Page 19 - 《精细化工》2023年第5期

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第 5 期武颖，等: 木质素抗氧化活性的构效关系研究及应用进展 ·939·

及作用机理的重要突破口，从单聚体、二聚体到多 [9] KIMURA C, OH S W, FUJITA T, et al. Adsorptive inhibition of
enveloped viruses and nonenveloped cardioviruses by antiviral lignin
聚体，不断丰富的模型物种类必然会为研究带来新 produced from sugarcane bagasse via microwave glycerolysis[J].
的突破口。此外，木质素作为天然抗氧化剂的应用 Biomacromolecules, 2022, 23(3) : 789-797.
[10] YU J (余建), YU K J (余可佳), JIANG G T (蒋桂韬), et al.
开发，仍面临着很多挑战，如降低现有加工技术的 Research progress on biological functions of lignin and its
经济成本、阐明与其他商业抗氧化剂的协同效果及 application in livestock production[J]. Chinese Journal of Animal
Nutrition (动物营养学报), 2022, 34(11): 1-10.
作用机制等。在已有基础上，深入分析木质素抗氧 [11] CHEN W, DONG T T, BAI F T, et al. Lignin-carbohydrate
化对其抗紫外、热稳定、抗菌等活性的影响机制， complexes, their fractionation, and application to healthcare
materials: A review[J]. International Journal of Biological
并进一步优化材料加工工艺，促进各项活性功能的 Macromolecules, 2022, 203: 29-39.
融合利用，对于可持续功能材料的制备具有重要的 [12] PAN X J, KADLA J F, EHARA K, et al. Organosolv ethanol lignin
from hybrid poplar as a radical scavenger: Relationship between
指导意义和经济价值。 lignin structure, extraction conditions, and antioxidant activity[J].
木质素在生物材料领域的开发应用一直是近年 Journal of Agricultural & Food Chemistry, 2006, 54(16): 5806-5813.
[13] HAO Y P (郝艳平), LUO T (罗通), LYU G J (吕高金), et al.
来的研究热点之一，已有报道将木质素加工成纳米 Research progress of lignin-derived biodegradable composite film
粒子、水凝胶等材料应用于药物/基因传递、伤口敷 materials[J]. Journal of Guangdong University of Technology (广东
工业大学学报), 2022, 39(1): 21-33.
料、生物成像等方面，取得了较好的研究进展。但 [14] YUE F X (岳凤霞), LIN M S (林敏生), QIAN Y (钱勇), et al.
同时也面临着一些新的问题，如清洁木质素的来源 Recent advances of anti-UV radiation of lignin[J]. Journal of
Forestry Engineering (林业工程学报), 2021, 6(2): 12-20.
问题，工业木质素的生产多伴随着机械和化学加工 [15] JI M C, LI J Y, LI F Y, et al. A biodegradable chitosan-based
composite film reinforced by ramie fibre and lignin for food
过程，其中易夹杂盐或其他毒性物质。相较而言，
packaging[J]. Carbohydrate Polymers , 2022, 281: 119078.
通过丙酮和甲醇等有机溶剂提取的有机溶剂木质素 [16] WU Y, QIAN Y, LOU H M, et al. Enhancing the broad-spectrum
adsorption of lignin through methoxyl activation, grafting modification
可能是目前较为理想的一种原料选择；其次，尽管 and reverse self-assembly[J]. ACS Sustainable Chemistry &
木质素是一种环境中可生物降解的生物质，但木质 Engineering, 2019, 7(19): 15966-15973.
[17] ZHAO S Q, LI J X, YAN Z P, et al. Preparation of lignin-based
素在人体内的降解性及降解机制尚未完全阐述清 filling antioxidant and its application in styrene-butadiene rubber[J].
楚，仍需要进一步的研究探索；再者，目前木质素 Journal of Applied Polymer Science, 2021, 138 (43): e51281.
[18] PRASAD V, SIDDIQUI L, MISHRA P K, et al. Recent
在生物材料中的添加量较低，发挥效能有限。如何 advancements in lignin valorization and biomedical applications: A
通过化学改性提高木质素与其他聚合物基质的相容 patent review[J]. Recent Patents on Nanotechnology, 2022, 16(2):
107-127.
性，在不破坏材料机械强度的前提下有效增加木质 [19] SUGIARTO S, LEOW Y, TAN C L, et al. How far is lignin from
素含量，也是未来努力的一个重要方向。 being a biomedical material?[J]. Bioactive Materials, 2022, 8: 71-94.
[20] SADEGHIFAR H, ARGYROPOULOS D S. Correlations of the
antioxidant properties of softwood kraft lignin fractions with the
参考文献： thermal stability of its blends with polyethylene[J]. ACS Sustainable
[1] ZHOU Y H (周姚红), ZHANG X H (张晓华), XIONG W M (熊万 Chemistry & Engineering, 2015, 3(2): 349-356.
明). Research progress of preparation of aromatic aldehydes by [21] BARCLAY L R C, XI F, NORRIS J Q. Antioxidant properties of
catalytic oxidation of lignin[J]. Fine Chemicals (精细化工), 2022, phenolic lignin model compounds[J]. Journal of Wood Chemistry
39(3): 442-453. and Technology, 1997, 17(1/2): 73-90.
[2] LI Y R, ZHAO S Y, SONG X P, et al. UV-shielding performance [22] DIZHBITE T, TELYSHEVA G, JURKJANE V, et al.
and color of lignin and its application to sunscreen[J]. Macromolecular Characterization of the radical scavenging activity of lignins-natural
Materials and Engineering, 2022, 307(2): 836-843. antioxidants[J]. Bioresource Technology, 2004, 95(3): 309-317.
[3] TRAN M H, PHAN D P, LEE E Y, et al. Review on lignin [23] ZHAO L S (赵丽莎). Effect of lignin structure and hydrogenolysis
modifications toward natural UV protection ingredient for lignin- on its antioxidant activity[D]. Guangzhou: South China University of
based sunscreens[J]. Green Chemistry, 2021, 23 (13): 4633-4646. Technology (华南理工大学), 2020.
[4] LI N (李宁), GU L M (谷利敏), WANG C P (王春鹏), et al. Effects [24] PONOMARENKO J, DIZHBITE T, LAUBERTS M, et al.
of different sodium lignosulfonate on the properties of soybean meal Analytical pyrolysis-A tool for revealing of lignin structure-
adhesives[J]. Fine Chemicals (精细化工), 2021, 38(1): 206-211. antioxidant activity relationship[J]. Journal of Analytical and Applied
[5] BHUSHAN S, KUMAR A, SINGH N, et al. Functionalization of Pyrolysis, 2015, 113: 360-369.
wool fabric using lignin biomolecules extracted from groundnut [25] DIZHBITE T, PONOMARENKO J, ANDERSONE A, et al. Role of
shells[J]. International Journal of Biological Macromolecules, 2020, paramagnetic polyconjugated clusters in lignin antioxidant activity
142: 559-563. (in vitro)[C]//International Conference on Functional Materials and
[6] SIDDIQUI L, BAG J, MITTAL D, et al. Assessing the potential of Nanotechnologies, 2012: 012033.
lignin nanoparticles as drug carrier: Synthesis, cytotoxicity and [26] JIANG B, ZHANG Y, ZHAO H F, et al. Structure-antioxidant
genotoxicity studies[J]. International Journal of Biological activity relationship of active oxygen catalytic lignin and
Macromolecules, 2020, 152: 786-802. lignin-carbohydrate complex[J]. International Journal of Biological
[7] RASCHIP I E, PADURARU-MOCANU O M, NITA L E, et al. Macromolecules, 2019, 139: 21-29.
Antibacterial porous xanthan-based films containing flavoring agents [27] GARCIA A, TOLEDANO A, ANDRES M A, et al. Study of the
evaluated by near infrared chemical imaging technique[J]. Journal of antioxidant capacity of Miscanthus sinensis lignins[J]. Process
Applied Polymer Science, 2020, 137(37): 49111. Biochemistry, 2010, 45(6): 935-940.
[8] WU Y, QIAN Y, ZHANG A C, et al. Light color [28] NSIMABA R Y, WEST N, BOATENG A A, et al. Structure and
dihydroxybenzophenone gafted lignin with high UVA/UVB radical scavenging activity relationships of pyrolytic lignins[J].
absorbance ratio for efficient and safe natural sunscreen[J]. Industrial Journal of Agricultural and food Chemistry, 2012, 60(51):
& Engineering Chemistry Research, 2020, 59(39): 17057-17068. 12525-12530.

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