CERIC HYDROXIDE

PRODUCT IDENTIFICATION

CAS NO. 12014-56-1

CERIC HYDROXIDE

EINECS NO. 234-599-7
FORMULA

Ce(OH)4

MOL WT. 208.15

H.S. CODE

2846.10.0000

TOXICITY

 

SYNONYMS

Cerium(IV) hydroxide; Cerium tetrahydroxide; Certetrahydroxid;
tetrahidróxido de cerio; Tétrahydroxyde de cérium; Cerium perhydroxide; Cerium hydrate;
SMILES [Ce](O)(O)(O)O

CLASSIFICATION

Cerium compound, Catalyst

EXTRA NOTES

 

PHYSICAL AND CHEMICAL PROPERTIES

PHYSICAL STATE

white crystalline powder
MELTING POINT  
BOILING POINT  
SPECIFIC GRAVITY  
SOLUBILITY IN WATER Insoluble
pH

 

VAPOR DENSITY  

AUTOIGNITION

 

NFPA RATINGS

Health: 2; Flammability: 0; Reactivity: 0

REFRACTIVE INDEX

 
FLASH POINT

 

STABILITY Stable under ordinary conditions.

GENERAL DESCRIPTION & APPLICATIONS

http://www.osti.gov/
It has been known that Ce(III) forms a basic salt, because the precipitation of cerium is complete before the theoretical amount of caustic is added to the rare earth sait solution, but the composition of the basic salt of cerium has not been accurately investigated. Changes in pH, electric conductivity, and apparent volume of the precipitate as well as changes in the composition of the liquid and solid phases were investigated on the addition of NaOH to a dilute (0.025 gram-ion/liter) chloride or sulfate solution of cerium(III). All experiments were carried out in freshly distilled water under an atmosphere of nitrogen to exclude carbon dioxide. Oxygen was removed from the nitrcgen by bubbling through a pyrogallate solution to prevent the oxidation of cercus ion to ceric. It was found that in the system Ce/sub 2/(SO/sub 4/)/sub 3/- NaOH-H/sub 2/O an unstable basic salt Ce/sub 3/(OH)/sub 5/(SO/sub 4/)/sub 2/ is formed which is transformed to th e more stable sait Ce/sub 2/(OH)/sub 4/SO/sub 4/ on further addition of caustic (at n = 2 where n = the ratio of (NaOHI: (Ce/sup 3+/) in the starting mixture). At n = 2.5 the basic sulfate salt decomposes rapidly to cerous hydroxide which tenaciously retains a residual amourt of sulfate that can not be removed even with a two-fold excess of caustic (n = 6.0). Cerium(III) chloride first forms the unstable basic sait Ce/sub 2/(OH)/sub 5/Cl which is converted to the hydroxide on further addition of caustic. Cerium(IIl) hydroxide does not adsorb excess caustic from solution.

Local: Cerium is a metallic chemical element in group IIIb of periodic table; symbol Ce, soft, lustrous, ductile, iron-color metal with hexagonal or cubic crystalline structure; atomic number 58; atomic mass 140.12; melting point ca 799 C; boiling point ca 3,426 C; specific gravity 6.77 g/cm3 at 25 C; oxidation state +3 or +4; electronic config. [Xe]4f15d16s1. It is the most abundant rare-earth element and the most reactive next to europium among the lanthanide group. Lanthanide (or lanthanoid) series are the group of rare-earth elements from lanthanum (atomic numbers 57) to 71; their chemical properties are similar to each other. The chemical properties of scandium and yttrium are also similar to the lanthanides; these group are often referred to "rare earth elements".

Atomic No.

Element

Symbol

CAS RN

21 Scandium

Sc

7440-20-2
39 Yttrium

Y

7440-65-5
57 Lanthanum La7439-91-0
58 Cerium Ce7440-45-1
59 Praseodymium Pr7440-10-0
60 Neodymium Nd7440-00-8
61 Promethium Pm7440-12-2
62 Samarium Sm7440-19-9
63 Europium Eu7440-53-1
64 Gadolinium Gd7440-54-2
65 Terbium Tb7440-27-9
66 Dysprosium Dy7429-91-6
67 Holmium Ho7440-60-0
68 Erbium Er7440-52-0
69 Thulium Tm7440-30-4
70 Ytterbium Yb7440-64-4
71 7440-64-4 Lu7440-64-4

Cerium occurs chiefly in the minerals monazite and bastnaesite. The naturally occurring element is made up of the isotopes 136Ce 0.193%, 138Ce 0.250%, 140Ce 88.58%, and 142Ce 11.07% which is a radioactive alpha emitter having a half-life of 5×1015 years. Cerium is slightly harder than lead. It tarnishes rapidly in moist air but not in dry air. It oxidizes slowly in cold water and rapidly in hot water. It reacts rapidly with the solutions of alkalis and concentrated (or dilute) acids. Its oxidation valence is readily transferred form 3 to 4 if compressed or cooled. Its shell orbitals are relatively close between 4f and the outer. with Cerium of valence +3 is referred to as cerous, while with valence 4 is as ceric. Generally cerous salts are yellow to reddish while ceric slats are white. Minute particles of pure cerium or some iron-cerium alloy ignite if scratched and are used as the flint in cigarette and gas lighters. Cerium is used in making lamp mantles as incandescence is formed when burned. Cerium is allied to form malleable iron,  harder stainless steel, heat resistant magnesium and aluminium alloys and permanent magnets. It is also used as an opacifier and polisher in the glass industry, in cored carbon arcs to increase the brilliance especially for the motion picture industry, and as a liquid-liquid extraction agent to remove fission products from spent uranium fuel. Cerium compounds include;

  • Ceric Oxide CeO2 (CAS RN:1306-38-3): A pale-yellow to white powder; soluble in sulfuric acid, insoluble in dilute acid and water; used in ceramics and as a polish for optical glass. Catalyst for hydrocarbon cracking, styrene production and water-gas shift reaction. Thermal stabilizer for alumina and in chemical regenerating process.
  • Ceric Sulfate Ce(SO4)2·xH2O (CAS RN:13590-82-4): Yellow needles forming a basic salt with excess water; used in waterproofing, mildew-proofing, and in dyeing and printing textiles.
  • Ceric Ammonium Nitrate (NH4)2Ce(NO3)6 (CAS RN: 16774-21-3): Oxidizer
  • Ceric Ammonium Sulfate Ce(NH4)4(SO4)4 (CAS RN: 10378-47-9, Dihydrate): Oxidizer
  • Ceric Hydroxide Ce(OH)4 (CAS RN: 12014-56-1)
  • Cerous Acetate Ce(OOCCH3)3·1.5H2(CAS RN: 537-00-8, Sesquihydrate)
  • Cerous Bromide: CeBr3 (CAS RN: 14457-87-5, )
  • Cerous Carbonate Ce2(CO3)3 (CAS RN: 537-01-9, 5838-16-7)
  • Cerous Chloride CeCl3 (CAS RN: 7790-86-5, 19423-76-8, 18618-55-8)
  • Cerous Fluoride CeF3: White hexagonal crystals, melting point 1460 C; used in arc carbons to increase the brilliance of carbon-arc lamps.
  • Cerous Naphthenate: Used as drier/additive for paints, coatings and inks; catalyst for chemical reactions
  • Cerous Nitrate Ce(NO3)3 (CAS RN:10294-41-4, Hydrate)
  • Cerous Oxalate: Ce(C2O4)3·xH2O (CAS RN:139-42-4, 15750-47-7): Used in ceramics, glass, phosphors and pyrotechnics
  • Cerous Perchlorate CeO9Cl3 (CAS RN: 14017-47-1)
  • Cerous Phosphate CeH2O5P (CAS RN:13454-71-2)
  • Cerous Silicide CeSi2 (CAS RN:12014-85-6)
  • Cerium Stearate Ce(C18H35O2)2 :White, waxy, inert powder, melting point 100-110 C; used in waterproofing compounds and drier for paint and ink.
  • Cerous  Sulfide Ce2S3 (CAS RN:12014-93-6)
SALES SPECIFICATION

APPEARANCE

white crystalline powder

REO/TREO

99.0 - 99.99%

TREF 45.0% min
TRANSPORTATION
PACKING 25kgs in fiber drum
HAZARD CLASS 8 (Packing Group: II)
UN NO. 3262

SAFETY INFORMATION

Hazard Symbols: XI, Risk Phrases: 36, Safety Phrases: 26
PRICE INFORMATION