5.21 : Types of Coprecipitation
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Coprecipitation is the contamination of a precipitate by otherwise soluble species and occurs via different processes. In colloidal precipitates, coprecipitation occurs via surface adsorption. For instance, barium sulfate has a primary layer of adsorbed barium ions and a secondary layer of nitrate counterions. This results in contamination of the precipitate by barium nitrate.
Sometimes, ions in a crystal lattice can undergo isomorphous replacement by inclusions of similar charge and size. For example, during the precipitation of cadmium sulfide, manganese in the solution can replace cadmium to form a mixed crystal. Similarly, magnesium ammonium phosphate can be contaminated by potassium ions in the solution, resulting in mixed crystals of magnesium potassium phosphate. The formation of mixed crystals can be prevented by removing the interfering ion or using a different precipitant.
Coprecipitation can also occur via occlusion, where foreign ions are trapped within the growing lattice. Similarly, pockets of solution are trapped between adjacent crystals in mechanical entrapment. Slow precipitation can minimize occlusion, whereas rapid dissolution and reprecipitation in a clean, fresh solvent can remove it.
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5.21 : Types of Coprecipitation
Complexometric Titration, Precipitation Titration, and Gravimetry
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5.1 : Complexometric Titration: Overview
Complexometric Titration, Precipitation Titration, and Gravimetry
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5.2 : Complexometric Titration: Ligands
Complexometric Titration, Precipitation Titration, and Gravimetry
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5.3 : Properties of Organometallic Compounds
Complexometric Titration, Precipitation Titration, and Gravimetry
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5.4 : EDTA: Chemistry and Properties
Complexometric Titration, Precipitation Titration, and Gravimetry
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5.5 : EDTA: Conditional Formation Constant
Complexometric Titration, Precipitation Titration, and Gravimetry
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5.6 : EDTA: Auxiliary Complexing Reagents
Complexometric Titration, Precipitation Titration, and Gravimetry
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5.7 : EDTA: Direct, Back-, and Displacement Titration
Complexometric Titration, Precipitation Titration, and Gravimetry
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5.8 : EDTA: Indirect and Alkalimetric Titration
Complexometric Titration, Precipitation Titration, and Gravimetry
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5.9 : Complexometric EDTA Titration Curves
Complexometric Titration, Precipitation Titration, and Gravimetry
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5.10 : Effects of EDTA on End-Point Detection Methods
Complexometric Titration, Precipitation Titration, and Gravimetry
443 Views
5.11 : Masking and Demasking Agents
Complexometric Titration, Precipitation Titration, and Gravimetry
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5.12 : Precipitation Titration: Overview
Complexometric Titration, Precipitation Titration, and Gravimetry
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5.13 : Precipitation Titration Curve: Analysis
Complexometric Titration, Precipitation Titration, and Gravimetry
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5.14 : Precipitation Titration: Endpoint Detection Methods
Complexometric Titration, Precipitation Titration, and Gravimetry
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