The EVISA Link database contains information about all aspects of antimony speciation:
- antimony species determination (analytical methods etc)
- toxicity and biological activity of different antimony species
- distribution and fate of antimony species in the environment
- mobility, bioavailability and bioaccumulation of antimony species
- Research groups and their projects related to the chemical speciation of Sb
- Standards, rules and legislation related to antimony
If you are looking for something special, please go to the Link Database that will allow for more specific search.
Information
Antimony Statistics and Information Publications Contact Subscribe The natural sulfide of antimony was known and used in Biblical times as medicine and as a...
Antimony Statistics and Information Publications Contact Subscribe The natural sulfide of antimony was known and used in Biblical times as medicine and as a...
The following uses for antimony are gathered from a number of sources as well as from anecdotal comments. ...
The monograph is designed to give methods that provide a framework for analysing the boundaries between deficient and excess oral intakes of ETEs. Application of the principles described in this monog...
The toxicity of antimony is a function of the water solubility and the oxidation state of the antimony species under consideration (Elinder & Friberg, 1986; Fowler & Goering, 1991). In gener...
The toxicity of antimony is a function of the water solubility and the oxidation state of the antimony species under consideration (Elinder & Friberg, 1986; Fowler & Goering, 1991). In gener...
Oral LD50 values reported for APT in experimental animals range from about 115 mg/kg of body weight in rabbits and rats to 600 mg/kg of body weight in mice. ATO is practically non-toxic (LD50 > 20 0...
Oral LD50 values reported for APT in experimental animals range from about 115 mg/kg of body weight in rabbits and rats to 600 mg/kg of body weight in mice. ATO is practically non-toxic (LD50 > 20 0...
Daily oral uptake of antimony ranges from 10 to 70 µg and therefore appears to be significantly higher than uptake via inhalation. Total exposure from environmental sources (air, soil) and foo...
Daily oral uptake of antimony ranges from 10 to 70 µg and therefore appears to be significantly higher than uptake via inhalation. Total exposure from environmental sources (air, soil) and foo...
The solubility of ATO in synthetic gastric juice has been shown to be 20 mg/litre after 24 h (DuPont, 2001). However, studies on absorption indicate that it is relatively low. Even in soluble forms,...
The emission of antimony into the human environment appears to be exclusively the result of human activity. Most emitted antimony is in the form of ATO, which is released as a result of coal burning...
The emission of antimony into the human environment appears to be exclusively the result of human activity. Most emitted antimony is in the form of ATO, which is released as a result of coal burning...
Antimony (IPA: 'æntəməʊni) is a chemical element in the periodic table that has the symbol Sb (Latin: stibium, meaning "mark") and atomic number 51. A metalloid, antimony has ...
Antimony (IPA: 'æntəməʊni) is a chemical element in the periodic table that has the symbol Sb (Latin: stibium, meaning "mark") and atomic number 51. A metalloid, antimony has ...
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