Direct online HPLC-CV-AFS method for traces of methylmercury without derivatisation: a matrix-independent method for urine, sediment and biological tissue samples

Abstract: Mercury (Hg) is a global pollutant which occurs in different species, with methylmercury (MeHg) being the critical compound due to its neurotoxicity and bioaccumulation through the food chain. Methods for trace speciation of MeHg are therefore needed for a vast range of sample matrices, such as biological tissues, fluids, soils or sediments. We have previously developed an ultra-trace speciation method for methylmercury in water, based on a preconcentration HPLC cold vapour atomic fluorescence spectrometry (HP… Show more

“…151 In this device Hg species were reduced to Hg 0 with UV-generated electrons, in the presence of 10% formic acid at pH 3, at the conduction band of nano-ZrO 2 for detection by AFS. 154 The recovery for MeHg determination was found to be in the range of 88-104% for ve aquatic CRMs (DOLT-2, DOLT-4, DORM-3, TORT-2, IAEA-140) and spiked urine. Prior to reduction the Hg species in sample extracts were separated on a C 18 column with a mobile phase of 65% CH 3 CN-35% H 2 O containing 1.5 mmol L À1 APDC at pH 5.5 owing at 0.5 mL min À1 .…”

Atomic Spectrometry Update: review of advances in elemental speciation

“…151 In this device Hg species were reduced to Hg 0 with UV-generated electrons, in the presence of 10% formic acid at pH 3, at the conduction band of nano-ZrO 2 for detection by AFS. 154 The recovery for MeHg determination was found to be in the range of 88-104% for ve aquatic CRMs (DOLT-2, DOLT-4, DORM-3, TORT-2, IAEA-140) and spiked urine. Prior to reduction the Hg species in sample extracts were separated on a C 18 column with a mobile phase of 65% CH 3 CN-35% H 2 O containing 1.5 mmol L À1 APDC at pH 5.5 owing at 0.5 mL min À1 .…”

Atomic Spectrometry Update: review of advances in elemental speciation

“…3.3.3 Atomic uorescence spectrometry. A direct on-line HPLC-CV-AFS method 257 for the determination of MeHg in water was shown also to be applicable to urine, sediment and biological samples. The method was adapted for each sample matrix to address the different challenges posed.…”

Atomic spectrometry update – a review of advances in environmental analysis

“…Setback of HPLC is generally higher LODs, unless micro-or nano-HPLC is used. Use of sample preconcentration can improve this drawback; Brombach et al achieved LODs of 1.5 ng l −1 for Hg speciation in urine samples using CV-AFS [83]. However, often used buffer solutions with high salt content or molarity limit the compatibility with ICP-MS. Table 9.2 provides an overview of Hg speciation techniques.…”

Mercury Toxicity and Speciation Analysis