High-Resolution Elemental Mass Spectrometry Using LC-ICP-Nanospray-Orbitrap for Simultaneous and Species-Independent Quantitation of Fluorinated and Chlorinated Compounds

Abstract: Simultaneous elemental detection of F and Cl offers quantitation of fluorinated and chlorinated compounds and their transformation products without compound-specific standards. Despite wide-ranging applications, this capability has been hindered by fundamental and technical shortcomings of current inductively coupled plasma (ICP)-MS methods in ion formation and isobaric interference elimination. These hurdles are alleviated here via a chemical ionization method. Fluorine and chlorine in analytes are first conv… Show more

“…Elemental methods coupled with chromatography are attractive approaches for such analyses since the uorine atom acts as a quantitative tag without regard to the compounds' chemical structure. 5 Inductively coupled plasma mass spectrometry (ICPMS) is oen used for elemental speciation but F determination using this technique is hindered by the high ionization potential of uorine (17.42 eV), 6 resulting in low ionization yield of F to F + (9 × 10 −4 % at 7500 K). 7 This limitation along with susceptibility of F + to the space charge effect and reduced ion transmission efficiency lead to a signicantly lower sensitivity for F + (0.03 cps per (ng mL −1 )) 8 compared to that of metals such as In + with a sensitivity >1 × 10 6 cps per (ng mL −1 ).…”

“…16 The potential of this approach was further demonstrated by coupling it to reversed phase liquid chromatography (LC), 5 resulting in on-column detection limits of 5-12 pmol F compared to in-plasma BaF + methods with on-column limits of detection (LODs) > 100 pmol F. 14,17 Moreover, quantitation of drug metabolites without a species-specic standard was demonstrated by this method, enabling the application of F speciation in drug development. 5 On the other hand, post-plasma chemical ionization is susceptible to chemical interferences. For example, the BaF + signal detected from organouorines via post-ICP nanosprayinduced chemical ionization was suppressed by 32% in the presence of 246 mM Cl as organochlorines in the sample.…”

“…Moreover, our recent studies have shown that the amount of oxygen introduced into the plasma significantly affects F detection sensitivity in post-plasma BaF + formation. 5 Notably, introduction of oxygen into the ICP is necessary to prevent the deposition of carbon onto surfaces downstream of the plasma when organic solvents are used. Therefore, a synchronized tuning of the oxygen flow rate with the solvent gradient was necessary for coupling this technique to gradient LC.…”

“…Therefore, a synchronized tuning of the oxygen flow rate with the solvent gradient was necessary for coupling this technique to gradient LC. 5…”

“…To improve F detection sensitivity with ICP, we have developed a new approach where the plasma is sampled in a cool atmospheric-pressure recombination zone for the formation of F-specic neutral species, which subsequently undergo chemical ionization. 5,15,16 Consequently, in-plasma ion formation constraints are alleviated, resulting in substantially improved sensitivities. For example, a sensitivity of 180 cps per (ng mL −1 ) F was observed by post-plasma formation of Na 2 F + upon cointroduction of sodium and uorochemicals into the plasma.…”

Fluorine-selective post-plasma chemical ionization for enhanced elemental detection of fluorochemicals

“…Elemental methods coupled with chromatography are attractive approaches for such analyses since the uorine atom acts as a quantitative tag without regard to the compounds' chemical structure. 5 Inductively coupled plasma mass spectrometry (ICPMS) is oen used for elemental speciation but F determination using this technique is hindered by the high ionization potential of uorine (17.42 eV), 6 resulting in low ionization yield of F to F + (9 × 10 −4 % at 7500 K). 7 This limitation along with susceptibility of F + to the space charge effect and reduced ion transmission efficiency lead to a signicantly lower sensitivity for F + (0.03 cps per (ng mL −1 )) 8 compared to that of metals such as In + with a sensitivity >1 × 10 6 cps per (ng mL −1 ).…”

“…16 The potential of this approach was further demonstrated by coupling it to reversed phase liquid chromatography (LC), 5 resulting in on-column detection limits of 5-12 pmol F compared to in-plasma BaF + methods with on-column limits of detection (LODs) > 100 pmol F. 14,17 Moreover, quantitation of drug metabolites without a species-specic standard was demonstrated by this method, enabling the application of F speciation in drug development. 5 On the other hand, post-plasma chemical ionization is susceptible to chemical interferences. For example, the BaF + signal detected from organouorines via post-ICP nanosprayinduced chemical ionization was suppressed by 32% in the presence of 246 mM Cl as organochlorines in the sample.…”

“…Moreover, our recent studies have shown that the amount of oxygen introduced into the plasma significantly affects F detection sensitivity in post-plasma BaF + formation. 5 Notably, introduction of oxygen into the ICP is necessary to prevent the deposition of carbon onto surfaces downstream of the plasma when organic solvents are used. Therefore, a synchronized tuning of the oxygen flow rate with the solvent gradient was necessary for coupling this technique to gradient LC.…”

“…Therefore, a synchronized tuning of the oxygen flow rate with the solvent gradient was necessary for coupling this technique to gradient LC. 5…”

“…To improve F detection sensitivity with ICP, we have developed a new approach where the plasma is sampled in a cool atmospheric-pressure recombination zone for the formation of F-specic neutral species, which subsequently undergo chemical ionization. 5,15,16 Consequently, in-plasma ion formation constraints are alleviated, resulting in substantially improved sensitivities. For example, a sensitivity of 180 cps per (ng mL −1 ) F was observed by post-plasma formation of Na 2 F + upon cointroduction of sodium and uorochemicals into the plasma.…”

Fluorine-selective post-plasma chemical ionization for enhanced elemental detection of fluorochemicals

Solution cathode glow discharge coupled to atmospheric pressure chemical ionization for elemental detection of S and P in organic compounds

A Method to Measure Total Gaseous Fluorine