Vincent Germain scite author profile

Structural investigations by using high-resolution transmission electron microscopy (HRTEM) and selected area electron diffraction (SAED) of silver nanodisks with different sizes are presented. The disks have a face centered cubic (fcc) crystal structure and their flat surfaces are (111). Stacking faults parallel to the (111) planes are frequently observed for the nanodisks. A unique (111) stacking fault model which is parallel to the flat (111) disk surface has been proposed to explain the observed 1/3{422} forbidden reflections in [111] SAED pattern and the corresponding 3×{422} supperlattice fringes in the [111] HRTEM image. It is suggested that the presence of the stacking faults may be the key in the formation and growth of the disk morphology. This study may provide an insight to synthetically controlling particle shape and size through defect engineering.

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Electrostatic Interactions of Colloidal Particles in Nonpolar Solvents: Role of Surface Chemistry and Charge Control Agents

Sainis

et al. 2007

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We study the electrostatic and hydrodynamic interactions of colloidal particles in nonpolar solvents. Using blinking optical tweezers, we can extract the screening length, kappa-1, the effective surface potential, |ezeta*|, and the hydrodynamic radius, ah, in a single measurement. We apply this technique to suspensions of polystyrene and poly(methyl methacrylate) particles in hexadecane with soluble charge control agents, aerosol sodium di-2-ethylhexylsulfosuccinate (AOT) and polyisobutylene succinimide (OLOA-1200). We find that the electrostatic interactions of these particles depend sensitively on surface composition as well as on the concentration and chemistry of the charge control agent.

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Statistics of Particle Trajectories at Short Time Intervals Reveal fN-Scale Colloidal Forces

2007

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We describe and implement a technique for extracting forces from the relaxation of an overdamped thermal system with normal modes. At sufficiently short time intervals, the evolution of a normal mode is well described by a one-dimensional Smoluchowski equation with constant drift velocity v, and diffusion coefficent D. By virtue of fluctuation dissipation, these transport coefficients are simply related to conservative forces, F, acting on the normal mode: F=kBTv/D. This relationship implicitly accounts for hydrodynamic interactions, requires no mechanical calibration, makes no assumptions about the form of conservative forces, and requires no prior knowledge of material properties. We apply this method to measure the electrostatic interactions of polymer microspheres suspended in nonpolar microemulsions.

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Automated trapping, assembly, and sorting with holographic optical tweezers

Chapin¹,

Germain²,

Dufresne³

2006

Opt. Express

190

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Vincent Germain

Stacking Faults in Formation of Silver Nanodisks

Electrostatic Interactions of Colloidal Particles in Nonpolar Solvents: Role of Surface Chemistry and Charge Control Agents

Statistics of Particle Trajectories at Short Time Intervals Reveal fN-Scale Colloidal Forces

Automated trapping, assembly, and sorting with holographic optical tweezers

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