Development of normal phase-high performance liquid chromatography-atmospherical pressure chemical ionization-mass spectrometry method for the study of 6,6′-bis-(5,5,8,8-tetramethyl-5,6,7,8-tetrahydro-benzo[1,2,4]-triazin-3-yl)-[2,2′]-bipyridine hydrolytic degradation

In the field of nuclear waste management, the 6,6′-bis-(5,5,8,8-tetramethyl-5,6,7,8-tetrahydro-benzo[1,2,4]-triazin-3-yl)-[2,2′]-bipyridine (CyMe 4BTBP) is a polycyclic N-based molecule eligible to remove actinides from spent nuclear fuel by liquid–liquid extraction processes. In such processes, the...

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Published in:Journal of Chromatography A 2011-09, Vol.1218 (37), p.6369-6378
Main Authors: Nicolas, Grégory, Jankowski, Christopher K., Lucas-Lamouroux, Christine, Bresson, Carole
Format: Article
Language:English
Subjects:
Actinides
Analytical chemistry
APCI-MS coupling
Chemistry
Chromatographic methods and physical methods associated with chromatography
Chromatography
CyMe 4BTBP
Degradation
Degradation products
dioxane
dissociation
ethanol
Ethyl alcohol
Exact sciences and technology
hexane
Hydrolysis
isopropyl alcohol
Liquid-liquid extraction
methanol
methylene chloride
nitric acid
Normal phase chromatography
nuclear fuels
octanol
Other chromatographic methods
radioactive waste
Separation
Spectroscopy
tandem mass spectrometry
waste management
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description In the field of nuclear waste management, the 6,6′-bis-(5,5,8,8-tetramethyl-5,6,7,8-tetrahydro-benzo[1,2,4]-triazin-3-yl)-[2,2′]-bipyridine (CyMe 4BTBP) is a polycyclic N-based molecule eligible to remove actinides from spent nuclear fuel by liquid–liquid extraction processes. In such processes, the organic phase containing the extracting molecules will undergo hydrolysis and radiolysis, involving degradation products. The purpose of this work was to develop a normal phase chromatography (NP-HPLC) coupled to atmospherical pressure chemical ionisation-mass spectrometry (APCI-MS) method to separate and identify degradation products of CyMe 4BTBP dissolved in octanol, submitted to HNO 3 hydrolysis. 1 mol L −1 HNO 3 hydrolysis conditions were used regarding the selective actinides extraction (SANEX) process, while 3 mol L −1 HNO 3 conditions were applied for the group actinide extraction (GANEX) process. The first step consisted in optimizing the chromatographic separation conditions using a diode array detection (DAD). Retention behavior of a non hydrolyzed mixture of N,N′-dimethyl-N,N′-dioctyl-hexyloxyethyl-malonamide (DMDOHEMA), a malonamide used in the SANEX process to increase the kinetic of extraction, and CyMe 4BTBP were investigated on diol-, cyano-, and amino-bonded stationary phases using different mobile phase compositions. These latter were hexane with different polar modifiers, i.e. dioxane, isopropanol, ethanol and methylene chloride/methanol. The different retention processes in NP-HPLC were highlighted when using various stationary and mobile phases. The second step was the setting-up of the NP-HPLC-APCI-MS coupling and the use of the low-energy collision dissociation tandem mass spectrometry (CID-MS/MS) of the precursor protonated molecules that allowed the separation and the characterization of the main hydrolytic CyMe 4BTBP degradation product under a 3 mol L −1 HNO 3 concentration. Investigation of the CID-MS/MS fragmentation pattern was used to suggest the potential ways leading to this hydrolysis degradation product. This NP-HPLC-APCI-MS method development is described for the first time for the CyMe 4BTBP and should provide separation methods regarding the analysis of polycyclic N-based extracting molecules and more generally for the investigation of the organic phase coming from liquid–liquid extraction processes used in nuclear fuel reprocessing.
doi_str_mv 10.1016/j.chroma.2011.07.003
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Retention behavior of a non hydrolyzed mixture of N,N′-dimethyl-N,N′-dioctyl-hexyloxyethyl-malonamide (DMDOHEMA), a malonamide used in the SANEX process to increase the kinetic of extraction, and CyMe 4BTBP were investigated on diol-, cyano-, and amino-bonded stationary phases using different mobile phase compositions. These latter were hexane with different polar modifiers, i.e. dioxane, isopropanol, ethanol and methylene chloride/methanol. The different retention processes in NP-HPLC were highlighted when using various stationary and mobile phases. The second step was the setting-up of the NP-HPLC-APCI-MS coupling and the use of the low-energy collision dissociation tandem mass spectrometry (CID-MS/MS) of the precursor protonated molecules that allowed the separation and the characterization of the main hydrolytic CyMe 4BTBP degradation product under a 3 mol L −1 HNO 3 concentration. 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In such processes, the organic phase containing the extracting molecules will undergo hydrolysis and radiolysis, involving degradation products. The purpose of this work was to develop a normal phase chromatography (NP-HPLC) coupled to atmospherical pressure chemical ionisation-mass spectrometry (APCI-MS) method to separate and identify degradation products of CyMe 4BTBP dissolved in octanol, submitted to HNO 3 hydrolysis. 1 mol L −1 HNO 3 hydrolysis conditions were used regarding the selective actinides extraction (SANEX) process, while 3 mol L −1 HNO 3 conditions were applied for the group actinide extraction (GANEX) process. The first step consisted in optimizing the chromatographic separation conditions using a diode array detection (DAD). Retention behavior of a non hydrolyzed mixture of N,N′-dimethyl-N,N′-dioctyl-hexyloxyethyl-malonamide (DMDOHEMA), a malonamide used in the SANEX process to increase the kinetic of extraction, and CyMe 4BTBP were investigated on diol-, cyano-, and amino-bonded stationary phases using different mobile phase compositions. These latter were hexane with different polar modifiers, i.e. dioxane, isopropanol, ethanol and methylene chloride/methanol. The different retention processes in NP-HPLC were highlighted when using various stationary and mobile phases. The second step was the setting-up of the NP-HPLC-APCI-MS coupling and the use of the low-energy collision dissociation tandem mass spectrometry (CID-MS/MS) of the precursor protonated molecules that allowed the separation and the characterization of the main hydrolytic CyMe 4BTBP degradation product under a 3 mol L −1 HNO 3 concentration. Investigation of the CID-MS/MS fragmentation pattern was used to suggest the potential ways leading to this hydrolysis degradation product. This NP-HPLC-APCI-MS method development is described for the first time for the CyMe 4BTBP and should provide separation methods regarding the analysis of polycyclic N-based extracting molecules and more generally for the investigation of the organic phase coming from liquid–liquid extraction processes used in nuclear fuel reprocessing.</abstract><cop>Amsterdam</cop><pub>Elsevier B.V</pub><doi>10.1016/j.chroma.2011.07.003</doi><tpages>10</tpages></addata></record>
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subjects Actinides
Analytical chemistry
APCI-MS coupling
Chemistry
Chromatographic methods and physical methods associated with chromatography
Chromatography
CyMe 4BTBP
Degradation
Degradation products
dioxane
dissociation
ethanol
Ethyl alcohol
Exact sciences and technology
hexane
Hydrolysis
isopropyl alcohol
Liquid-liquid extraction
methanol
methylene chloride
nitric acid
Normal phase chromatography
nuclear fuels
octanol
Other chromatographic methods
radioactive waste
Separation
Spectroscopy
tandem mass spectrometry
waste management
title Development of normal phase-high performance liquid chromatography-atmospherical pressure chemical ionization-mass spectrometry method for the study of 6,6′-bis-(5,5,8,8-tetramethyl-5,6,7,8-tetrahydro-benzo[1,2,4]-triazin-3-yl)-[2,2′]-bipyridine hydrolytic degradation
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