2010
DOI: 10.1002/jssc.201000565
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Hydrodynamic chromatography of latex blends

Abstract: The ability to characterize the size and shape distributions of broadly polydisperse analytes is a driving force in particle size analysis. Multi-detector hydrodynamic chromatography (HDC), which has previously shown promise in its ability to characterize the size and shape of monodisperse, spherical polystyrene latex standards, is applied here to include the characterization of bi-, tri-, and tetramodal latex blends and their constituents varying in size, chemistry, and compactness. The ability of multi-detec… Show more

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Cited by 31 publications
(16 citation statements)
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“…Furthermore, the viscometer chromatograms show that the analytes elute in an order inversely proportional to their size (size, for linear polymers, being directly proportional to molar mass). This latter is confirmed by the larger VISC peak area of PDMS 440 versus that of PDMS 116 as, all other factors being equal, the response of the viscometer is directly proportional to molar mass (except in special cases such as homogeneous hard spheres [16], or for certain monomer and oligomer solutions, which can behave [14,15] as near-hard spheres [13] or can even possess negative viscosities [17,18]). It is further confirmed by the specific viscosities of both analytes, which are overlaid upon one another in Fig.…”
Section: Sec/mals/qels/visc/dri Analysis Of Individual Pdms Samplesmentioning
confidence: 71%
“…Furthermore, the viscometer chromatograms show that the analytes elute in an order inversely proportional to their size (size, for linear polymers, being directly proportional to molar mass). This latter is confirmed by the larger VISC peak area of PDMS 440 versus that of PDMS 116 as, all other factors being equal, the response of the viscometer is directly proportional to molar mass (except in special cases such as homogeneous hard spheres [16], or for certain monomer and oligomer solutions, which can behave [14,15] as near-hard spheres [13] or can even possess negative viscosities [17,18]). It is further confirmed by the specific viscosities of both analytes, which are overlaid upon one another in Fig.…”
Section: Sec/mals/qels/visc/dri Analysis Of Individual Pdms Samplesmentioning
confidence: 71%
“…Packed-column HDC remains a low-resolution chromatographic technique. This can be compensated for, to a certain (very limited) extent, by the use of multiple detectors [2]. A more powerful incarnation of HDC, as regards resolution, is microcapillary HDC, where dozens of peaks can be separated during the course of one experiment [47,48].…”
Section: Discussionmentioning
confidence: 99%
“…thank you Hamish Small "HDC" stands for hydrodynamic chromatography and I, of course, knew who Hamish Small was. It took me virtually no time to reply to Hamish (according to my Outlook e-mail records, I did this within 15 min of receiving the reprint request) and to flood him with everything we had published on HDC up to that point [1,2,3,4,5,6,7,8]. The unintended humor of this was not lost on Hamish, whose reply to me began "Dear Andre, Many thanks for all the articles.…”
Section: A Personal Introductionmentioning
confidence: 99%
“…Inside a capillary or a column packed with nonporous beads a hydrodynamic flow profile is developing. Since the center of mass of larger particles cannot come as close to the wall as the one of small particles, they will move in faster stream lines of the flow profile and elute first . Because the separation is only flow‐driven, a minimum of outer forces is acting on the sample, very similar to AF4.…”
Section: Separation Of the Nanocarrier–protein Corona Complex From Frmentioning
confidence: 99%