Watch Video MSDS Specifications

Potassium Triiodide Monohydrate | 7790-42-3

Cas No :

7790-42-3

Molecular Weight :

437.83 G/Mol

Molecular Formula :

H₂I₃KO

Boiling Point :

850 °C

Melting Point :

140 °C

Flash Point :

180 °C

Solubility :

Soluble In Water

Description :

Overview of Potassium Triiodide Monohydrate

Potassium Triiodide Monohydrate (CAS: 3811-04-9) is an inorganic iodine compound widely used in analytical chemistry, redox reactions, and laboratory reagent applications. It appears as a dark brown to black crystalline solid and is valued for its oxidizing properties and high solubility in water, making it ideal for quantitative and qualitative chemical analyses.

Potassium Triiodide Monohydrate is primarily employed in iodometric titrations, starch-based detection methods, and redox chemistry studies. Its ability to release free iodine under controlled conditions makes it suitable for analytical laboratories, chemical research, and specialty chemical synthesis. Related compounds such as Potassium Iodide, Iodine, and Potassium Mercuric Iodide are also widely used in halide chemistry, reagent development, and laboratory applications.

Applications of Potassium Triiodide Monohydrate

Analytical Chemistry

Used in iodometric and redox titrations
Employed for determination of oxidizing agents
Applied in starch-iodine complex formation for endpoint detection
Suitable for quantitative and qualitative chemical analysis in laboratories

Laboratory & Research Applications

Supports chemical research and reaction monitoring
Used in organic and inorganic chemistry experiments
Ideal for academic, industrial, and R&D laboratories
Supports development of new analytical methods and reagent formulations

Specialty Chemical Manufacturing

Applied in preparation of iodine-based reagents and analytical standards
Supports high-purity reagent production for research and industry
Used in halogenated compound synthesis and redox applications

Industrial Applications

Utilized in chemical laboratories and testing facilities
Supports formulation of analytical solutions and standard reagents
Valuable in research and development of halide chemistry and specialty chemicals

Safety & Handling Guidelines

Toxic if ingested; may cause skin, eye, and respiratory irritation
Handle in well-ventilated areas or chemical fume hoods
Use protective gloves, goggles, and lab coats
Store in airtight containers, away from moisture, reducing agents, and organic materials
Avoid exposure to heat, light, and incompatible chemicals
Follow COA and MSDS instructions strictly

Potassium TriIodide Monohydrate MSDS

Causes irritation to skin, eyes, and respiratory tract
Acts as a strong oxidizer under improper conditions
Handle with proper PPE and ventilation
Store in cool, dry, moisture-free areas away from incompatible substances
Refer to full MSDS for spill control, handling, and emergency procedures

Where to Buy Potassium Triiodide Monohydrate?

Potassium Triiodide Monohydrate Manufacturer

ChemicalBull supplies high-purity Potassium Triiodide Monohydrate suitable for analytical chemistry, redox titrations, and laboratory reagent applications.

Potassium Triiodide Monohydrate Supplier & Distributor

Available in laboratory-scale and bulk quantities
Ideal for iodometric analysis, reagent preparation, and research purposes
COA, MSDS, and technical specifications provided

Frequently Asked Questions (FAQs)

What is the molecular formula of Potassium Triiodide Monohydrate?
Molecular Formula: KI₃·H₂O
Molecular Weight: 393.91 g/mol
What is Potassium Triiodide Monohydrate used for?
Used primarily in iodometric titrations, redox reactions, analytical chemistry, and laboratory reagent preparation.
Is Potassium Triiodide Monohydrate hazardous?
Yes. It is toxic, corrosive, and a strong oxidizer. Proper PPE and safe handling are mandatory.
Which industries commonly use Potassium Triiodide Monohydrate?
Primarily used in research laboratories, chemical testing facilities, pharmaceutical analysis, and specialty chemical manufacturing.
Why is it important in analytical chemistry?
It releases free iodine under controlled conditions, making it highly valuable for titrations and quantitative chemical analyses.