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Surface Energy of Microcrystalline Cellulose Determined by Capillary Intrusion and Inverse Gas Chromatography

机译：毛细管侵入和反相气相色谱法测定微晶纤维素的表面能

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摘要

Surface energy data for samples of microcrystalline cellulose have been obtained using two techniques: capillary intrusion and inverse gas chromatography. Ten microcrystalline cellulose materials, studied using capillary intrusion, showed significant differences in the measured surface energetics (in terms of total surface energy and the acid–base characteristics of the cellulose surface), with variations noted between the seven different manufacturers who produced the microcrystalline cellulose samples. The surface energy data from capillary intrusion was similar to data obtained using inverse gas chromatography with the column maintained at 44% relative humidity for the three samples of microcrystalline cellulose studied. This suggests that capillary intrusion may be a suitable method to study the surface energy of pharmaceutical samples.

机译：微晶纤维素样品的表面能数据已使用两种技术获得：毛细管侵入法和反相气相色谱法。十种使用毛细管侵入法研究的微晶纤维素材料显示出所测得的表面能（在总表面能和纤维素表面的酸碱特性方面）存在显着差异，其中七种生产微晶纤维素的制造商之间存在差异样品。来自毛细管侵入的表面能数据类似于使用反相气相色谱法获得的数据，其中三个研究的微晶纤维素样品的色谱柱相对湿度保持在44％。这表明毛细管侵入可能是研究药物样品表面能的合适方法。

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期刊名称 AAPS PharmSci
作者
D. Fraser Steele; R. Christian Moreton; John N. Staniforth; Paul M. Young; Michael J. Tobyn; Stephen Edge;
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作者单位

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年(卷),期 2008(10),3
年度 2008
页码 494–503
总页数 10
原文格式 PDF
正文语种
中图分类药学;
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专利

1. Surface Energy of Microcrystalline Cellulose Determined by Capillary Intrusion and Inverse Gas Chromatography [J] . D. Fraser Steele, R. Christian Moreton, John N. Staniforth, The AAPS Journal . 2008,第3期

机译：毛细管侵入和反相气相色谱法测定微晶纤维素的表面能
2. Influence of drying method on the surface energy of cellulose nanofibrils determined by inverse gas chromatography [J] . Peng Y., Gardner D.J., Han Y., Journal of Colloid and Interface Science . 2013,第Null期

机译：干燥方法对反相气相色谱法测定纤维素纳米原纤维表面能的影响
3. Interrelations between Adsorption Energies and Local Isotherms, Local Monolayer Capacities, and Energy Distribution Functions, as Determined for Heterogeneous Surfaces by Inverse Gas Chromatography [J] . Nicholas A.Katsanos, Efstathia Iliopoulou, Vassilis Plagianakos Journal of Colloid and Interface Science . 2001,第1期

机译：吸附能与局部等温线，局部单层容量和能量分布函数之间的相互关系，如通过反相气相色谱法测定的非均质表面
4. SURFACE ENERGY OF SILICA XEROGELS AND FUMED SILICA BY INVERSE GAS CHROMATOGRAPHY AND INVERSE LIQUID CHROMATOGRAPHY [C] . J. B. DONNET, Y. J. LI, T. K. WANG, Meeting of the Rubber Division, American Chemical Society, Oct 16-19, 2001, Cleveland, Ohio . 2001

机译：反相气相色谱和反相液相色谱法测定二氧化硅干粉和气相法二氧化硅的表面能
5. Measurement of the Surface Energy of Raw and Lubricated Lactose Powders by Inverse Gas Chromatography [D] . Xu, Jiteng. 2019

机译：通过反气相色谱法测量原料和润滑乳糖粉末的表面能
6. Surface Hydrophobic Modification of Microcrystalline Cellulose by Poly(methylhydro)siloxane Using Response Surface Methodology [O] . Yulin Xie, Siquan Cai, Zhen Hou, 2018

机译：响应表面法用聚甲基氢硅氧烷对微晶纤维素进行表面疏水改性
7. Surface Energy of Microcrystalline Cellulose Determined by Capillary Intrusion and Inverse Gas Chromatography [O] . Steele, D F, Moreton, R C, Staniforth, J N, 2008

机译：毛细管侵入和反相气相色谱法测定微晶纤维素的表面能
8. Experimental determination of adsorption isotherm data for the study of the surface energy distribution of various solid surfaces by inverse gas-solid chromatography. [R] . J. Roles G. Guiochon 1991

机译：实验测定吸附等温线数据，用于通过反气固色谱法研究各种固体表面的表面能分布。

Surface Energy of Microcrystalline Cellulose Determined by Capillary Intrusion and Inverse Gas Chromatography

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