Superhydrophobicity determines the buoyancy performance of kapok fiber aggregates

Xiaoyan Zhang; Wangyang Fu; Chunting Duan; Hong Xiao; Meiwu Shi; Ning Zhao; Jian Xu

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Superhydrophobicity determines the buoyancy performance of kapok fiber aggregates

机译：超疏水性决定了木棉纤维聚集体的浮力性能

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Superhydrophobicity is commonly regarded as a surface property that has important consequences for self-cleaning applications. Here we show interestingly that the superhydrophobicity is closely connected to the bulk buoyancy performance of kapok fiber aggregates, a natural material endowed with superhydrophobicity and extraordinary high porosity. First of all, we have determined the superhydrophobicity of a single kapok fiber, which can be ascribed to its micro-nano-binary structure (MNBS) and the thin hydrophobic paraffinic wax layer covered on the surface. Second, based on classic capillary and wicking theory, the buoyancy performance of the kapok fiber aggregates can be modeled and we demonstrate that their buoyancy performance is actually determined by the superhydrophobicity of individual kapok fibers. Our results also suggest an optimized density ~0.015gcm~(-3) for using kapok fiber aggregates as the lightest natural buoyancy.

机译：超疏水性通常被视为对自清洁应用具有重要影响的表面性质。在这里，我们有趣地表明，超疏水性与木棉纤维聚集体的整体浮力性能紧密相关，木棉纤维聚集体是一种具有超疏水性和极高孔隙率的天然材料。首先，我们确定了单根木棉纤维的超疏水性，这可以归因于其微纳米二元结构（MNBS）和表面覆盖的疏水性石蜡薄蜡层。第二，基于经典的毛细作用和芯吸理论，可以对木棉纤维聚集体的浮力性能进行建模，并且我们证明它们的浮力性能实际上是由单个木棉纤维的超疏水性决定的。我们的结果还表明，使用木棉纤维聚集体作为最轻的自然浮力的最佳密度〜0.015gcm〜（-3）。

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来源
《Applied Surface Science》 |2013年第1期|225-229|共5页
作者
Xiaoyan Zhang; Wangyang Fu; Chunting Duan; Hong Xiao; Meiwu Shi; Ning Zhao; Jian Xu;
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作者单位

Beijing National Laboratory for Molecular Sciences, Laboratory of Polymer Physics and Chemistry, Institute of Chemistry, Chinese Academy of Sciences, 100190 Beijing, PR China;

Department of Physics, University of Basel, CH-4056 Basel, Switzerland;

Beijing National Laboratory for Molecular Sciences, Laboratory of Polymer Physics and Chemistry, Institute of Chemistry, Chinese Academy of Sciences, 100190 Beijing, PR China;

The Quartermaster Research Institute of the General Logistics Department of the PLA, 100082 Beijing, PR China;

The Quartermaster Research Institute of the General Logistics Department of the PLA, 100082 Beijing, PR China;

Beijing National Laboratory for Molecular Sciences, Laboratory of Polymer Physics and Chemistry, Institute of Chemistry, Chinese Academy of Sciences, 100190 Beijing, PR China;

Beijing National Laboratory for Molecular Sciences, Laboratory of Polymer Physics and Chemistry, Institute of Chemistry, Chinese Academy of Sciences, 100190 Beijing, PR China;

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superhydrophobicity; natural buoyancy material; kapok fiber; low density;

机译：超疏水性天然浮力材料;木棉纤维;低密度;

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Superhydrophobicity determines the buoyancy performance of kapok fiber aggregates

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