Ole A. Grøn scite author profile

Plasma-source mass spectrometry, usually in the form of inductively coupled plasma mass spectrometry (ICP-MS), has matured into a widely accepted method for ultra-trace multielemental analysis. However, the method exhibits shortcomings. For example, it does not provide adequate precision for isotope ratio measurements if many isotopes are to be determined. Moreover, isobaric overlaps (spectral interferences) can be very troublesome in some situations. Similarly, matrix interferences can adversely affect many determinations. Yet, it is in the area of high-speed transient measurements that ICP-MS perhaps suffers its greatest weakness. When sampling devices such as flow injection, laser ablation, electrothermal vaporization, or chromatography are employed, the user must choose between broad elemental or isotopic coverage and signal-to-noise ratio (S/N). In turn, compromised S/N means lower precision or poorer detection limits. Here, new instrumentation aimed at overcoming these limitations will be described. One system, based on a time-of-flight mass spectrometer, provides excellent detection limits, resolving power better than commercial quadrupole mass filters, precision of at least 0.02% rsd in a ratioing mode, and extraordinarily high speed for use with transient sampling devices. The second instrument is based on a sector-field mass spectrometer but, unlike other such units, is equipped with a focal-plane array detector. So equipped, the system can detect a broad mass range at once.

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Characterization of an argon microwave plasma torch coupled to a Mattauch–Herzog geometry mass spectrometer

Barnes

Grøn

Hieftje

2002

J. Anal. At. Spectrom.

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Determination of Ca⁺and K⁺by pulsed glow discharge sector-field mass spectrometry

Barnes

Grøn

Hieftje

2004

J. Anal. At. Spectrom.

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All the ions all the time: Dream or reality?

Holland¹,

Tanner²,

Hieftie³

et al. 2007

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Ole A. Grøn

Analytical capabilities of an inductively coupled plasma Mattauch–Herzog mass spectrometer

Evolution and revolution in instrumentation for plasma-source mass spectrometry

Characterization of an argon microwave plasma torch coupled to a Mattauch–Herzog geometry mass spectrometer

Determination of Ca⁺and K⁺by pulsed glow discharge sector-field mass spectrometry

All the ions all the time: Dream or reality?

Contact Info

Product

Resources

About

Ole A. Grøn

Analytical capabilities of an inductively coupled plasma Mattauch–Herzog mass spectrometer

Evolution and revolution in instrumentation for plasma-source mass spectrometry

Characterization of an argon microwave plasma torch coupled to a Mattauch–Herzog geometry mass spectrometer

Determination of Ca+and K+by pulsed glow discharge sector-field mass spectrometry

All the ions all the time: Dream or reality?

Contact Info

Product

Resources

About

Determination of Ca⁺and K⁺by pulsed glow discharge sector-field mass spectrometry