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Comparing conventional and phytoscreening methods to detect subsurface chemical contaminants: A test case of volatile organic compounds in an urban setting. [PDF]
O'Leary BF +3 more
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Accelerating bioelectrodechlorination via data-driven inverse design. [PDF]
Li Z, Huang T, Chen F, Jiang J, Wang A.
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A Tetrachloroethylene Fatality
Journal of Forensic Sciences, 1981Abstract This case report concerns a fatal exposure to tetrachloroethylene at a dry cleaning establishment. A sensitive analytical method was developed and the distribution of the chemical in various fluids and tissues was determined. Although several fatalities from tetrachloroethylene have been reported, little previous quantitative ...
B, Levine +3 more
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The photodissociation dynamics of tetrachloroethylene
The Journal of Chemical Physics, 2011We present a direct current slice imaging study of tetrachloroethylene (C2Cl4) photodissociation, probing the resulting ground state Cl (2P3/2) and spin-orbit excited state Cl* (2P1/2) products. We report photofragment images, total translational energy distributions and the product branching ratio of Cl*/Cl following dissociation at 235 and 202 nm ...
Nuradhika, Herath +2 more
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Cardiopulmonary toxicity of tetrachloroethylene
Journal of Toxicology and Environmental Health, 1982Tetrachloroethylene (1,1,2,2-tetrachloroethene) is a widely used organic solvent capable of producing adverse renal, hepatic, and central nervous system effects. The cardiac effects of tetrachloroethylene, thus far unexplored, were studied in several species.
S, Kobayashi, D E, Hutcheon, J, Regan
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Population toxicokinetics of tetrachloroethylene
Archives of Toxicology, 1996In assessing the distribution and metabolism of toxic compounds in the body, measurements are not always feasible for ethical or technical reasons. Computer modeling offers a reasonable alternative, but the variability and complexity of biological systems pose unique challenges in model building and adjustment.
F Y, Bois +5 more
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Pharmacokinetics of tetrachloroethylene.
Toxicology and applied pharmacology, 1988A physiological pharmacokinetic model is developed to describe the pharmacokinetics of tetrachloroethylene (PCE) in mice, rats, and humans. The body is divided into four tissue compartments (vessel-rich, muscle, slowly perfused fat, and liver) connected by the arterial and venous blood flow pathways.
R C, Ward +4 more
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Acute Tetrachloroethylene Fatality
Clinical Toxicology, 1979Tetrachloroethylene was indicated in the accidental death of a man clearing a line in a dry-cleaning establishment. Blood and tissue concentrations were measured by gas chromatography-mass fragmentography. Distribution of tetrachloroethylene was consistent with its lipophilic properties, being highest in the brain and lowest in the lung tissue.
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