13765-03-2

Basic information

• Product Name: LITHIUM IODATE
• Synonyms: iodicacid(hio3),lithiumsalt;Iodicacid(HIO3)lithiumsalt;Iodicacid,lithiumsalt;Lithiumiodate(LiIO3);LITHIUM IODATE;LITHIUM IODATE REAGENT;LI(lithium iodate)
• CAS NO: 13765-03-2
• Molecular Formula: ILiO3
• Molecular Weight: 181.84
• EINECS: 237-365-2
• Product Categories: Inorganic Salts;Lithium Salts;LithiumMetal and Ceramic Science;Salts;Synthetic Reagents;Chemical Synthesis;Inorganic Salts;Lithium;Lithium Salts;Materials Science;Metal and Ceramic Science;Synthetic Reagents
• Mol File: 13765-03-2.mol
• Article Data: 6

Chemical Properties

• Melting Point: 50–60℃ [HAW93]
• Appearance: /
• Density: 4.487
• Water Solubility: soluble H2O; insoluble alcohol [HAW93]
• CAS DataBase Reference: LITHIUM IODATE(CAS DataBase Reference)
• NIST Chemistry Reference: LITHIUM IODATE(13765-03-2)
• EPA Substance Registry System: LITHIUM IODATE(13765-03-2)

Safety Data

• Hazard Codes: O,T
• Statements: 61-8-36/37/38
• Safety Statements: 53-17-22-36/37/39-45
• RIDADR: UN 1479 5.1/PG 2
• WGK Germany: 3
• HazardClass: 5.1
• PackingGroup: II
• Hazardous Substances Data: 13765-03-2(Hazardous Substances Data)

Usage

Description

LITHIUM IODATE is a chemical compound with the chemical formula LiIO3, characterized by its high purity of 99.9% and available in two forms, α and β. It appears as a white powder and possesses oxidizing properties, making it a versatile compound with various applications across different industries.

Uses

Used in Pharmaceutical Industry:
LITHIUM IODATE is used as a pharmaceutical ingredient for its oxidizing properties, which can be beneficial in the development of drugs that require oxidation reactions for their therapeutic effects.
Used in Chemical Synthesis:
LITHIUM IODATE serves as a reagent in chemical synthesis processes, particularly in the production of other iodate compounds and as an oxidizing agent in various chemical reactions.
Used in Analytical Chemistry:
In the field of analytical chemistry, LITHIUM IODATE is used as a standard reference material for the calibration of instruments and methods that measure iodate concentrations, ensuring accurate and reliable results.
Used in Research and Development:
LITHIUM IODATE is utilized in research and development for studying the properties of iodate compounds and their potential applications in various fields, including materials science, environmental science, and biotechnology.
Used in Environmental Applications:
LITHIUM IODATE can be employed in environmental applications, such as water treatment processes, where its oxidizing properties can help in the removal of contaminants or the disinfection of water supplies.
Used in Material Science:
In material science, LITHIUM IODATE may be used in the development of new materials with specific properties, such as improved stability or reactivity, due to its oxidizing nature and high purity.

Purification Methods

Crystallise it from water and dry it in a vacuum oven at 60o.

InChI:InChI=1/HIO3.Li/c2-1(3)4;/h(H,2,3,4);/q;+1/p-1

Upstream product

• 7782-68-5 iodic acid 
• 554-13-2 lithium carbonate 
• 21111-84-2 lithium metaperiodate 
• 80937-33-3 oxygen 
• 10377-51-2 lithium iodide 

Downstream Products

• 1316858-53-3 Bismuth oxide iodate 
• 10043-35-3 sassolite 
• 7553-56-2 iodine 
• 14362-44-8 iodide 
• 10377-51-2 lithium iodide 

Related news

LITHIUM IODATE (cas 13765-03-2) planar waveguides by proton implantation09/29/2019

Permanent optical waveguides have been produced by proton implantation in LilO 3 single crystals by using a Van De Graaff accelerator. The effects of the crystal cut and of the implantation parameters on the optical waveguides properties, investigated by dark line mode spectroscopy, are ...detailed

1 2 7 I NQR and spectroscopic investigation of impurity-doped and mixed LITHIUM IODATE (cas 13765-03-2) Li 1 - x H x IO 3 crystals10/01/2019

The 1 2 7 I NQR, IR absorption and Raman spectra of impurity-doped and mixed lithium iodate Li 1 - x H x IO 3 crystals grown from water solutions with different LiIO 3 /HIO 3 ratios were investigated depending on the content of the ...detailed

Structural, electrical, dielectric and optical investigations of LITHIUM IODATE (cas 13765-03-2) single crystals09/27/2019

The crystal structure of α- and β-LiIO 3 at room temperature was examined using X-rays diffraction. Differential thermal analysis (DTA) with different heating rates (5-50K/min) in the range 300-600K was performed. The activation energy of phase transition was calculated by two methods ...detailed

Growth of profiled single crystals of LITHIUM IODATE (cas 13765-03-2) using a shaper from polymer nanoparticles09/26/2019

A possibility of growth of profiled single crystals of α-LiIO3 with a hollow channel using a shaper from polymer nanoparticles is showed. A method of creating the nanoparticles of polystyrene is described.detailed

Relevant articles and documents

Dielectric characterization and ionic conductivity of α-LiIO3 crystals related to the growth conditions

The dielectric response of α-LiIO3 has been studied at room temperature between 20 Hz and 1 MHz with various types of electrodes and compared to the results in the literature. By changing the sample thickness, a relaxation of space charges is clearly identified and the bulk ionic conductivity is deduced from the admittance diagram. Finally a comparison is carried out between chromium doped and undoped crystals obtained from acid and neutral growth solutions.

Electrical conductivity of α-LiIO3 acid type crystals at 1 kHz

The temperature dependence of the electrical conductivity of α-LiIO3 acid type crystals is studied. By applying a very low amplitude electric field at 1 kHz and performing a continuous sampling of measurements, differences, reproducible for all the investigated samples, appeared between the first and subsequent heatings The anomalies occurring during the first heating are attributed mainly to inclusions of mother liquor, HIO3 and Li1-xHxIO3. The 'intrinsic' conductivity is measured after a first annealing at about 470 K; the activation energies are then calculated.

Low-temperature Specific Heat of the Hexagonal (α) and the Tetragonal (β) Modification of Lithium Iodate

The specific heat of α- and β-LiIO3 has been studied by adiabatic calorimetry at 10-335 K.No anomalies have been found in the Cp-T curves.The thermodynamic functions of α- and β-LiIO3 under standard conditions have been calculated.