A. Verweij scite author profile

The chemical analysis of the waste water from plants that manufacture chemicals is a nonintrusive method for confirming a suspected violation of the prohibition against the production of chemical warfare agents. The chemical structure of most nerve gases is related to that of methylphosphonic acid, whereas most organo-phosphorus pesticides have the phosphoric acid structure. On the basis of this characteristic difference, a procedure has been developed in which the presence of a nerve gas, its decomposition products, or its starting materials in waste water (Rhine River and Meuse River water) is reflected by the appearance of methylphosphonic acid as a breakdown product after hydrolysis. This acid is concentrated and converted into a volatile compound by methylation. After cleanup, the ester may be separated from related compounds by gas chromatography and is detected by means of a specific detector for phosphorus. The detection limit of nerve gases by this procedure is approximately 1 nanomole per liter of water. The scope and limitations of the method are discussed.

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Construction of a UV cell for micro‐liquid chromatography

Kientz¹,

Verweij²

1988

J. High Resol. Chromatogr.

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Trimethylsilylation and Trifluoroacetylation of a number of trichothecenes followed by gas chromatographic analysis on fused-silica capillary columns

Kientz¹,

Verweij²

1986

Journal of Chromatography A

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On-line flame photometric detection in micro-column liquid chromatography

Kientz¹,

Verweij²,

Boter³

et al. 1989

Journal of Chromatography A

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A. Verweij

Degradation of S‐2‐Di‐isopropylaminoethyl O‐ethyl methylphosphonothioate in soil: Phosphorus‐containing products

Chemical Warfare Agents: Verification of Compounds Containing the Phosphorus-Methyl Linkage in Waste Water

Construction of a UV cell for micro‐liquid chromatography

Trimethylsilylation and Trifluoroacetylation of a number of trichothecenes followed by gas chromatographic analysis on fused-silica capillary columns

On-line flame photometric detection in micro-column liquid chromatography

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