EXTENSION OF SEDIMENTATION STERIC FIELD-FLOW FRACTIONATION INTO THE SUBMICROMETER RANGE - SIZE ANALYSIS OF 0.2-15-MU-M METAL PARTICLES

被引：39

作者：

MOON, MH ^{[1
]}

GIDDINGS, JC ^{[1
]}

机构：

[1] UNIV UTAH,FIELD FLOW FRACTIONAT RES CTR,DEPT CHEM,SALT LAKE CITY,UT 84112

来源：

ANALYTICAL CHEMISTRY | 1992年 / 64卷 / 23期

关键词：

D O I：

10.1021/ac00047a027

中图分类号：

O65 [分析化学];

学科分类号：

070302 ; 081704 ;

摘要：

Sedimentation/steric field-flow fractionation (FFF), a rapid method for the high-resolution separation and characterization of >1 mum-diameter particles, can be extended well into the submicrometer size range providing the steric inversion (or transition) diameter d(I) normally about 1 mum, is significantly lowered. To better accomplish this, a means has been developed to predict d based on normal mode retention theory and steric mode calibration plots. By applying a high field strength, d(I) can be systematically reduced below 1 mum and steric FFF analysis extended down to the modified d(I) value. To offset the increased elution time associated with the smaller d, channel thickness and breadth are reduced and high channel flow rates utilized. The high flow rates and slow flow (rather than stop-flow) injection reduce sample losses at the channel wall. The above concepts were verified using polystyrene latex standards. Application was made to samples of gold, palladium, sliver, and copper particles. A single steric calibration plot, obtained by electron microscopy for gold particles, was applied to the size analysis of various metals using the density compensation method. For these runs d approximately 0.2 mum. (Much smaller sizes than d(I) can be analyzed by normal mods FFF but then larger sizes are excluded.) Analysis times ranged from 1 to 12 min depending on the smallest particle size.

引用

页码：3029 / 3037

页数：9

共 19 条

[1] THE APPLICATION OF FIELD-FLOW FRACTIONATION TECHNIQUES TO THE CHARACTERIZATION OF COMPLEX ENVIRONMENTAL-SAMPLES [J].

BECKETT, R .

ENVIRONMENTAL TECHNOLOGY LETTERS, 1987, 8 (07) :339-354

[2] USE OF FIELD-FLOW FRACTIONATION TO STUDY POLLUTANT-COLLOID INTERACTIONS [J].

BECKETT, R ;

HOTCHIN, DM ;

HART, BT .

JOURNAL OF CHROMATOGRAPHY, 1990, 517 :435-447

[3] PARTICLE-SIZE DISTRIBUTION BY SEDIMENTATION STERIC FIELD-FLOW FRACTIONATION - DEVELOPMENT OF A CALIBRATION PROCEDURE BASED ON DENSITY COMPENSATION [J].

GIDDINGS, JC ;

MOON, MH ;

WILLIAMS, PS ;

MYERS, MN .

ANALYTICAL CHEMISTRY, 1991, 63 (14) :1366-1372

[4] MEASUREMENT OF PARTICLE DENSITY, POROSITY, AND SIZE DISTRIBUTIONS BY SEDIMENTATION STERIC FIELD-FLOW FRACTIONATION - APPLICATION TO CHROMATOGRAPHIC SUPPORTS [J].

GIDDINGS, JC ;

MOON, MH .

ANALYTICAL CHEMISTRY, 1991, 63 (24) :2869-2877

[5]

GIDDINGS JC, 1974, ANAL CHEM, V46, P1917, DOI 10.1021/ac60349a046

[6]

GIDDINGS JC, 1991, ACS S SERIES 472, V2, P198

[7] SEDIMENTATION FIELD FLOW FRACTIONATION AT HIGH FORCE-FIELDS [J].

KIRKLAND, JJ ;

DILKS, CH ;

YAU, WW .

JOURNAL OF CHROMATOGRAPHY, 1983, 255 (JAN) :255-271

[8] EXPERIMENTAL-OBSERVATION OF STERIC TRANSITION PHENOMENA IN SEDIMENTATION FIELD-FLOW FRACTIONATION [J].

LEE, SH ;

GIDDINGS, JC .

ANALYTICAL CHEMISTRY, 1988, 60 (21) :2328-2333

[9] PARTICLE CHARACTERIZATION IN CENTRIFUGAL FIELDS - COMPARISON BETWEEN ULTRACENTRIFUGATION AND SEDIMENTATION FIELD-FLOW FRACTIONATION [J].

LI, JM ;

CALDWELL, KD ;

MACHTLE, W .

JOURNAL OF CHROMATOGRAPHY, 1990, 517 :361-376

[10] HYDRODYNAMIC RELAXATION IN FLOW FIELD-FLOW FRACTIONATION USING BOTH SPLIT AND FRIT INLETS [J].

LIU, MK ;

WILLIAMS, PS ;

MYERS, MN ;

GIDDINGS, JC .

ANALYTICAL CHEMISTRY, 1991, 63 (19) :2115-2122

← 1 2 →