-releasing stent for interventional therapies on liver most cancers. Biomaterials. 2023;302.
Cui MH, Li SQ, Ma XZ, Wang JG, Wang XL, Chen J, Zhu J, Chen J. Sustainable Janus lignin-based polyurethane biofoams with strong antibacterial exercise and long-term biofilm resistance. Int J Biol Macromol. 2024;256.
Pei WH, Yusufu Y, Zhan YF, Wang XC, Gan J, Zheng LM, Wang P, Zhang Ok, Huang CX. Biosynthesizing lignin dehydrogenation polymer to manufacture hybrid hydrogel composite with hyaluronic acid for cartilage restore. Adv Compos Hybrid Mater. 2023;6.
Xue YY, Liang WS, Li Y, Wu Y, Peng XW, Qiu XQ, Liu JB, Solar RC. Fluorescent pH-sensing probe primarily based on biorefinery wooden lignosulfonate and its utility in human most cancers cell bioimaging. J Agric Meals Chem. 2016;64:9592–600.
Demirci-Çekiç S, Özkan G, Avan AN, Uzunboy S, Çapanoglu E, Apak R. Biomarkers of oxidative stress and antioxidant protection. J Pharm Biomed Anal. 2022;209.
Mu KW, Kitts DD. Intestinal polyphenol antioxidant exercise entails redox signaling mechanisms facilitated by Aquaporin exercise. Redox Biol. 2023;68.
Gebicki JM, Nauser T. Quick antioxidant response of polyphenols and their metabolites. Antioxidants. 2021;10.
Saeed I, Guo XB, Azeem M, Elshikh MS, Zainab BB, Ayaz Z, You LJ, Alwahibi MS, Abbasi AM. Comparative evaluation of polyphenolics’ content material, free radicals’ scavenging and mobile antioxidant potential in apricot fruit. J King Saud Univ Sci. 2021;33.
Nichols JA, Katiyar SK. Pores and skin photoprotection by pure polyphenols: Anti-inflammatory, antioxidant and DNA restore mechanisms. Arch Dermatol Res. 2010;302:71–83.
Rumpf J, Burger R, Schulze M. Statistical analysis of DPPH, ABTS, FRAP, and Folin-Ciocalteu assays to evaluate the antioxidant capability of lignins. Int J Biol Macromol. 2023;233.
Ponomarenko J, Dizhbite T, Lauberts M, Volperts A, Dobele G, Telysheva G. Analytical pyrolysis—A software for revealing of lignin structure-antioxidant exercise relationship. J Anal Appl Pyrol. 2015;113:360–9.
Liang RM, Zhao JM, Li B, Cai PA, Loh XJ, Xu CH, Chen P, Kai D, Zheng L. Implantable and degradable antioxidant poly(ε-caprolactone)-lignin nanofiber membrane for efficient osteoarthritis remedy. Biomaterials. 2020;230.
Kim SH, Lam PY, Lee MH, Jeon HS, Tobimatsu Y, Park OK. The Arabidopsis R2R3 MYB transcription issue MYB15 is a key regulator of lignin biosynthesis in effector-triggered immunity. Entrance Plant Sci. 2020;11.
Liu T, Shen HL, Wang FR, Zhou XR, Zhao PT, Yang YL, Guo YR. Thinned-young Apple polyphenols inhibit halitosis-related micro organism by way of harm to the cell membrane. Entrance Microbiol. 2022;12.
Peng F, Chen LA, Wang XP, Yu ZQ, Cheng CH, Yang YD. Impact of chestnut (Castanea mollissima Blume) Bur polyphenol extract on Shigella dysenteriae: antibacterial exercise and the mechanism. Molecules. 2023;28.
Ravera S, Tancreda G, Vezzulli L, Schito AM, Panfoli I. Cirsiliol and Quercetin inhibit ATP synthesis and reduce the vitality steadiness in methicillin-resistant Staphylococcus aureus (MRSA) and methicillin-resistant Staphylococcus epidermidis (MRSE) strains remoted from sufferers. Molecules. 2023;28.
Wang N, Liu XY, Ma Y, Huang XQ, Track LJ, Guo HT, Solar XD, Solar XY, Hai D, Zhao PJ, Shen Y. Identification of polyphenol extracts from flaxseed and examine on its bacteriostatic mechanism. Meals Biosci. 2024;58.
Matos M, Claro FC, Lima TAM, Avelino F, Hansel FA, Maciel GM, Lomonaco D, Magalhaes WLE. Acetone: water fractionation of pyrolytic lignin improves its antioxidant and antibacterial exercise. J Anal Appl Pyrol. 2021;156.
You SH, Xie YG, Zhuang XS, Chen HY, Qin YY, Cao JX, Lan TQ. Impact of excessive antioxidant exercise on bacteriostasis of lignin from sugarcane Bagasse. Biochem Eng J. 2022;180.
Honing DY, Luiten RM, Matos TR. Regulatory T cell dysfunction in autoimmune illnesses. Int J Mol Sci. 2024;25.
da Cruz IJ, Barros BRD, Aguiar LMD, Navarro CDC, Ruas JS, de Lorena VMB, Rocha GJD, Vercesi AE, de Melo CML, Maior AMS. Lignins remoted from prickly Pear cladodes of the species Opuntia ficus-indica (Linnaeus) miller and Opuntia cochenillifera (Linnaeus) miller induces mice splenocytes activation, proliferation and cytokines manufacturing. Int J Biol Macromol. 2019;123:1331–9.
Kaliyamoorthy V, Jacop JP, Thirugnanasambantham Ok, Ibrahim HIM, Kandhasamy S. The synergic impression of lignin and Lactobacillus plantarum on DSS-induced colitis mannequin by way of regulating CD44 and MiR 199a alliance. World J Microbiol Biotechnol. 2022;38.
Santos D, Barros BRD, Aguiar LMD, da Cruz IJ, de Lorena VMB, de Melo CML, Napoleao TH. Immunostimulatory and antioxidant actions of a lignin remoted from Conocarpus erectus leaves. Int J Biol Macromol. 2020;150:169–77.
Ciliberti MG, Albenzio M, De Palo P, Santillo A, Caroprese M. Nexus between immune responses and oxidative stress: the position of dietary hydrolyzed lignin in ex vivo bovine peripheral blood mononuclear cell response. Entrance Vet Sci. 2020;7.
de Melo CML, da Cruz IJ, de Sousa GF, Silva GAD, Santos D, da Silva RS, de Sousa BR, de Lima RG, de Lima MDA, Rocha GJD. Lignin remoted from Caesalpinia pulcherrima leaves has antioxidant, antifungal and immunostimulatory actions. Int J Biol Macromol. 2020;162:1725–33.
Lu FY, Ni SZ, Meng XX, Si CL, Qin MH, Wang Y, Fu YJ, Chen XQ. Preparation of pH-sensitive lignin nanoparticles and its utility in hydrophobic drug supply. Ind Crops Prod. 2023;202.
Yi CH, Xu QH, Yang DJ, Wang M. A novel pH-responsive cost reversal nanospheres primarily based on acetylated histidine-modified lignin for drug supply. Ind Crops Prod. 2022;186.
Pham CD, Truong TM, Ly TB, Le PK. Software of lignin from cellulose isolation course of within the fabrication of chitosan/lignin movie for UV-light blocking and anti-oxidation. Waste Biomass Valorization. 2024;15:1881–94.
Nugroho RA, Saputra OA, Pradita AL, Fajar AN, Wibowo FR. Lignin-based polyurethane composites enhanced with hydroxyapatite for managed drug supply and potential mobile scaffold functions. Polym Compos. 2024.
Zou JF, Bao DD, Ma R, Zhu ZH, Chen XJ, Zhu JJ, Fan XD, Zhang Ok, Zheng HY, Li FZ, Piao JG. Inexperienced and sustainable self-assembly nanocomposite from gentamicin sulfate/lignosulfonate with environment friendly antibacterial and wound-healing exercise. ACS Maintain Chem Eng. 2020;8:4931–40.
Zhao CK, Yang JL, Chen MF, Chen WJ, Yang XY, Ye H, Wang LY, Wang Y, Shi JJ, Yue FX, Ma X. Artificial lignin-derived therapeutic nano reagent as intestinal pH-sensitive drug carriers able to bypassing the gastric acid surroundings for colitis remedy. ACS Nano. 2023;17:811–24.
Wang M, Yang DJ, Xu QH, Li PS, Yi CH, Qian Y, Qiu XQ. Extremely environment friendly evaporation technique to organize pH-responsive lignin-hollow-nanosphere with controllable dimension and its utility in oral drug supply. Ind Crops Prod. 2021;162.
Cheng LH, Deng B, Luo WH, Nie SF, Liu XY, Yin YN, Liu SB, Wu ZP, Zhan P, Zhang L, Chen JN. pH-Responsive lignin-based nanomicelles for oral drug supply. J Agric Meals Chem. 2020;68:5249–58.
Wang YL, Lu ZQ, Liu B, Seidi F, Zhang CF, Jiang B, Huang CX, Xiao HN, Wang P, Jin YC. Antitumor results of carrier-free functionalized lignin supplies on human hepatocellular carcinoma (HepG2) cells. ACS Nano. 2024;18:4329–42.
Li YY, Qiu XQ, Qian Y, Xiong WL, Yang DJ. pH-responsive lignin-based advanced micelles: preparation, characterization and utility in oral drug supply. Chem Eng J. 2017;327:1176–83.
Spiridon I, Andrei IM, Anghel N, Dinu MV, Ciubotaru BI. Growth and characterization of novel cellulose composites obtained in 1-ethyl-3-methylimidazolium chloride used as drug supply programs. Polymers. 2021;13.
Anghel N, Dinu VM, Verestiuc L, Spiridon IA. Transcutaneous drug supply programs primarily based on collagen/polyurethane composites bolstered with cellulose. Polymers. 2021;13.
Pishnamazi M, Iqbal J, Shirazian S, Walker G, Collins M. Impact of lignin as pure polymer on the discharge price of acetylsalicylic acid tablets. Int J Biol Macromol. 2018;124.
Domínguez-Robles J, Stewart SA, Rendl A, González Z, Donnelly RF, Larrañeta E. Lignin and cellulose blends as pharmaceutical excipient for pill manufacturing by way of direct compression. Biomolecules. 2019;9.
Pishnamazi M, Hafizi H, Shirazian S, Culebras M, Walker GM, Collins MN. Design of managed launch system for Paracetamol primarily based on modified lignin. Polymers. 2019;11.
Kumar R, Butreddy A, Kommineni N, Reddy PG, Bunekar N, Sarkar C, Dutt S, Mishra VK, Aadil KR, Mishra YK, et al. Lignin: drug/gene supply and tissue engineering functions. Int J Nanomed. 2021;16:2419–41.
Bao GY, Gao QM, Cau M, Ali-Mohamad N, Sturdy M, Jiang SB, Yang Z, Valiei A, Ma ZW, Amabili M et al. Liquid-infused microstructured bioadhesives halt non-compressible hemorrhage. Nat Commun. 2022;13.
Li J, Xu X, Ma X, Cui M, Wang X, Chen J, Zhu J, Chen J. Antimicrobial nonisocyanate polyurethane foam derived from lignin for wound therapeutic. ACS Appl Bio Mater. 2024;7:1301–10.
Yuan Y, Wang SX, Wu P, Yuan TQ, Wang XL. Lignosulfonate in situ-modified decreased graphene oxide biosensors for the electrochemical detection of dopamine. RSC Adv. 2022;12:31083–90.
Guan XW, Li ZX, Geng X, Lei ZH, Karakoti A, Wu TM, Kumar P, Yi JB, Vinu A. Rising traits of carbon-based quantum dots: nanoarchitectonics and functions. Small. 2023;19.
Paul S, Thakur NS, Chandna S, Sagar V, Bhaumik J. Lignin-based cds Dots as multifunctional platforms for sensing and wearable photodynamic coatings. ACS Appl Nano Mater. 2022;5.
Zhang JX, Jin JH, Wan JQ, Jiang SH, Wu YZ, Wang WF, Gong X, Wang HX. Quantum dots-based hydrogels for sensing functions. Chem Eng J. 2021;408.
Wang QH, Pan XF, Lin CM, Lin DZ, Ni YH, Chen LH, Huang LL, Cao SL, Ma XJ. Biocompatible, self-wrinkled, antifreezing and stretchable hydrogel-based wearable sensor with pedot:sulfonated lignin as conductive supplies. Chem Eng J. 2019;370:1039–47.
Zhang Y, Cheng G. Lignin-containing hydrogels: remodeling a low-value byproduct to absorbents, wound dressings and pressure sensors. Chem Eng J. 2023;475.
Mohanadas D, Rohani R, Sulaiman Y, Abu Bakar S, Mahmoudi E, Zhang LC. Heavy steel detection in water utilizing MXene and its composites: A evaluate. Mater Right now Maintain. 2023;22.
Lu H, Zhu HT, Xu JH, Lai XJ, Zeng XR, Li HQ. Biobased, degradable and directional porous carboxymethyl chitosan/lignosulfonate sodium aerogel-based piezoresistive strain sensor with dual-conductive community for human movement detection. Chem Eng J. 2024;497.
Abbadessa A, Dogaris I, Farahani SK, Reid MS, Rautkoski H, Holopainen-Mantila U, Oinonen P, Henriksson G. Layer-by-layer meeting of sustainable lignin-based coatings for meals packaging functions. Prog Org Coat. 2023;182.
Zhang GG, Tian CR, Shi JW, Zhang X, Liu J, Tan TW, Zhang LQ. Mechanically strong, self-repairable, form reminiscence and recyclable ionomeric elastomer composites with renewable lignin by way of interfacial metal-ligand interactions. ACS Appl Mater Interfaces. 2022;14:38216–27.
Yang YT, Zhu YC, Yang A, Liu T, Fang YQ, Wang WH, Track YM, Li Y. Speedy fabricated in-situ polymerized lignin hydrogel sensor with extremely adjustable mechanical properties. Int J Biol Macromol. 2024;260.
Yang XJ, Wang XR, Wang X, Li XK, Xin HW, Zhou JH, Solar DY. Utilization of composite particles with customizable cross-linked lignin patches for dental cleaning. Int J Biol Macromol. 2024;266.
Ying M, Zeng ZY, Li Q, Chen XL, Xiong Y, Wu B, Peng L, Zhang Q, Wang L, Dai ZM, et al. Water-soluble intracellular extract of desmodesmus sp. YT enhanced the antioxidant capability of human pores and skin fibroblast to guard the pores and skin from UV harm. J Cosmet Dermatol. 2024;23:1850–61.
Sjovall P, Christensen OB, Moller H. Single publicity to ultraviolet irradiation and elicitation of human allergic contact dermatitis. Acta Derm Venereol. 1985;65:93–6.
Model RM, Stottlemyer JM, Paglia MC, Carey CD, Falo LD. Ethanol consumption synergistically will increase ultraviolet radiation induced pores and skin harm and immune dysfunction. J Dermatol Sci. 2021;101:40–8.
van Bodegraven M, Kröger M, Díaz DFZ, Lohan SB, Moritz RKC, Möller N, Knoblich C, Vogelsang A, Milinic Z, Hallhuber M et al. Redefine photoprotection: solar safety past sunburn. Exp Dermatol. 2024;33.
Lin MS, Yang LJ, Zhang H, Xia Y, He Y, Lan W, Ren JL, Yue FX, Lu FC. Revealing the structure-activity relationship between lignin and anti-UV radiation. Ind Crops Prod. 2021;174.
Javed A, Rättö P, Järnström L, Ullsten H. Lignin-containing coatings for packaging supplies—Pilot trials. Polymers. 2021;13.
Boarino A, Klok HA. Alternatives and challenges for lignin valorization in meals packaging, antimicrobial, and agricultural functions. Biomacromolecules. 2023;24:1065–77.
Xiao LQ, Zhang XJ, Fu QL, Xu PW, Liu TX, Wang ZY, Yang WJ, Ma PM. One step to concurrently enhance the antibacterial exercise and compatibility with PBAT of nanolignin by way of floor modification. ACS Maintain Chem Eng. 2023;11:14773–81.
Daassi R, Durand Ok, Rodrigue D, Stevanovic T. Optimization of the electrospray course of to supply lignin nanoparticles for PLA-based meals packaging. Polymers. 2023;15.
Lee WJ, Oh HG, Cha SH. A short evaluate of self-healing polyurethane primarily based on dynamic chemistry. Macromol Res. 2021;29:649–64.
Lu W, Le XX, Zhang JW, Huang YJ, Chen T. Supramolecular form reminiscence hydrogels: A brand new Bridge between stimuli-responsive polymers and supramolecular chemistry. Chem Soc Rev. 2017;46:1284–94.
Liu WF, Fang C, Chen FT, Qiu XQ. Sturdy, reusable, and self-healing lignin-containing polyurea adhesives. Chemsuschem. 2020;13:4691–701.
Du JH, Wang H, Huang ZY, Liu XC, Yin XS, Wu JX, Lin WJ, Lin XF, Yi GB. Building and mechanism examine of lignin-based polyurethane with excessive power and excessive self-healing properties. Int J Biol Macromol. 2023;248.
Prathumrat P, Nikzad M, Shireen Z, Hajizadeh E, Sbarski I. A mixed experimental and molecular dynamic research of curing of form reminiscence lignin-liquid crystalline elastomeric composites. Compos Sci Technol. 2023;240.
Yuan WH, Zhou J, Jiang MY, Solar QF, Ye GY, Zhang XC, Bi HJ. Latent fingerprints identification and ink-free printing of fluorescent lignin-derived cds/pva nanocomposite with multi-stimuli responsive form reminiscence habits. Ind Crops Prod. 2023;205.
Meng D, Zhao QL, Cheng XY, Ma JH, Kong LY, He XH, Li JW. Water-induced form reminiscence cellulose nanofiber-based nanocomposite membrane containing lignin with fast water response and glorious moist mechanical property. Eur Polym J. 2022;171.
Xue BL, Tang R, Xue DW, Guan Y, Solar YC, Zhao W, Tan JJ, Li XP. Sustainable various for bisphenol A epoxy resin high-performance and recyclable lignin-based epoxy vitrimers. Ind Crops Prod. 2021;168.
Wang F, Jiang M, Pan Y, Lu Y, Xu WJ, Zhou YF. 3D printing photo-induced lignin nanotubes/polyurethane form reminiscence composite. Polym Check. 2023;119.
Abudula T, Colombani T, Alade T, Bencherif SA, Memic A. Injectable Lignin-co-Gelatin cryogels with antioxidant and antibacterial properties for biomedical functions. Biomacromolecules. 2021;22:4110–21.
Wei XX, Liu Y, Luo YD, Shen Z, Wang SF, Li MF, Zhang LM. Impact of organosolv extraction on the construction and antioxidant exercise of Eucalyptus kraft lignin. Int J Biol Macromol. 2021;187:462–70.
Gu Y, Ye M, Wang Y, Li H, Zhang H, Wang G, Zhang Y, Zhao HJ. Lignosulfonate functionalized g-C3N4/Carbonized wooden sponge for extremely environment friendly heavy steel ion scavenging. J Mater Chem A. 2020.
Barman BRV, Kadam P, Kumar R. Lignin-Primarily based adsorbent for efficient elimination of poisonous heavy metals from wastewater. Emerg Mater. 2022;5:923–43.
Yang XH, Li Z, Li L, Li N, Jing F, Hu LH, Shang QQ, Zhang X, Zhou YH, Pan XJ. Depolymerization and demethylation of kraft lignin in molten salt hydrate and functions as an antioxidant and steel ion scavenger. J Agric Meals Chem. 2021;69:13568–77.
Dai Ok, Zhao GL, Kou JW, Wang ZC, Zhang J, Wu JL, Yang PP, Li M, Tang CL, Zhuang W, Ying HJ. Magnetic mesoporous sodium citrate modified lignin for improved adsorption of calcium ions and methylene blue from aqueous answer. J Environ Chem Eng. 2021;9.
Ding W, Solar H, Li XZ, Li YY, Jia HT, Luo YL, She D, Geng ZC. Environmental functions of Lignin-Primarily based hydrogels for Cu remediation in water and soil: adsorption mechanisms and passivation results. Environ Res. 2024;250.
