纳米纤维素疏水疏油功能化改性及应用研究进展

打开文本图片集

关键词：纳米纤维素；疏水疏油功能化改性；生物基材料中图分类号：TS7 文献标识码：A DOI： 10.11980/j.issn.0254-508X.2025.10.006

Research Advances in Hydrophobic-Oleophobic Functionalization of Nanocellulose and Its Applications

FU Bin' ZHOU Rong1YAO Yuping² ZHANG Bo’ZHAO Qiaoqiao’WANG Shengdan1* （1.StateKeyLabofGreenPapermakingandResourceRecycling，Qilu UniversityofTechnology（ShandongAcademyofSciences）， Ji’nan，Shandong Province，250353;2.Qingdao TGOoDElectric Co.，Ltd.，Qingdao，Shandong Province，370200） （*E-mail：wsd6849@qlu. edu.cn）

Abstract：Asesdmatealanoelloeeissictierbescudingeneabilitygadbilitygic surfacearea，andexceptionalmechanicalperformane.However，itssurfacecontainsabundanthdrophilichyroxylgroups，whichlimits itsapplicationindophbiclhofld.Cosequntlythdopbiclopobicfuctioalzatioodiicationofnolloes progresivelymergdasesearchfocsamongsitiss.Intispper，teprniples，ethodologies，ndalcatiosofhropobi oleophobicfunctoalizationodaofanoelloeestematicallyved，hiletearacteristiauresofprductsied fromdistictdificationaproachsrecategordAplicatiosofhydropobic-leopobicodifedanocelloseinfoodpackaging， textiledustrsndpapermanfactugecriallevauadcicallecksndingthaldlicatiooftetealswerenalyed，andfuturedevelopmentdirectionswereprospectedtoprovideteoreticalfoundationsfordsigninghigpefonce nanocellulose-based hydrophobic-oleophobic systems.

Key words：nanocellulose;hydrophobic-oleophobic functionalization；bio-based materials

随着我国“双碳”战略的推进和环保意识的提升，传统石油基疏水疏油材料因其不可降解性和持久性污染等问题，正面临着技术革新与产业转型的双重挑战。（剩余15275字）