有机溶质在纳米孔隙中的扩散

K. Nakatani
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引用次数: 0

摘要

溶质颗粒内传质的动力学分析通常是对大量的颗粒进行的。然而,由于颗粒内的传质取决于颗粒的大小、颗粒之间的距离等,因此对单个微粒的测量对于定量分析是必不可少的。因此,发展了微毛细管注射和操作技术相结合的微光谱技术,并在直接测量溶质在单孔微颗粒中的萃取和释放速率的基础上,研究了颗粒内的传质问题。本文综述了微毛细管操作-微光谱技术的原理以及有机溶质在单ods硅胶和硅胶微粒纳米孔中的扩散。从孔和表面扩散、孔壁缓慢脱附等方面讨论了纳米孔中的扩散。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Diffusion of Organic Solute in Nanometer-sized Pores
Kinetic analysis of intraparticle mass transfer of a solute is generally performed for a arge number of particles. However, since the intraparticle mass transfer depends on the particle size, particle-particle distance, and so forth, measurements for single microparticles are indispensable for the quantitative analysis. Thus, microspectroscopy combined with microcapillary injection and manipulation technique has been developed, and the intraparticle mass transfer has been investigated on the basis of the direct measurements of extraction and release rates of a solute for single porous microparticles. In this review, the principles of the microcapillary manipulation-microspectroscopy technique and the diffusion of an organic solute in nanometer-sized pores of single ODS-silica gel and silica gel microparticles are described. The diffusion in the nanometer-sized pores is discussed in terms of pore and surface diffusion, slow desorption from the pore walls, and so on.
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