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Carbon Microtube Aerogel Derived from Kapok Fiber: An Efficient and Recyclable Sorbent for Oils and Organic Solvents.
ACS Nano ( IF 17.1 ) Pub Date : 2020-01-07 , DOI: 10.1021/acsnano.9b07063 Pin Song 1 , Jiewu Cui 2 , Jun Di 1 , Daobin Liu 3 , Manzhang Xu 1 , Bijun Tang 1 , Qingsheng Zeng 1 , Jun Xiong 4 , Changda Wang 3 , Qun He 3 , Lixing Kang 1 , Jiadong Zhou 1 , Ruihuan Duan 1 , Bingbing Chen 1 , Shasha Guo 1 , Fucai Liu 5 , Jun Shen 6 , Zheng Liu 1
ACS Nano ( IF 17.1 ) Pub Date : 2020-01-07 , DOI: 10.1021/acsnano.9b07063 Pin Song 1 , Jiewu Cui 2 , Jun Di 1 , Daobin Liu 3 , Manzhang Xu 1 , Bijun Tang 1 , Qingsheng Zeng 1 , Jun Xiong 4 , Changda Wang 3 , Qun He 3 , Lixing Kang 1 , Jiadong Zhou 1 , Ruihuan Duan 1 , Bingbing Chen 1 , Shasha Guo 1 , Fucai Liu 5 , Jun Shen 6 , Zheng Liu 1
Affiliation
A carbon microtube aerogel (CMA) with hydrophobicity, strong adsorption capacity, and superb recyclability was obtained by a feasible approach with economical raw material, such as kapok fiber. The CMA possesses a great adsorption capacity of 78-348 times its weight. Attributed to its outstanding thermal stability and excellent mechanical properties, the CMA can be used for many cycles of distillation, squeezing, and combustion without degradation, which suggests a potential practical application in oil-water separation. In addition, the adsorption capacity still retained 98% by distillation, 97% by squeezing, and 90% by combustion after 10 cycles. Therefore, the obtained CMA has a broad prospect as an economical, efficient, and environmentally friendly adsorbent.
中文翻译:
源自木棉纤维的碳微管气凝胶:一种高效且可回收的油和有机溶剂吸收剂。
采用木棉纤维等经济的原料,通过可行的方法获得了具有疏水性,强吸附能力和极好的可回收性的碳微管气凝胶(CMA)。CMA的吸附能力是其重量的78-348倍。由于其出色的热稳定性和出色的机械性能,CMA可用于许多次蒸馏,压缩和燃烧而不会降解的循环,这表明其在油水分离中的潜在实际应用。另外,在10个循环之后,通过蒸馏,吸附容量仍然保持98%,通过压缩保持97%,并且通过燃烧保持90%。因此,所获得的CMA作为一种经济,有效和环保的吸附剂具有广阔的前景。
更新日期:2020-01-07
中文翻译:
源自木棉纤维的碳微管气凝胶:一种高效且可回收的油和有机溶剂吸收剂。
采用木棉纤维等经济的原料,通过可行的方法获得了具有疏水性,强吸附能力和极好的可回收性的碳微管气凝胶(CMA)。CMA的吸附能力是其重量的78-348倍。由于其出色的热稳定性和出色的机械性能,CMA可用于许多次蒸馏,压缩和燃烧而不会降解的循环,这表明其在油水分离中的潜在实际应用。另外,在10个循环之后,通过蒸馏,吸附容量仍然保持98%,通过压缩保持97%,并且通过燃烧保持90%。因此,所获得的CMA作为一种经济,有效和环保的吸附剂具有广阔的前景。