Beate Häger scite author profile

Beate Häger

2Publications

3Citation Statements Received

33Citation Statements Given

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Affiliations

Technical University of Munich, Norsk Hydro (Germany)

Publications

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Determination of N-nitrosomethylaniline and methylaniline in the gas phase

Häger

1996

Mikrochim Acta

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Abstract. A method is described for selective sampling and determination of gaseous N-nitrosomethylaniline (NMA) and methylaniline (MA) in air without artifacts. Therefore a denuder system is developed to distinguish between the amine and the nitroso compound during sampling. A spatial separation of the gas phase of these compounds is realized. The detection is performed after gas chromatographic separation with a thermal energy analyzer (TEA) for the nitrosamine and with flame ionization detector (FID) for the amine and nitrosamine. Besides the sampling technique, the extraction of the samples and detection principles are described. To prove that the formation of artifacts does not appear, the influence of humidity and nitrogen oxides was investigated.

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On the Distribution of Nicotine Between the Gas and Particle Phase and Its Measurement

Häger

1997

Aerosol Science and Technology

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ABSTRACT. A method is described which allows the separate sampling and analysis of gaseous and particulate nicotine with a denuder4lter combination.Recovery rates of 101.6 + 3.6% are found for a denuder coated with benzenesulfonic acid. Particulate nicotine can be sampled with glassaber filters which are also impregnated with benzenesulfonic acid. The extracts of the denuders and filters are quantified by gas chromatography (GC/FID) after reextraction from 0.1 N NaOH into CH,CI,. A determination limit of 5 ng (abs.) is reached by use of n-hexadecane as an internal standard.This sampling system is interesting especially for the determination of semi-volatile compounds, such as nicotine, the distribution of which affects its efficiency in smoking. The different distribution of nicotine between the gas and particle phase in the presence of various additives was examined in model test systems. These may give evidence on the behavior of nicotine in cigarette smoke, whose effects may influence its distribution between main-and sidestream smoke.Gas-particle mixtures of nicotine are generated in different ways. The characterization of these mixtures is accomplished with physical methods for the measurement of particle concentration and size, and are verified by diffusive sampling and gas chromatographic analysis. It was found that for different test systems, nicotine-containing aerosol is only formed when the carrier particle is of an acidic nature and the nicotine is attached as a salt. In this way, the dispersion of aqueous potassium hydrogensulfate, citric, tartaric, or other organic acid solutions as submicron aerosols containing nicotine leads to a nicotine-containing aerosol. Also, phenol-containing aerosols can be formed under well-defined conditions. These aerosols as well as the distribution of nicotine are models of semi-volatile compounds with a distinct pH dependence for applications other than cigarette smoke as well.

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Beate Häger

Determination of N-nitrosomethylaniline and methylaniline in the gas phase

On the Distribution of Nicotine Between the Gas and Particle Phase and Its Measurement

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