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机译:基于生物摩擦大豆蛋白的外部用薄膜,具有优异的紫外线性能,来自儿茶酚衍生物血清锰鞣
Beijing Forestry Univ Key Lab Wood Based Mat Sci &
Utilizat Beijing 100083 Peoples R China;
Beijing Forestry Univ Key Lab Wood Based Mat Sci &
Utilizat Beijing 100083 Peoples R China;
Beijing Forestry Univ Key Lab Wood Based Mat Sci &
Utilizat Beijing 100083 Peoples R China;
Beijing Forestry Univ Key Lab Wood Based Mat Sci &
Utilizat Beijing 100083 Peoples R China;
Beijing Forestry Univ Key Lab Wood Based Mat Sci &
Utilizat Beijing 100083 Peoples R China;
Beijing Forestry Univ Key Lab Wood Based Mat Sci &
Utilizat Beijing 100083 Peoples R China;
biomimetic; biopolymers and renewable polymers; soy protein; UVamp; 8208; blocking performance;
机译:具有优异的紫外线阻滞性能的坚韧,强,可生物降解的大豆蛋白的复合膜的塑性制造
机译:具有改善的热性能和优异的防紫外线性能的仿生超韧和强生物降解聚合物材料
机译:金合欢曼尼姆单宁用于制备贻贝式快速固化单宁酚醛树脂的泛聚聚酯
机译:来自acacia mangium bark的浓缩单宁:现货测试和ftir的特征
机译:内二醇儿茶酚双加氧酶的仿生模型:铁(III)为中心的金属络合物与β-环糊精衍生物的包合物的结构和性质。
机译:落叶松基于单宁的树脂提高了基于大豆蛋白的胶粘剂的粘合性能
机译:衍生自含水饱和金合欢种植土壤的N 2 sub> o排放的单宁衍生的单宁的效果