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Zinc Iodide

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MOQ : 50 Kilograms, ,

Zinc Iodide Specification

Taste
Saline

Ph Level
Acidic in aqueous solution

Appearance
White to off-white solid

Shelf Life
36 months

Molecular Formula
ZnI2

Refractive Rate
1.68

Molecular Weight
319.22 g/mol

Properties
White, deliquescent, highly soluble in water

Poisonous
Yes, if ingested in large quantities

Melting Point
446 C

EINECS No
233-396-0

Structural Formula
I | / IZnI

Smell
Odorless

Physical Form
Powder / Crystalline solid

Application
Organic synthesis, chemical analysis, X-ray opaque materials

Shape
Crystalline

Solubility
Highly soluble in water, soluble in ethanol and acetone

Grade
AR, LR, Industrial

Storage
Store in tightly sealed containers in a cool, dry place

Product Type
Inorganic Chemical Compound

Ingredients
Zinc, Iodine

HS Code
28276000

Usage
Laboratory reagent, catalyst, absorption in radiography, electrolyte in batteries

Purity
98% min

CAS No
10139-47-6

Density
4.74 Gram per cubic centimeter(g/cm3)

Production Method
Direct reaction of zinc metal with iodine

Appearance under UV
Does not fluoresce

Synonyms
Zinc(II) iodide

UN No.
UN 3260

Packing Group
III

Stability
Stable under recommended storage conditions

Hazard Class
IRRITANT

Flash Point
Not applicable (non-flammable)

pH (1% solution)
~4.0

Boiling Point
1,150 °C (decomposes)

Compatibility
Incompatible with strong oxidizing agents

Zinc Iodide Trade Information

Minimum Order Quantity
50 Kilograms, ,

Supply Ability
1 Kilograms Per Week

Delivery Time
1 Week

About Zinc Iodide

Zinc Iodide Specifications:

Synonyms : Zinc Iodide
CAS NO.: 10139-47-6
Molecular Formula : ZnI2 (Zinc Iodide).
Molecular Weight : 319.22 g/mol
Appearance : White crystalline powder.
Solubility : Clearly soluble in water.
Iodate : To comply IP/BP/USP test.
Heavy Metals : 10 ppm max.
LOD : 1 % max.
Sulphate : 50 ppm max.
Iron Of Zinc Iodide : 5 ppm max.
Assay : 95% min.

Exceptional Solubility and Versatility

Zinc Iodide dissolves readily in water, ethanol, and acetone, making it adaptable to a variety of chemical applications. Its high solubility supports consistent performance in chemical synthesis, analysis, and as an X-ray opaque material. These qualities enable usage across diverse laboratory and industrial environments where reliable reactivity and clarity are essential.

Safe Storage and Stability

To maintain stability and efficacy, Zinc Iodide should be stored in tightly sealed containers in a cool, dry place. Its deliquescent nature can lead to moisture absorption, so protective storage extends its 36-month shelf life. Proper handling prevents degradation and ensures compliance with safety regulations due to its irritant classification.

FAQs of Zinc Iodide:

Q: How is Zinc Iodide produced industrially?

A: Zinc Iodide is manufactured through the direct chemical reaction between elemental zinc metal and iodine. This straightforward process yields the highly pure ZnI2 used in laboratory and industrial contexts.

Q: What are the main applications of Zinc Iodide?

A: Zinc Iodide is commonly employed in organic synthesis, chemical analysis, as an X-ray opaque agent, a laboratory reagent, catalyst, and as an electrolyte in certain batteries, making it a versatile chemical across multiple disciplines.

Q: When should Zinc Iodide be handled with particular care?

A: Special caution is necessary during handling, as Zinc Iodide is classified as an irritant and is poisonous if ingested in large amounts. Use appropriate personal protective equipment and follow safety protocols when working with or disposing of the compound.

Q: Where should Zinc Iodide be stored for optimal stability?

A: Store Zinc Iodide in tightly sealed containers, away from moisture and strong oxidizing agents, in a cool and dry environment to preserve its stability and prevent deliquescence or chemical degradation.

Q: What is the benefit of using Zinc Iodide as an X-ray opaque material?

A: Zinc Iodides high atomic weight makes it effective at absorbing X-rays, providing contrast in radiographic imaging. This property is beneficial for both scientific research and specialized medical diagnostics.

Q: How does Zinc Iodides solubility influence its laboratory usage?

A: Its exceptional solubility in water and common organic solvents allows for straightforward incorporation into various reactions and analyses, ensuring even dispersion and reliable results in laboratory applications.

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