中文摘要：

以纳米纤维素（NCC）为组装模板，基于氢键的交替沉积白组装磁膜材料。X射线衍射（XRD）、透射电子显微镜（TEM）、扫描电子显微镜（SEM）和能量色散X射线光谱（EDX）分析结果表明，NCC负载纳米Fe3O4磁膜材料表面形貌和断面形貌规整，含有Fe3O4粒子为纳米级，且仅分布在NCC层。性能分析结果表明，NCC负载纳米Fe3O4磁膜材料为超顺磁性材料，与PVA膜相比，具有较好的紫外光阻隔性、较高的热稳定性和特殊的氧化降解能力；在Fe3O4固含量为1．1％时，磁性膜拉伸强度较PVA膜提高了17．0％。

英文摘要：

Magnetic membrane materials were prepared by alternating deposition self-assembly based on hydrogen bonding driving force, and nanocrystalline cellulose （NCC） as assemblytemplate. The analysis results of X-ray diffraction spectroscopy （XRD）, transmission electron microscopy （TEM）, scanning electron microscopy （SEM）, and energy dispersive X-rayspectroscopy （EDX） for NCC load nano-Fe3O4 magnetic membrane materials show that surface morphology and cross-section morphology of NCC load nano-Fe3O4 magnetic membranematerials is respectively regular, and nano-scale Fe3O4 particles only distributed in the NCC layer. The performance analysis for NCC load nano-Fe3O4 magnetic membrane materials shows thatNCC load nano-Fe3O4 magnetic membrane materials is superparamagnetic materials, NCC load nano-Fe3O4 magnetic membrane materials is good at UV barrier properties, thermal stability, andoxidation degradation ability compared with PVA membrane. Tensile strength of NCC load nano- Fe3O4 magnetic membrane materials with 1.1% Fe3O4 solid content increased 17.0% comparedwith PVA membrane.