Boron nitride (BN) aerogels are porous materials with a continuous three-dimensional network structure. They are attracting increasing attention for a wide range of applications. Here, we report the template-assisted synthesis of BN aerogels by catalyst-free, low-pressure chemical vapor deposition on graphene-carbon nanotube composite aerogels using borazine as the B and N sources with a relatively low temperature of 900 °C. The three-dimensional structure of the BN aerogels was achieved through the structural design of carbon aerogel templates. The BN aerogels have an ultrahigh specific surface area, ultralow density, excellent oil absorbing ability, and high temperature oxidation resistance. The specific surface area of BN aerogels can reach up to 1051 m2 g−1, 2-3 times larger than the reported BN aerogels. The mass density can be as low as 0.6 mg cm−3, much lower than that of air. The BN aerogels exhibit high hydrophobic properties and can absorb up to 160 times their weight in oil. This is much higher than porous BN nanosheets reported previously. The BN aerogels can be restored for reuse after oil absorption simply by burning them in air. This is because of their high temperature oxidation resistance and suggests broad utility as water treatment tools.
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机译:氮化硼(BN)气凝胶是具有连续三维网络结构的多孔材料。它们正在广泛的应用中引起越来越多的关注。在这里,我们报道了在无硼化石墨烯-碳纳米管复合气凝胶上使用硼嗪作为B和N源,在900 °<相对较低的温度下进行的无催化剂低压化学气相沉积,通过模板辅助合成BN气凝胶。 / sup> C。 BN气凝胶的三维结构是通过碳气凝胶模板的结构设计实现的。 BN气凝胶具有超高的比表面积,超低密度,出色的吸油能力和高温抗氧化性。 BN气凝胶的比表面积可达到1051 m 2 g -1 ,是报道的BN气凝胶的2-3倍。质量密度可以低至0.6μmgcm -3 ,远低于空气质量密度。 BN气凝胶显示出高疏水性,可吸收多达160倍于油的重量。这远高于先前报道的多孔BN纳米片。只需在空气中燃烧BN气凝胶即可将其吸收后吸收后恢复使用。这是因为它们具有高温抗氧化性,因此建议广泛用作水处理工具。
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