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An optimized HNO<sub>3</sub> and HBF<sub>4</sub> digestion method for multielemental soil and sediment analysis using inductively coupled plasma quadrupole mass spectrometry

Muhammad Babar Javed, Iain Grant‐Weaver, William Shotyk

2020Canadian Journal of Soil Science18 citationsDOIOpen Access PDF

Abstract

A robust and reliable analytical procedure for the determination of trace (mg∙kg −1 ) and ultra-trace elements (μg∙kg −1 ) in soil and sediments by inductively coupled plasma quadrupole mass spectrometry (ICP-QMS) was optimized. Aliquots of ∼200 mg of two certified reference materials (IAEA Soil-7, soil and IAEA SL-1, lake sediments) were digested in nitric acid (HNO 3 ) purified twice by sub-boiling distillation using a microwave-heated high-pressure autoclave. Incremental addition of tetrafluoroboric acid (HBF 4 , 0.1–2 mL) to HNO 3 was evaluated for yield. The selection of appropriate proportions of digestion acids was crucial to obtain accurate results. Digested samples were analyzed for a range of trace elements including those that are potentially toxic (Ag, Cd, Pb, Sb, and Tl), plant micronutrients (Cu, Fe, Mn, and Zn), those enriched in bitumen (Mo, Ni, and V), and lithophile elements (Al, Ba, Co, Cr, Rb, Sr, Th, Ti, Y, and Zr). Nitric acid alone proved to be sufficient to completely liberate Cd, Co, Cr, Fe, Mn, Ni, Pb, V, and Zn in both soil and sediments (87%–120% recovery). For almost all the other elements, addition of HBF 4 was needed for improved recovery. A combination of 3 mL of HNO 3 and 1.5 mL of HBF 4 was optimal to fully liberate an extended list of elements including Ba, Sb, and Sr from both the reference materials. Conservative lithophile elements (Th, Ti, Y, and Zr) could not be completely recovered with the proposed method, requiring hydrofluoric acid for complete dissolution of recalcitrant minerals.

Topics & Concepts

Nitric acidChemistryInductively coupled plasma mass spectrometryHydrofluoric acidInductively coupled plasmaMass spectrometryCertified reference materialsAnalytical Chemistry (journal)Environmental chemistryDetection limitChromatographyInorganic chemistryPlasmaQuantum mechanicsPhysicsHeavy metals in environmentAnalytical chemistry methods developmentRadioactive element chemistry and processing
An optimized HNO<sub>3</sub> and HBF<sub>4</sub> digestion method for multielemental soil and sediment analysis using inductively coupled plasma quadrupole mass spectrometry | Litcius