Study of zeta potential for material particles in chemical additive solutions

  • 34 Pages
  • 1.99 MB
  • English
Dept. of the Interior , Washington, DC
Zeta potential., Water -- Electric properties, Solution (Chemi
Statementby Pamela J. Watson and Patrick A. Tuzinski.
SeriesInformation circular (United States. Bureau of Mines) -- no.9229.
ContributionsTuzinski, Patrick A.
LC ClassificationsUSBMIC#9229 1989
The Physical Object
Pagination34 p
ID Numbers
Open LibraryOL22071965M
LC Control Number89-600016

A novel technique has been employed by the U.S. Bureau of Mines to determine the zeta potential of particles for a far-reaching series of material types in a wide variety of baseline waters, both alone and with many different chemical additives.

The materials tested ranged from naturally occurring Sioux quartzite and Tennessee marble to commercially produced magnesium oxide bricks. Study of zeta potential for material particles in chemical additive solutions. Washington, D.C.: U.S. Dept. of the Interior, Bureau of Mines, (OCoLC) Study of zeta potential for material particles in chemical additive solutions / By Pamela J.

Watson and Patrick A. Tuzinski. Abstract. Bibliography: p. Mode of access: Internet Topics: Solution (Chemistry), Water, Zeta potential Author: Pamela J. Watson and Patrick A. Tuzinski. Get this from a library. Study of zeta potential for material particles in chemical additive solutions. [Pamela J Watson; Patrick A Tuzinski; United States.

Bureau of Mines.]. The zeta potential (ζ [ = ] mV) of slurry particles is often used as a metric to gauge the particles' stability in the colloidal sense; it is the electric potential at the slipping plane relative to a point in the bulk medium (see Figure ) and is not equal to the Stern potential or the surface potential as those are defined at different locations on and about the particle.

Ions contained within the Stern layer and. Comparison Study of Zeta Potential Values of Bentonite in Salt Solutions Article in Journal of Dispersion Science and Technology 27(1) · January with.

Jan 01,  · The zeta potential was found to be independent of particle concentration if the ratio of the number of bulk ions to particle number is not lower than × This ratio depends on particle size, and the value × relates to particles of diameter by: Chemical mechanical planarization (CMP) is a widely used technique for the manufacturing of integrated circuit chips in the semiconductor industry.

The process generates large amounts of waste containing engineered particles, chemical additives, and chemo-mechanically removed Eduard Dumitrescu, Dinusha P.

Description Study of zeta potential for material particles in chemical additive solutions EPUB

Karunaratne, S.V. Babu, Kenneth N. Wallace, Silvana Andreescu. What are the differences between zeta potential and point of zero charge. Pls i want to know their differences and how to calculate zeta potential without the use of zetameter Zeta Potential.

Zeta potential analyses is a technique for determining the dispersion stability of NPs in solution (Fig). The Zeta potential of the particles is the electric potential at the boundary of the double layer on the particle surface.

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The square of the zeta potential is proportional to the force of electrostatic repulsion between two charged particles. Zeta potential, or ζ potential, is an abbreviation for electrokinetic potential in colloidal systems. From a theoretical viewpoint, zeta potential is the electric potential in the interfacial double layer of a dispersed particle or droplet versus a point in the continuous phase away from the interface.

We use cookies to offer you a better experience, personalize content, tailor advertising, provide social media features, and better understand the use of our services. The zeta potential of latex bearing amidine charged groups was regulated by the addition of NaCl (10 −4 −10 −2 M) and MgCl 2 (10 −4 −10 −2 M) at a constant pH and by the change in pH (4−12) at 10 −2 M NaCl.

The size of the latex particles, determined by dynamic light scattering, varied between and nm for the above electrolyte concentration range. Zeta potential measurements to improve formulation stability and shelf life and reduce formulation time and cost. Zeta potential is a measure of the magnitude of the electrostatic or charge repulsion/attraction between particles and is one of the fundamental parameters known to affect stability.

colloidal behavior of alumina in typical copper chemical mechanical planarization (CMP) solutions was investigated through the measurement of zeta potential and particle cluster size distribution.

The effects of various common additives on zeta potential for alumina slurries used in copper CMP were studied. CMP slurries are formulated with a combination of abrasive particles and chemical additives as summarized in Table The additives are selected for their ability to stabilize the abrasive particle dispersions, and optimize the selective removal of the materials targeted by a particular CMP operation.

I want to know about the significance of the Zeta potential on the stability of the nano-formulation.; What should be the optimum range of zeta potential for nano-formulation as per its biological. Zeta potential is often measured as a function of pH (or other additive property) in order to determine the conditions at which there is zero zeta potential, also known as the isoelectric point (IEP).

MOLECULAR WEIGHT The SZ can also be used to measure the molecular weight of proteins, starches, polymers, dendrimers and other large molecules. Dec 15,  · The silica nanoparticles that were used in this study, SiO 2 EN20(−) and SiO 2 EN(−), showed colloidal stability in water across a wide pH range (pH 3–13), with a highly negative surface charge in terms of zeta potential (Figure 1).Cited by: The zeta potential of the sample will determine whether the particles within a liquid will tend to flocculate (stick together) or not.

Electrophoretic Light Scattering (ELS) is a technique used to measure the electrophoretic mobility of particles in dispersion, or molecules in solution. The zeta potential in de–ionized water of plastic materials of general use (PET, HDPE, PP, and PVC) is very similar in the range pH = 3 to pH = The zeta potential as a function of pH of a film of particles of black tourmaline in de–ionized water was used to obtain a stable aqueous suspension of tourmaline particles.

Jun 04,  · The zeta potential measurements allow to estimate of colloidal suspension stability. The colloidal system is stable when a dominant role is played by the forces causing the mutual repulsion of the particles.

The higher is an absolute value of the zeta potential, the greater the probability that the studied suspension will be by: In a study, conducted by Bassioni on environment-friendly construction, zeta potential measurements were used to identify the presence of anionic superplasticizers on cement particles.

In addition, Bassioni and Ali [ 24 ] performed zeta potential measurements to identify effective dosage of additives Author: Syed Taqvi, Ghada Bassioni.

Zeta potential's strength determines the amount of material (nutrients, wastes) that fluids such as your blood and lymph can carry. Increasing the electrical force in the solution allows the fluid to dissolve and hold more material.

To study the electric properties of adsorption monolayers of an amphoteric surfactant, in our case lauryl dimethyl amine oxide (LDAO), we measured the ζ-potential of latex particles covered with this surfactant.

Its adsorption on the latex particles is estimated by dynamic surface tension measurements coupled with light scattering by: Colloidal Behavior - Zeta potential and particle size distribution measurements were taken for EKC Tech alumina Various common copper slurry additives were investigated Solution pH varied from Experimental Results1: pH had the largest effect on particle size Additives typically decreased magnitude of zeta potential, and increased.

The natural zeolites used in this study and identified by X-ray diffraction were scolecite, chabazite, heulandite and stilbite. Thermal analysis (TG and DSC) and water adsorption isotherms were also used as characterization techniques.

The zeta potential was measured by a.

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explained by the relatively large zeta potential gap between the filter material (polypropylene) and the colloidal silica abrasive, described in Figure 5, which promotes attraction of the particles to the media and results in high retention performance. Low concentration with high flow rate: The reten.

Jul 26,  · Zeta potential indicates the dispersion stability of particles in colloids. The zeta potentials of the iron oxides were varied in the range between mV to mV. The zeta potential of the iron oxides showed a decreasing trend when the pH increased from 2 Cited by: 1.

Jan 19,  · Many ceramics are produced from casting slips. Properties of the final product are dictated by the slip properties. These can be optimized by optimizing particle size and zeta potential.

A case study involving zirconia and alumina slips illustrating this is Malvern Panalytical. Nanomaterials are being used in modern and human-safe insulation technologies, in the past they were found in Asbestos-based insulation.

As a lubricant additive, nano materials have the ability to reduce friction in moving parts. Worn and corroded parts can also be repaired with self-assembling anisotropic nanoparticles called TriboTEX.Zeta potential governs the degree of repulsion between adjacent, similarly charged solid dispersed particles.

If the zeta potential is reduced below a certain value, which depends on the specific system under investigation, the attractive forces between particles due to van der Waals' force, overcome the forces of repulsion and the particles.zeta potential is a very good index of the magnitude of the interaction between colloidal particles and measurements of zeta potential are commonly used to assess the stability of colloidal systems.

Origins of Surface Charge Most colloidal dispersions in aqueous media carry an electric charge. There are many origins of this surface.