William D. Bowers scite author profile

Surface acoustic wave (SAW) piezoelectric sensors typically used by researchers in analytical applications are based on SAW delay lines. We report here the development of a 200 MHz SAW instrument based on a SAW resonator instead of a conventional delay line. The instrument is small, compact and uses two separate 200 MHz resonator crystals which operate in the dual difference mode. The difference frequency stability is better than 55× 10−9 (±1 Hz) which is comparable to a 10 MHz bulk crystal (on an absolute frequency basis) and at least an order of magnitude better than other commercially available SAW delay lines that operate at comparable frequencies. The mass sensitivity is about 9 × 1010 Hz cm2/g. Response to temperature change is found to be about 20 Hz/°C from −30 °C to 30 °C. Response to pressure is found to be linear from 760 to 415 Torr at 3 Hz/Torr. Detection limits for HCl vapors were determined to be in the low ppb range using a SAW resonator coated with triethanolamine.

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Consecutive laser-induced photodissociation as a probe of ion structure

Bowers¹,

Delbert²,

McIver³

1986

Anal. Chem.

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William D. Bowers

Experimental determination of the effects of space charge on ion cyclotron resonance frequencies

Fragmentation of oligopeptide ions using ultraviolet laser radiation and Fourier transform mass spectrometry

Coupling a quadrupole mass spectrometer and a Fourier transform mass spectrometer

A 200 MHz surface acoustic wave resonator mass microbalance

Consecutive laser-induced photodissociation as a probe of ion structure

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