The degree of knowledge of the mechanisms operating in chemical vapor generation (CVG) by aqueous boranes (MBH4, R3N$BH3, M ¼ Na, K and R ¼ H, alkyl) for trace element determination by atomic or mass spectrometry, have been reviewed in the light of the most recent evidence. The attention has been mainly focused on the role played by sample composition - acidity, type of acid or buffer and chemical additives - in the control of the mechanism of CVG of volatile hydrides (Ge, Sn, Pb, As, Sb, Bi, Se, Te, Hg and Cd) under analytical conditions (analyte < 106 mol L1 , borane $ 102 mol L1 ) in the absence of interfering species. The available evidence is reported in order to discuss the role played in CVG by some key chemical species, among them the hydrolysis products of borane reagents. Particular emphasis was given to those mechanistic aspects of the chemistry of aqueous boranes that have been clarified thanks to the contribution of CVG coupled with atomic or mass spectrometry, to those that are still controversial and that could stimulate further studies to understand the reactivity of aqueous boranes also for their applications other than CVG.

The contribution of chemical vapor generation coupled with atomic or mass spectrometry to the comprehension of the chemistry of aqueous boranes

Alessandro D'Ulivo
2019

Abstract

The degree of knowledge of the mechanisms operating in chemical vapor generation (CVG) by aqueous boranes (MBH4, R3N$BH3, M ¼ Na, K and R ¼ H, alkyl) for trace element determination by atomic or mass spectrometry, have been reviewed in the light of the most recent evidence. The attention has been mainly focused on the role played by sample composition - acidity, type of acid or buffer and chemical additives - in the control of the mechanism of CVG of volatile hydrides (Ge, Sn, Pb, As, Sb, Bi, Se, Te, Hg and Cd) under analytical conditions (analyte < 106 mol L1 , borane $ 102 mol L1 ) in the absence of interfering species. The available evidence is reported in order to discuss the role played in CVG by some key chemical species, among them the hydrolysis products of borane reagents. Particular emphasis was given to those mechanistic aspects of the chemistry of aqueous boranes that have been clarified thanks to the contribution of CVG coupled with atomic or mass spectrometry, to those that are still controversial and that could stimulate further studies to understand the reactivity of aqueous boranes also for their applications other than CVG.
2019
Istituto di Chimica dei Composti OrganoMetallici - ICCOM -
Chemical Vapor Generation
Aqueous Boranes
Trace Elements
Reactivity
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/354447
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