Chemical Properties
Tricresyl phosphate is an isomeric mixture of phosphoric acid esters of cresols. It is an odourless and colourless oily liquid (molar mass 368.4 g/mol, melting point –33°C).
Tricresyl phosphates were used as flame retardants and plasticisers in PVC, nitrocellulose and acrylates.
Uses
Tricresyl phosphate (TCP) is used as a solvent for nitrocellulose esters and numerous natural resins. It is a plasticizer for chlorinated rubber, vinyl plastics, polystyrene and polyacrylic and polymethacrylic esters. Tricresyl phosphate also acts as a binder for resins and nitrocellulose to improve toughness, elasticity and polishing properties of coatings. Alone or associated with hydrocarbons, it is used as an antiwear and antifriction additive in numerous synthetic lubricants, incorrectly termed “oils” by reason of their appearance. It is also employed as a hydraulic fluid. When incorporated in gasoline, tricresyl phosphate counteracts the harmful effects of lead deposits. In addition, it is an excellent fire retardant in many industries.
Usually used as a mediator in the preparation of uranium-sensitive electrode based on membrane containing uranium di-(4-octylphenyl)phosphate as sensor.
Uses
Tricresyl Phosphate is used as plasticizer in vinyl plastics manufacture, as flame-retardant, solvent for nitrocellulose, in cellulosic molding compositions, as additive to extreme pressure lubricants, as a nonflammable fluid in hydraulic systems, as lead scavenger in gasoline: Yust, Bame, US 2889212 (1959 to Shell); to sterilize certain surgical instruments.
Uses
Tricresyl phosphate is used as plasticizer in vinyl plastics manufacturing; in spectacle frames; flame-retardant; solvent for nitrocellulose; in cellulose-molding
compositions; additive to extreme-pressure lubricants; nonflammable fluid in hydraulic systems; lead scavenger in gasoline; used to
sterilize certain surgical instruments; in polystyrene; in waterproofing; in common organic solvents and thinners; in linseed oil;
emulsifying agent in cosmetics; in china wood oil; in castor oil.
Preparation
Tricresyl phosphate is prepared by reaction of cresols with phosphorus oxychloride, phosphoric acid, or phosphorus pentachloride:
OPCl3 + 3 HOC6H4CH3 → OP(OC6H4CH3)3 + 3 HCl
The grades of cresol commonly is a mixture of three isomers (o-, m-, p-). The fact that tricresyl phosphate is derived from a mixture and itself is a mixture ensures that it remains liquid over a wide span of temperatures.
A "refined grade" of tricresyl phosphate is prepared by vacuum distillation, or alternatively by washing with 2% sodium hydroxide and water.
Health Hazard
The tricresyl phosphates (TCPs) are part of a series of organophosphorus compounds which have been shown to cause delayed neurotoxicity. The 1930 outbreak of “ginger jake” paralysis was caused by the contamination of ginger extract by cresyl phosphates, used in the processing of the spice. Since that time, there have been several incidents reported of accidental poisoning of food by tri-o-cresyl phosphate (TOCP). There are few case series reports of occupational exposure in the literature. Acute occupational exposures have been described as causing gastrointestinal symptoms followed by a latent period of days to 4 weeks, after which extremity pain and tingling progress to motor paralysis of the lower extremities up to the thighs, and of the upper extremities to the elbow. There is rarely sensory loss. Partial to total recovery may take years. Fatalities have occurred in high-dose ingestion.
Potential Exposure
According to the World Health Organization there is no safe level of exposure to Tricresyl Phosphate(TCP).
TCP has been used as a flame retardant in fabric, plastics and rubbers and as a plasticizer in PVC, lacquers, varnishes and nitrocellulose. It is also used as a heat exchange medium and hydraulic fluid. TCP was detected in all house dust samples gathered in two different North American studies.Biomonitoring studies detected TCP in the breast milk of women in Asia and Sweden. EPA has characterized TCP to exhibit moderate persistence in the environment based on biodegradation studies.
Purification Methods
Dry the ester with CaCl2, percolate it through a column of alumina, then distil it under a vacuum. Alernatively pass it through a packed column of alumina at 150o, with a counter-current stream of nitrogen, under reduced pressure, to remove residual traces of volatile impurities. It also crystallises from pet ether (b 60-80o). [Cherbuliez in Organic Phosphorus Compounds (Kosolapoff & Maier eds) Wiley-Interscience Vol 6 pp 454-457 1973.]
Toxicity evaluation
Tricresyl Phosphate is classified by the EPA as a high hazard for reproductive toxicity based on studies of rodents fed TCP. Adverse health effects included reduced fertility, sperm motility, number of live pups per litter, testicular and epidydimal weights, and increased incidence of interstitial cell hypertrophy and ovarian interstitial cell vacuolization.
Ovarian and adrenal gland lesions were observed in rats and liver and adrenal gland lesions in mice fed an isomer mixture of TCP for 2 years in an NTP study. Rodents fed TCP for 13 weeks developed neuropathy.
TCP has been shown to influence neurological damage in humans.
There are three tricresyl phosphate isomers, of which, the ortho isomer demonstrates the highest toxicity.
