A. Haunschild scite author profile

Hydrophobic coatings for mass‐sensitive sensor devices, which yield a negligible water cross sensitivity, are the aim of the reported research. Molecular modeling was used to gain an understanding of the binding mechanism of some solvent molecules with a tetraazaparacyclophane containing alkyl substituents at the amino bridgeheads (CPO44VAL)— the figure shows the calculated geometry of the benzene complex of CPO44VAL. The theoretical results were then compared with the actual performance of CPO44VAL in devices.

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Mass-Sensitive Detection of Solvent Vapors. Mechanistic Studies on Host−Guest Sensor Principles by FT-IR Spectroscopy and BET Adsorption Analysis

Dickert

Haunschild

Kuschow

et al. 1996

Anal. Chem.

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Chemical sensors based on highly mass sensitive QCM or SAW devices, coated with sensitive layers, are especially suited for the trace analysis of organic solvent vapors, such as halogenated or aromatic hydrocarbons. The paracyclophanes B44TOS and CP44 were used as sensitive coatings, employing the principles of host-guest chemistry. The application of the BET model to the incorporation of chloroform in the sensitive coatings proves intracavitative complexation according to a 1:1 stoichiometry. Beyond the mass-sensitive detection, the complexation was studied by FT-IR spectroscopy. The exhibited saturation behavior of the characteristic CDCl 3 bands confirms the results of the mass-sensitive measurements. The lowering of the C-D stretching frequency was compared with the shifts caused by several model compounds, such as N-butylaniline. All results described indicate the formation of host-guest complexes between chloroform and paracyclophanes.

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Sensor materials for solvent vapor detection—donor–acceptor and host–guest interactions

Dickert¹,

Haunschild²

1993

Advanced Materials

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Cholesteric liquid crystals for solvent vapour detection ? Elimination of cross sensitivity by band shape analysis and pattern recognition

Dickert

Haunschild

Hofmann

1994

Fresenius J Anal Chem

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Supramolecular detection of solvent vapours with QMB and SAW devices

Dickert

Bruckdorfer

Feigl

et al. 1993

Sensors and Actuators B: Chemical

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A. Haunschild

Sensors for organic solvent detection in the ppm range based on dioxo[6.1.6.1]paracyclophanes—from molecular modeling to analyte recognition

Mass-Sensitive Detection of Solvent Vapors. Mechanistic Studies on Host−Guest Sensor Principles by FT-IR Spectroscopy and BET Adsorption Analysis

Sensor materials for solvent vapor detection—donor–acceptor and host–guest interactions

Cholesteric liquid crystals for solvent vapour detection ? Elimination of cross sensitivity by band shape analysis and pattern recognition

Supramolecular detection of solvent vapours with QMB and SAW devices

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