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机译:贻贝的聚酯与脂族侧翼组展示了疏水性在水下粘附中的重要性
Department of Polymer ScienceThe University of AkronAkron OH 44325 USA;
Department of Polymer ScienceThe University of AkronAkron OH 44325 USA;
Department of Polymer ScienceThe University of AkronAkron OH 44325 USA;
Department of Polymer ScienceThe University of AkronAkron OH 44325 USA;
Department of Polymer ScienceThe University of AkronAkron OH 44325 USA;
Department of Polymer ScienceThe University of AkronAkron OH 44325 USA;
catechol polymers; DOPA polymers; mussel inspired adhesives; synthetic polyester adhesives; underwater hydrophobic polyester adhesives;
机译:贻贝的聚酯与脂族侧翼组展示了疏水性在水下粘附中的重要性
机译:贻贝启发的杂化涂料,可将膜疏水性转变为高亲水性和水下超疏油性,用于水包油型乳液分离
机译:基于儿茶酚的牙科胶粘剂,受到水下贻贝粘附的启发
机译:香蕉纤维和脂族聚酯之间的粘附改性
机译:A.氢化铜的烯丙基取代化学的研究B.共轭炔烃在胶束介质中的立体选择性甲硅烷基化C.钯催化的1,3-丁二烯和[3]-[6] Dendralenes的合成D.小分子水下胶粘剂的合成受贻贝启发。
机译:贻贝粘附蛋白启发的水下表面干燥肽
机译:通过贻贝脚摇滚启发策略构建具有强大水下粘附的高性能水凝胶