Investigation of airborne particles by inductively coupled plasma emission spectrometry calibrated with monodisperse aerosols

“…A 1974 US Patent [10] granted to Sartorius-Membranfilter (GmbH) described the development of an instrument where particles are introduced Bsingly in succession into the evaporating zone of an atomic absorption spectrometer…said zone being small enough to be completely filled by a single evaporated particle.T hese works are among the first to exploit analysis of the frequency of Bflashes,^observed by an element-specific measurement, to potentially determine particle number concentrations. The introduction of inductively coupled plasma-atomic emission spectroscopy [11,12] allowed for the analysis of refractory elements that were not observable by flame AA. The work of Kawaguchi et al [11] utilized generation of monodisperse aerosols containing the dissolved element of interest.…”

“…The introduction of inductively coupled plasma-atomic emission spectroscopy [11,12] allowed for the analysis of refractory elements that were not observable by flame AA. The work of Kawaguchi et al [11] utilized generation of monodisperse aerosols containing the dissolved element of interest. Further work from this group, in which aerosols containing Zn and Pb were examined, introduced the use of ICP-MS [13][14][15][16] to improve detection limits.…”

“…Considerations for the application of single particle ICP-MS for routine nanomaterial analysis Works of Kawaguchi [11], and of Degueldre [1,[22][23][24], demonstrated the feasibility of using ICP-MS for the analysis of colloids, but more work was needed to develop a technique that could provide additional meaningful information about the particles analyzed. In order to characterize and quantify unknown particles samples, several aspects of signal acquisition, data processing, and calibration must be addressed.…”

Single Particle ICP-MS: Advances toward routine analysis of nanomaterials

“…A 1974 US Patent [10] granted to Sartorius-Membranfilter (GmbH) described the development of an instrument where particles are introduced Bsingly in succession into the evaporating zone of an atomic absorption spectrometer…said zone being small enough to be completely filled by a single evaporated particle.T hese works are among the first to exploit analysis of the frequency of Bflashes,^observed by an element-specific measurement, to potentially determine particle number concentrations. The introduction of inductively coupled plasma-atomic emission spectroscopy [11,12] allowed for the analysis of refractory elements that were not observable by flame AA. The work of Kawaguchi et al [11] utilized generation of monodisperse aerosols containing the dissolved element of interest.…”

“…The introduction of inductively coupled plasma-atomic emission spectroscopy [11,12] allowed for the analysis of refractory elements that were not observable by flame AA. The work of Kawaguchi et al [11] utilized generation of monodisperse aerosols containing the dissolved element of interest. Further work from this group, in which aerosols containing Zn and Pb were examined, introduced the use of ICP-MS [13][14][15][16] to improve detection limits.…”

“…Considerations for the application of single particle ICP-MS for routine nanomaterial analysis Works of Kawaguchi [11], and of Degueldre [1,[22][23][24], demonstrated the feasibility of using ICP-MS for the analysis of colloids, but more work was needed to develop a technique that could provide additional meaningful information about the particles analyzed. In order to characterize and quantify unknown particles samples, several aspects of signal acquisition, data processing, and calibration must be addressed.…”

Single Particle ICP-MS: Advances toward routine analysis of nanomaterials

“…Inductively Coupled Plasma Atomic Emission Spectrometry (ICPAES) was used to analyze the chemical composition of aerosol particles [42]. Aerosols were directly introduced into an ICP.…”

Speciation of Radionuclides in the Environment

“…17,18 Through combination with elemental tagging techniques, the amount distributions of biomolecules in individual cells can also be evaluated similar to a flow cytometer. [19][20][21][22][23] Time-resolved measurement is not a new technique for ICP optical emission spectrometry (ICP-OES) and ICP-MS, but it has been mainly applied to the elemental analysis of airborne particle matter [31][32][33][34] and observation studies of particle decomposition inside the plasma. [35][36][37] In the past decade or so, time-resolved ICP-MS has attracted much attention for highly sensitive elemental and multiparametric analyses of single biological cells.…”

Time-resolved ICP-MS Measurement: a New Method for Elemental and Multiparametric Analysis of Single Cells