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介孔碳材料不仅具有高比表面积和大孔径,还具有表面疏水性、良好的水热稳定性及优异的导电性等特点,在催化、电化学等诸多领域具有广阔的应用前景,成为国内外研究的热点之一。文中主要综述了近年来利用聚丙烯腈制备介孔碳材料的研究进展,并简要阐述了不同形貌的聚丙烯腈基介孔碳材料的制备方法及在催化剂载体、超级电容器、燃料电池等领域的具... 相似文献
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生物柴油是一种绿色可再生能源,一般是通过酸或碱催化酯化或酯交换反应来制备。综述了介孔金属氧化物、介孔分子筛及介孔磷酸盐等不同类型介孔材料催化剂用于制备生物柴油的研究进展,并对制备生物柴油的介孔催化剂研究方向进行展望。 相似文献
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新型一维材料—单壁碳纳米管的制备和应用研究 总被引:1,自引:0,他引:1
本文简要综述了单壁碳纳米管的最新进展。主要介绍了最近两年单壁碳纳米管的制备技术发展情况,包括电弧放电,化学气相沉淀,激光蒸发和太阳能方法。展望了其在储氢材料,纳米电子器件等领域的应用前景。讨论了影响单壁碳纳米管制备及实际应用的几个关键因素。提出了单壁碳纳米管的发展方向。 相似文献
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碳纳米管(CNTs)作为纳米材料研究中的一个重要发现,自其诞生以来就成为碳材料领域的研究热点之一.金属有机框架(MOFs)凭借其独特的多孔结构,近年来在各领域的应用已经成为研究前沿之一.随着材料科学的不断发展,对具有不同功能特性材料的复合技术研究,已经成为解决材料应用领域中关键问题的主要方法.而碳纳米管和金属有机框架作为目前材料领域两类十分重要的纳米材料,通过复合技术将碳纳米管的高导电特性和金属有机框架材料的高比表面积、丰富孔道分布特性相结合是研究与应用的必然趋势.本文综述了近年来金属有机框架和碳纳米管的主要复合形式和制备方法,整理了复合材料在超级电容器、锂电池、催化、吸附等领域的最新研究进展,对两种材料性能的协同提升方面进行了讨论和总结,并指出CNTs与MOFs材料的复合以及CNTs的生长分布具有很高的随机性,对其实现进一步控制是未来的技术研究重点. 相似文献
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纳米技术在环境污染治理中具有广泛前景,然而其在应用过程中存在纳米颗粒及活性中心易团聚失活的问题。将纳米粒子的活性中心限制在载体的孔道内,构建出新型纳米限域材料可以有效克服这一缺点。同时,凭借材料的纳米限域效应,一定程度上可影响水的氢键网络结构,并会影响反应中中间活性粒子的演化、传质速率、晶体的生长和成核阶段过程,以及提高局部空间内反应底物的浓度。本文系统梳理了纳米限域材料的制备方法,并对比分析了各种制备方法的优缺点,归纳总结了近年来纳米限域材料在吸附和高级氧化降解污染物中的研究进展,展望了未来纳米限域材料在环境污染物治理领域的研发及应用前景。 相似文献
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Highly basic CaO nanoparticles in mesoporous carbon materials and their excellent catalytic activity
Raja PK Chokkalingam A Priya SV Balasubramanian VV Benziger MR Aldeyab SS Jayavell R Ariga K Vinu A 《Journal of nanoscience and nanotechnology》2012,12(6):4613-4620
Highly basic CaO nanoparticles immobilized mesoporous carbon materials (CaO-CMK-3) with different pore diameters have been successfully prepared by using wet-impregnation method. The prepared materials were subjected to extensive characterization studies using sophisticated techniques such as XRD, nitrogen adsorption, HRSEM-EDX, HRTEM and temperature programmed desorption of CO2 (TPD of CO2). The physico-chemical characterization results revealed that these materials possess highly dispersed CaO nanoparticles, excellent nanopores with well-ordered structure, high specific surface area, large specific pore volume, pore diameter and very high basicity. We have also demonstrated that the basicity of the CaO-CMK-3 samples can be controlled by simply varying the amount of CaO loading and pore diameter of the carbon support. The basic catalytic performance of the samples was investigated in the base-catalyzed transesterification of ethylacetoacetate by aryl, aliphatic and cyclic primary alcohols. CMK-3 catalyst with higher CaO loading and larger pore diameter was found to be highly active with higher conversion within a very short reaction time. The activity of 30% CaO-CMK3-150 catalyst for transesterification of ethylacetoacetate using different alcohols increases in the following order: octanol > butanol > cyclohexanol > benzyl alcohol > furfuryl alcohol. 相似文献
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A direct templating method which is facile, inexpensive and suitable for the large scale production of mesoporous carbon is reported herein. A meso-structure surfactant/silicate template was made in a solution phase and resorcinol-formaldehyde as a carbon precursor was incorporated into the template solution. After aging, carbonization and hydrofluoric acid (HF) etching, mesoporous carbon was obtained. Using X-ray diffraction, scanning and transmission electron microscopy and nitrogen sorption, the synthesis mechanism of the mesoporous carbon was elucidated. According to the small angle X-ray scattering measurements, the surface became smoother after the removal of the silica, indicating that the silica was mostly located at the pore surface of the carbon. Also, the calculation of the pore volume demonstrated that the silica was transferred into the pores of the carbon without structural collapse during HF etching. When the prepared mesoporous carbon was applied to a supercapacitor electrode, the rectangular shape of the cyclic voltammogram was less collapsed, even at a high scan rate, which is indicative of its high rate capability. This was due to the low resistance of the electrolyte in the pores (3.8 Ω cm2), which was smaller than that of conventional activated carbon electrodes and even comparable to that of ordered mesoporous carbon electrodes. This improved performance was probably due to the well developed mesoporosity and high pore connectivity of the prepared mesoporous carbon. 相似文献