文献类型：期刊文献

中文题名：表面刻蚀/聚硅氧烷修饰纯棉水刺材料的制备及其性能

英文题名：Preparation and properties of surface-etched/polysiloxane-modified cotton spunlace materials

作者：顾佳华[1];戴鑫鑫[1];邹专勇[1];刘诗仪[2];张显涛[3];韩旭[4];陆斌[4];张寅江[1]

机构：[1]绍兴文理学院浙江省清洁染整技术研究重点实验室,浙江绍兴312000;[2]绍兴福清卫生用品有限公司,浙江绍兴312000;[3]振德医疗用品股份有限公司,浙江绍兴312000;[4]杭州杭纺科技有限公司,浙江杭州311200

年份：2024

卷号：45

期号：2

起止页码：189

中文期刊名：纺织学报

外文期刊名：Journal of Textile Research

收录：北大核心2023、CSTPCD、、EI(收录号：20241515863056)、Scopus、CSCD2023_2024、北大核心、CSCD

基金：国家自然科学基金青年科学基金项目(51903156);浙江省科技厅领雁研发攻关计划项目(2022C01SA691301);中国纺织工业联合会科技指导性项目(2022027);国家级大学生创新创业训练计划项目(202310349040);绍兴文理学院-浙江大学绍兴研究院联合科研资助基金项目(2023LHLG008)。

语种：中文

中文关键词：表面刻蚀;聚硅氧烷;纯棉水刺材料;疏水改性;防粘连;医用敷料

外文关键词：surface etching;polydimethylsiloxane;cotton spunlace material;hydrophobic modification;anti-adhesion;medical dressing

中文摘要：针对伤口愈合中新生肉芽组织易粘连敷料引起创面二次感染的问题,通过等离子体刻蚀协同喷涂聚硅氧烷疏水改性纯棉水刺非织造材料,制备了一种具有防粘连潜力的非织造基医用敷料。采用正交试验方法,优化等离子体放电时间、等离子体放电功率及喷涂线速度工艺参数,同时对优化处理前后材料的疏水、表面形貌、化学结构、力学、防粘连、生物相容等性能进行测试与分析。结果表明:当放电时间为9 min、放电功率为25 W、喷涂线速度为5 mm/s时,纯棉水刺材料疏水效果最佳,接触角为141.1°;优化处理能有效提升材料的防粘连性能,其纵向剥离能为(350.0±29.9)J/m^(2),横向剥离能为(363.1±46.9)J/m^(2),满足医用敷料防粘连要求;同时优化处理材料溶血率小于5%,凝血功能得到明显提升且无细胞毒性,满足医用材料生物相容性要求。

外文摘要：Objective Cotton spunlace material is an ideal substrate for medical wound dressings due to its softness,skin-friendliness,environmental protection,and low cost.However,the hydrophilicity and porous structure of the cotton fiber assembly may cause granulation tissue to grow inward,resulting in wound adhesion during wound healing.When the dressing material is removed from the wound,this would cause secondary tissue damage and pain,and prolong the healing time.Therefore,this research sets out to investigate the hydrophobic modification of cotton spunlace materials to enhance the anti-adhesive properties.Method In this study,the hydrophobicity of cotton spunlace material was achieved by a two-step method.The first step was non-thermal plasma etching to form a rough surface structure,and the second step was to spray polydimethylsiloxane(PDMS)to obtain a stable and safe hydrophobic effect.To achieve the best results,orthogonal experiments were conducted to optimize parameters such as plasma discharge time,discharge power and spray line speed.Subsequently,the hydrophobicity,surface morphology,chemical structure,mechanical properties,anti-adhesion and biocompatibility of the optimized material were thoroughly characterized and analyzed.Results The optimal process for hydrophobic treatment of cotton spunlace materials was determined by means of orthogonal analysis of variance.The results indicated that when the plasma discharge time was 9 minutes,the discharge power was 25 W,and the spray coating line speed was 5 mm/s,the expected effect could be achieved with the material contact angle being 141.1°.Meanwhile,the electron micrographs clearly showed the existence of micro-nano rough structure on the fiber surface of the optimized material,confirming the effectiveness of the plasma etching process.The presence of Si elements in the treated materials was proved by elemental analysis,and Si—O and Si—C groups were observed in the infrared spectrum.These findings indicated the effective deposition of PDMS on the material surface.Furthermore,the absorption intensity of PDMS functional groups remained unchanged after heat treatment and n-heptane cleanout.It was illustrated that firm and stable covalent bonds were formed between PDMS and material,and PDMS was grafted with cellulose molecular chain.In terms of mechanical properties,the elongation at break of the material did not change after treatment,but the tensile strength decreased significantly.Additionally,the anti-adhesion test demonstrated that the optimized treatment effectively improved the anti-adhesive properties of the materials.The peeling energy in the machine direction(MD)was measured as(350.0±29.9)J/m^(2),while in the cross direction(CD)it was(363.1±46.9)J/m^(2),which met the requirements of non-adhesive medical dressings.The biocompatibility evaluation confirmed that the hemolysis rate of the material was(4.19±0.56)%,which met the requirements for biomedical materials.On the other hand,the coagulation index of the material was further reduced than that of the cotton hydroentangled material.It still maintained a gradually decreasing trend with the extension of time,which presented an obvious procoagulant effect.In addition,the cell viability of the optimized material was 89.9%,indicating its non-toxicity.Conclusion In this paper,a novel environmentally-friendly and safe anti-adhesion medical dressing was developed for cotton spunlace material.The method involves generating rough structure on the surface of material by plasma etching,and then constructing low surface energy surface by spray deposition of PDMS.The optimal process parameters,such as discharge time,discharge power,and spray coating speed,were determined by orthogonal optimization experiments.The effectiveness of plasma etching and PDMS covalent grafting on the surface of materials was demonstrated by the microstructure,elemental composition and infrared spectrum analysis.The anti-adhesive tests showed that the optimized material possessed excellent anti-adhesive properties.Furthermore,the optimized material demonstrated favorable biocompatibility.This research provides insights into constructing hydrophobic surfaces on cellulose-based hydroentangled materials and offers innovative design approaches for the fabrication of anti-adhesive medical dressings.