Triiodide: Difference between revisions
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Latest revision as of 02:45, 18 March 2025
Triiodide
Triiodide, also known as triiodide ion (I3^-), is a chemical compound composed of three iodine atoms bonded together. It is an important species in inorganic chemistry and finds applications in various fields. This article provides an overview of triiodide, its properties, uses, and related information.
Properties[edit]
Triiodide is a negatively charged polyatomic ion, formed by the combination of three iodine atoms. It has a linear molecular geometry, with the central iodine atom bonded to the other two iodine atoms. The bond length between the central iodine and the terminal iodines is longer than the bond length between the terminal iodines. This difference in bond length is due to the repulsion between the lone pairs of electrons on the central iodine atom.
Triiodide is highly soluble in polar solvents such as water and ethanol. It forms dark brown or black solutions due to its strong absorption of visible light. The color intensity of the solution increases with the concentration of triiodide.
Synthesis[edit]
Triiodide can be synthesized by the reaction between iodine (I2) and iodide ions (I^-). This reaction is typically carried out in an aqueous solution, where iodine dissolves to form iodide ions. The iodide ions then react with the excess iodine to form triiodide:
2 I^- + I2 → I3^-
Uses[edit]
Triiodide has several important applications in various fields:
1. Analytical Chemistry: Triiodide is commonly used as an oxidizing agent in redox titrations. It can react with reducing agents, such as thiosulfate ions, to determine their concentration.
2. Organic Chemistry: Triiodide is used as a mild oxidizing agent in organic synthesis. It can convert alcohols to aldehydes or ketones, and can also be used to cleave carbon-carbon double bonds.
3. Energy Storage: Triiodide is utilized in some types of dye-sensitized solar cells. It acts as a redox mediator, shuttling electrons between the dye molecules and the electrode, thus facilitating the conversion of light energy into electrical energy.
4. Medicinal Applications: Triiodide has been investigated for its potential use in the treatment of certain types of cancer. It has shown promising results in inhibiting the growth of cancer cells in laboratory studies.
Related Compounds[edit]
Triiodide is part of a family of polyatomic ions known as halogens. Other related compounds include:
1. Iodine (I2): The diatomic form of iodine, which is a purple solid at room temperature.
2. Iodide (I^-): The negatively charged ion formed by the addition of an electron to iodine. It is commonly found in salts such as potassium iodide.
3. Iodine pentoxide (I2O5): A powerful oxidizing agent that can react with water to form iodic acid.
References[edit]
1. Smith, J. D., & Johnson, R. T. (2005). Inorganic Chemistry: Principles of Structure and Reactivity. John Wiley & Sons. 2. Cotton, F. A., & Wilkinson, G. (1999). Advanced Inorganic Chemistry. John Wiley & Sons.
See Also[edit]
- Iodine
- Iodide
- Iodine pentoxide
- Dye-sensitized solar cells
- Redox titration
- Organic synthesis
- Cancer treatment
