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- mesoporous nanomaterials 介孔纳米材料
- Mesoporous molecular sieves and its applications. 中孔径分子筛及应用。
- Development trend of metal oxide nanomaterials is reviewed lastly. 最后对金属氧化物纳米材料研究的发展方向提出了展望。
- By comparison, current nanomaterials can have wide variations. 经比较,目前的纳米材料会有很大的变化。
- Fig. 1 Influence of dopants on the conductivity of mesoporous alumina. 图1掺杂物对介孔氧化铝导电性的影响。
- This thesis emphasized on the preparation of mesoporous molecular sieves MSU. 中孔分子筛MSU是当今认为在稳定性方面很有发展前途的一种催化新材料。
- The method of avoiding agglomeration by ultrasonic cavitation is proposed to obtain ideal nanomaterials. 提出利用超声的空化作用来有效地防止团聚现象,以期得到理想的纳米材料。
- They can be widely used in surfactant,solubilizer,drug delivery systems,and nanomaterials,etc. 广泛用作表面活性剂、增溶剂、药物载体和纳米材料等。
- Just over a year ago, Berkeley, California passed legislation regulating the disposal of nanomaterials. 仅在一年前,加州的伯克利市通过了一项控制废弃纳米材料处理的立法。
- Recently, the fabrication of nanomaterials by biomolecule method emerges as a hot field throughout the world. 摘要当前在国外纳米材料领域中兴起了一个热门课题-生物分子法制备纳米材料。
- The fine nanoparticles vapored by laser is translated into one-dimension nanomaterials by catalyst at high temperature. 认为准一维纳米材料是气相粒子在高温催化剂作用下生成的。
- Mechanochemistry has been extensively applied for the synthesis of functional nanomaterials. 机械化学以其独特的优势在纳米功能材料的合成中有着广泛的应用。
- Now a high tech era with a core of nanomaterials, nanoelectronics and nanodoc is appeared and won worldwide interests. 当前,在全球范围内,一个以纳米材料、纳米电子学和纳米医疗为核心的高科技时代已经来临。
- Carbon nanotubes as well as other carbon nanomaterials are a kind of novel carbon form between fullerene and graphite. 摘要碳纳米管及其衍生纳米碳材料是一种介于富勒烯与石墨之间的碳的存在形式,具有独特的电子性质。
- The effects of tunneling, quantum, blue shift of nanomaterials will be presented. 奈米材料的物性与化性,如穿隧效应、量子效应及蓝位移效应等;
- Simultaneity the current situation and industrialization of nanomaterials in our country were introduced. 同时介绍了我国纳米材料研究的现状和产业化的状况。
- The kinetics of nanomaterials synthesis, micromixing and scale-up of liquid-phase reaction process are discussed. 以纳米粉体合成过程的动力学、微观混合及液相反应的放大为例进行了详细的论述。
- Nanomaterials is the most important material while nano-technology is a dominative technology in the 21st century. 纳米材料和技术是21世纪“最有前途的材料”和“决定性的技术”,本文论述了聚合物基纳米复合材料的分类;
- Synthesis of Hexagonal Mesoporous Silica by Using Mixed Surfactants Liquid- Crystal as Templates. 混合液晶模板法合成六方介孔氧化硅分子筛。
- Various synthetic procedures, modification methods of mesoporous alumina and its application for acid catalysis are reviewed herein. 本文综述了介孔氧化铝合成、改性研究的历史与现状,及在酸催化过程中的应用。