2023
DOI: 10.1016/j.talanta.2023.124816
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Identification of new psychoactive substances and their metabolites using non-targeted detection with high-resolution mass spectrometry through diagnosing fragment ions/neutral loss analysis

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Cited by 16 publications
(10 citation statements)
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“…C 12 H 17 NO 2 ( m / z 208.1332 for [M + H]+; ΔMass = −0.32 ppm) was tentatively identified as 4-methoxy- N , N -dimethylcathinone (also known as 4-methoxy- N , N -DMC; Figure f) or its isomer based on the characteristic neutral losses of C 4 H 11 N (e.g., N , N -dimethylethanamine) and C 5 H 11 NO (e.g., 2-(dimethylamino)­propanal) from the precursor ion to form the diagnostic (4-formylphenyl)­(methylene)­oxonium ion C 8 H 7 O 2 + (i.e., m / z 135.0439; ΔMass = −1.11 ppm) found for methoxy cathinones and the 4-methoxybenzene-1-ylium ion C 7 H 7 O + (i.e., m / z 107.0493; ΔMass = 1.40 ppm), respectively. C 12 H 15 NO 3 ( m / z 222.1124 for [M + H]+; ΔMass = −0.41 ppm) was tentatively identified as dimethylone (also known as bk-MDDMA; Figure S12) or its isomer based on the characteristic neutral losses of C 4 H 11 N and C 5 H 11 NO from the precursor ion to form the diagnostic (benzo­[ d ]­[1,3]­dioxol-5-ylmethylidyne)­oxonium ion C 8 H 5 O 3 + (i.e., m / z 149.0230; ΔMass = −2.28 ppm) found for methylenedioxy cathinones and the benzo­[ d ]­[1,3]­dioxol-5-ylium ion C 7 H 5 O 2 + (i.e., m / z 121.0284; ΔMass = 0.08 ppm), respectively. C 11 H 15 NO 2 ( m / z 194.1174 for [M + H]+; ΔMass = −0.57 ppm) was tentatively identified as N -methyl homarylamine (Figure S13) or its isomer based on the characteristic neutral losses of C 2 H 7 N (e.g., dimethylamine) and C 2 H 7 N plus CO (i.e., C 3 H 7 NO) from the precursor ion that led to the formation of two diagnostic ions, 1-(benzo­[ d ]­[1,3]­dioxol-5-yl)­ethan-1-ylium ion C 9 H 9 O 2 + (i.e., m / z 149.0595; ΔMass = −1.68 ppm) and benzo­[ d ]­[1,3]­dioxol-5-ylmethylium ion C 8 H 7 O 2 + (i.e., m / z 135.0442; ΔMass = 0.81 ppm), as typically observed for methylenedioxy phenethylamines .…”
Section: Resultsmentioning
confidence: 99%
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“…C 12 H 17 NO 2 ( m / z 208.1332 for [M + H]+; ΔMass = −0.32 ppm) was tentatively identified as 4-methoxy- N , N -dimethylcathinone (also known as 4-methoxy- N , N -DMC; Figure f) or its isomer based on the characteristic neutral losses of C 4 H 11 N (e.g., N , N -dimethylethanamine) and C 5 H 11 NO (e.g., 2-(dimethylamino)­propanal) from the precursor ion to form the diagnostic (4-formylphenyl)­(methylene)­oxonium ion C 8 H 7 O 2 + (i.e., m / z 135.0439; ΔMass = −1.11 ppm) found for methoxy cathinones and the 4-methoxybenzene-1-ylium ion C 7 H 7 O + (i.e., m / z 107.0493; ΔMass = 1.40 ppm), respectively. C 12 H 15 NO 3 ( m / z 222.1124 for [M + H]+; ΔMass = −0.41 ppm) was tentatively identified as dimethylone (also known as bk-MDDMA; Figure S12) or its isomer based on the characteristic neutral losses of C 4 H 11 N and C 5 H 11 NO from the precursor ion to form the diagnostic (benzo­[ d ]­[1,3]­dioxol-5-ylmethylidyne)­oxonium ion C 8 H 5 O 3 + (i.e., m / z 149.0230; ΔMass = −2.28 ppm) found for methylenedioxy cathinones and the benzo­[ d ]­[1,3]­dioxol-5-ylium ion C 7 H 5 O 2 + (i.e., m / z 121.0284; ΔMass = 0.08 ppm), respectively. C 11 H 15 NO 2 ( m / z 194.1174 for [M + H]+; ΔMass = −0.57 ppm) was tentatively identified as N -methyl homarylamine (Figure S13) or its isomer based on the characteristic neutral losses of C 2 H 7 N (e.g., dimethylamine) and C 2 H 7 N plus CO (i.e., C 3 H 7 NO) from the precursor ion that led to the formation of two diagnostic ions, 1-(benzo­[ d ]­[1,3]­dioxol-5-yl)­ethan-1-ylium ion C 9 H 9 O 2 + (i.e., m / z 149.0595; ΔMass = −1.68 ppm) and benzo­[ d ]­[1,3]­dioxol-5-ylmethylium ion C 8 H 7 O 2 + (i.e., m / z 135.0442; ΔMass = 0.81 ppm), as typically observed for methylenedioxy phenethylamines .…”
Section: Resultsmentioning
confidence: 99%
“…C 12 H 15 NO 3 ( m / z 222.1124 for [M + H]+; ΔMass = −0.41 ppm) was tentatively identified as dimethylone (also known as bk-MDDMA; Figure S12) or its isomer based on the characteristic neutral losses of C 4 H 11 N and C 5 H 11 NO from the precursor ion to form the diagnostic (benzo­[ d ]­[1,3]­dioxol-5-ylmethylidyne)­oxonium ion C 8 H 5 O 3 + (i.e., m / z 149.0230; ΔMass = −2.28 ppm) found for methylenedioxy cathinones and the benzo­[ d ]­[1,3]­dioxol-5-ylium ion C 7 H 5 O 2 + (i.e., m / z 121.0284; ΔMass = 0.08 ppm), respectively. C 11 H 15 NO 2 ( m / z 194.1174 for [M + H]+; ΔMass = −0.57 ppm) was tentatively identified as N -methyl homarylamine (Figure S13) or its isomer based on the characteristic neutral losses of C 2 H 7 N (e.g., dimethylamine) and C 2 H 7 N plus CO (i.e., C 3 H 7 NO) from the precursor ion that led to the formation of two diagnostic ions, 1-(benzo­[ d ]­[1,3]­dioxol-5-yl)­ethan-1-ylium ion C 9 H 9 O 2 + (i.e., m / z 149.0595; ΔMass = −1.68 ppm) and benzo­[ d ]­[1,3]­dioxol-5-ylmethylium ion C 8 H 7 O 2 + (i.e., m / z 135.0442; ΔMass = 0.81 ppm), as typically observed for methylenedioxy phenethylamines . C 20 H 27 FN 2 O 3 ( m / z 363.2078 for [M + H]+; ΔMass = 0.01 ppm) was tentatively identified as 5-fluoro AMB-PICA (also known as MMB-2201; Figure S14) or its isomer based on the detection of the diagnostic (1 H -indol-3-yl)­(oxo)­methylium ion C 9 H 6 NO + (i.e., m / z 144.0440; ΔMass = −2.71 ppm) found for indole-3-carboxamide-based synthetic cannabinoids and the neutral loss of C 6 H 13 NO 2 (e.g., methyl 2-amino-3-methylbutanoate) from the precursor ion to form the (1-(5-fluoropentyl)-1 H -indol-3-yl)­(oxo)­methylium ion C 14 H 15 FNO + (i.e., m / z 232.1130; ΔMass = −1.42 ppm).…”
Section: Resultsmentioning
confidence: 99%
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