ETHYL FERROCENE

PRODUCT IDENTIFICATION

CAS NO. 1273-89-8

ETHYL FERROCENE

EINECS NO. 215-056-3
FORMULA C12H14Fe
MOL WT. 214.08
H.S. CODE  

TOXICITY

 
SYNONYMS Ethylferrocene; Ethylcyclopentadienyl Iron;

SMILES

 

CLASSIFICATION

METALLOCENE

PHYSICAL AND CHEMICAL PROPERTIES

PHYSICAL STATE dark amber liquid
MELTING POINT

 

BOILING POINT

264 C

SPECIFIC GRAVITY

1.261 - 1.265

SOLUBILITY IN WATER  

SOLVENT SOLUBILITY

 
pH  
VAPOR DENSITY  
AUTOIGNITION

 

NFPA RATINGS Health: 1; Flammability: 1; Reactivity: 0

REFRACTIVE INDEX

 
FLASH POINT > 110 C
STABILITY Stable under ordinary conditions

DESCRIPTION AND APPLICATIONS

Ferrocene, yellow to orange crystal melting at 173 C, is an organometallic compound of sandwich structure. It has two five membered carbon rings which are parallel, with the iron ion sandwiched between them. Its systematic name is Di-[¥ð]-Cyclopentadienyl Iron(II) or Bis(¥ç5-Cyclopentadienyl) Iron. The bonding is between pi orbitals on the rings and d-orbitals on the Fe2+ ion. It is used as a combustion control additive in fuels, antiknock agent in gasoline, and for heat stabilization in greases and plastics. It is used as a catalyst for the synthesis of ammonia. Ferrocene derivatives, can be described as a multi-electron transfer, are useful for following fields:
  • Stating material for more coordination of organometallic-complexes
  • Gasoline additive to prevent "knocking" in motors
  • Redox mediators in biosensor
  • Catalysts for the oxidative organic synthesis
  • Molecular chemistry
  • Disease diagnosis and treatment
  • Water treatment
  • Photolysis chemistry
SALES SPECIFICATION

APPEARANCE

dark amber liquid

CONTENT

98.0% min

FREE-Fe

100ppm max

TRANSPORTATION
PACKING 250kgs in drum
HAZARD CLASS  
UN NO.  
OTHER INFORMATION
Hazard Symbols: n/a, Risk Phrases: n/a, Safety Phrases: 24/25

GENERAL DESCRIPTION OF METALLOCENE

Metallocene is a compound consisting of parallel ring system ligand bound to a metal. Ligand, in organometallic chemistry, is a molecule that donates or accepts a pair of electrons to form a coordinate covalent bond with the central metal atom of a coordination complexes and organometallic compounds; can be further distinguished by the orbitals used in bond formation. There can be numerous organometallic coordination compounds distinguished by number of cyclopentadienyl rings (with or without substituents) bonded to a central transition-metal atoms and the types of transition-metals and the type of the bridge. Metals known to form metallocene complexes are titanium, zirconium, hafnium, vanadium, chromium, molybdenum, tungsten, manganese, iron, ruthenium, osmium, cobalt, rhodium, and nickel. Metallocenes possess the transition-metal atoms whose bonding involves overlap of ns, (n - 1)d, and np orbitals of the metal with molecular orbitals of appropriate symmetry of each aromatic (bis-cyclopentadienyl) rings. The commonest metallocene is ferrocene, yellow to orange crystal melting at 173 C, is an organometallic compound of sandwich structure. It has two five membered carbon rings which are parallel, with the iron ion sandwiched between them. The equivalent bonding of all 5 carbon atoms of each cyclopentadienyl ring in ferrocene is denoted as eta-5.  Its systematic name is Di-[¥ð]-Cyclopentadienyl Iron(II) or Bis(¥ç5-Cyclopentadienyl) Iron. The bonding is between pi orbitals on the rings and d-orbitals on the Fe2+ ion. It is used as a combustion control additive in fuels, antiknock agent in gasoline, and for heat stabilization in greases and plastics. It is used as a catalyst for the synthesis of ammonia. Metallocenes having catalytic site in systematic molecular structure are used as polymerization catalyst to produce uniform polymer with unique structures and physical properties. Intensive study of metal-carbon bonds have been developed in the field of electrochemical techniques, high-temperature chemistry, photolysis chemistry, structural chemistry, organic light-emitting devices, biochemistry and pharmaceutical manufacturing.