Atomic Force Microscopy and Magnetic Force Microscopy Study of Model Colloids

Raşa, M.; Kuipers, Martijn; Philipse, Albert P.

doi:10.1006/jcis.2002.8345

Cited by 96 publications

(72 citation statements)

References 22 publications

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“…1). Since the lateral diameter is strongly affected by tip convolution, height information was used to determine the particle size [12]. The average diameter of particles was 12.1 nm for negative particles (which confirms the nominal diameter re- ported by DuPont) and 15.2 nm for positive particles.…”

Section: Resultsmentioning

confidence: 65%

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Heteroaggregation, repeptization and stability in mixtures of oppositely charged colloids

Raşa

Philipse

Meeldijk

2004

Journal of Colloid and Interface Science

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We report a study of mixtures of initially oppositely charged particles with similar size. Dispersions of silica spheres (negatively charged) and alumina-coated silica spheres (positively charged) at low ionic strength, mixed at various volume ratios, exhibited a surprising stability up to compositions of 50% negative colloids as well as spontaneous repeptization of particles from the early-stage formed aggregates. The other mixtures were found to contain large heteroaggregates, which were imaged using cryogenic electron microscopy. Electrophoretic mobility, electrical conductivity, static and dynamic light scattering and sedimentation were studied as a function of volume fraction of the mixed dispersions to investigate particle interactions and elucidate the repeptization phenomenon.

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Section: Resultsmentioning

confidence: 65%

“…Particle sizes were determined using an atomic force microscope (AFM) (Nanoscope IIIa, Digital Instruments), in tapping mode, according to [12]. In order to image the cluster formation as well as single particles in the ethanol based samples, we used the cryogenic transmission electron microscopy (cryo-TEM).…”

Section: Experimental Methodsmentioning

confidence: 99%

Heteroaggregation, repeptization and stability in mixtures of oppositely charged colloids

Raşa

Philipse

Meeldijk

2004

Journal of Colloid and Interface Science

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“…In previous studies, 16,17 the radius of the tip was critical in determining the particle size when the curvature of the tip was larger than the particle. The tip-radius of the optical-fiber tip was determined by analyzing Figure 2(d), with the equation R = (x 2 +y 2 )/(2y), where R is the tip radius, y is the y-axis distance between the maximum height and the minimum height of the tip, and x is the x-axis distance between the same points.…”

confidence: 99%

Cantilever-based optical interfacial force microscope in liquid using an optical-fiber tip

et al. 2013

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We developed a novel cantilever-based optical interfacial force microscope (COIFM) to study molecular interaction in liquid environments. The force sensor was created by attaching a chemically etched optical-fiber tip to the force sensor with UV epoxy, and characterized by imaging on a calibration grid. The performance of the COIFM was then demonstrated by measuring the force between two oxidized silicon surfaces in 1 mM KCl as a function of distance. The result was consistent with previously reported electrical double layer forces, suggesting that a COIFM using an optical-fiber tip is capable of measuring force in a liquid environment

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“…This pseudodomain model allows interpretation of most results obtained by MFM on the basis of bulk probes. For probes with a different geometry, for example those where the magnetic region is confined to a thin layer, other appropriate models have been developed (Rasa et al, 2002). Fig.…”

Section: Modelling the Mfm Responsementioning

confidence: 99%