Electromigration of a heteroconjugated imidazole–acetate complex in ACN

Porras, Simo P.; Jussila, Matti

doi:10.1002/elps.200700291

Cited by 10 publications

(4 citation statements)

References 57 publications

(69 reference statements)

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“…Concerning ion‐pair, it is caused by the interaction of two ions with opposite charge. Heteroconjugation and homoconjugation are the main effects in ACN, in that ACN is a dipolar‐aprotic solvent and it cannot donate hydrogen bond 30. Therefore, anions in ACN must be solvated by other hydrogen bond donor, which causes the formation of homoconjugation and heteroconjugation.…”

Section: Resultsmentioning

confidence: 99%

A novel technique for NACE coupled with simultaneous electrochemiluminescence and electrochemical detection for fast analysis of tertiary amines

et al. 2009

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A simultaneous electrochemiluminescence (ECL) and electrochemical (EC) detection scheme for NACE was presented for fast analysis of tertiary amines. Both ECL and EC signals were generated at the same Pt electrode. Triethylamine (TEA), tripropylamine (TPrA), chlorpromazine, promethazine, and dioxopromethazine (DPZ) were selected to validate NACE-ECL/EC dual detection strategy. The linear ranges for TEA and TPrA were 0.01-500 and 0.01-10 microM with the detection limits of 8.0 and 5.0 nM (S/N=3), respectively. The RSDs (n=6) of the migration time and the ECL intensity for 1 microM TEA and 0.5 microM TPrA were 0.1 and 2.8%, and 0.2 and 1.8% with theoretical plate numbers of 180,000 and 700,000 per meter, respectively. These two analytes could be separated within 92 s and the Pt electrode did not need reactivation during the experiments. Chlorpromazine, promethazine, and DPZ could be well separated by NACE. The proposed method was also demonstrated for fast determination of DPZ in human urine with simple sample preparation. The results indicated that NACE-ECL/EC had the advantages of simple and fast analysis with more information, wide linear range, high sensitivity, and compatibility with real urine sample.

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Section: Resultsmentioning

confidence: 99%

A novel technique for NACE coupled with simultaneous electrochemiluminescence and electrochemical detection for fast analysis of tertiary amines

et al. 2009

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“…Porras and Jussila studied the electromigration of heteroconjugated complexes in ACN, using imidazole as the uncharged compound and acetate as small complexing anion 40. Ma et al demonstrated that the separation of four calix[4]pyrrole derivatives in NACE was possible as a result of heteroconjugation with chloride anion 36, 37.…”

Section: Chemical Features Of Nacementioning

confidence: 99%

Non‐aqueous capillary electrophoresis 2005–2008

Geiser

Veuthey

2009

Electrophoresis

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This review article presents recent developments and applications of non-aqueous capillary electrophoresis (NACE): The text covers the period from the previous review (L. Geiser, J. L. Veuthey, Electrophoresis 2007, 28, 45-57) to summer 2008. We focus primarily on the analysis of pharmaceutical drugs by non-aqueous solvents in CZE within different matrices including phytochemical plant extracts and biological fluids. We also extend our discussion to other application fields (e.g. food material and environmental samples) and to chiral separations by NACE. This review focuses on practical aspects of NACE, illustrating which organic solvents and electrolytes are best suited for NACE analyses and their compatibilities with different detection techniques, including UV, LIF and MS. The review emphasizes the interests of using non-aqueous solvents in place of water for the analysis by CZE, and as an alternative to MEKC.

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“…The ionic strength of the solution is not changed, because for each reacting anion A − another anion is formed. Note that non‐ionic analytes can be transformed into ionic heteroconjugates (with the constituents of the BGE), a reaction that can be used to separate initially neutral analytes by CE 31–34.…”

Section: Organic Solvents In Czementioning

confidence: 99%

“… One is the utilisation of heteroconjugation, which is hardly occurring in aqueous solution because of the excellent solvation properties of water. In solvents with low solvation ability, heterconjugation can be introduced as a vehicle to generate additional separation selectivity, and even to implement electrophoretic movement of initially non‐charged analytes 31–34. A convincing example was given by Okada (Fig.…”

Section: Conclusion: Explicit Advantages Of Organic Solventsmentioning

confidence: 99%

Organic solvents in CE

Kenndler

2009

Electrophoresis

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In this contribution some fundamental aspects are discussed serving for a critical reflection and elucidation of the role of organic solvents in CE. The implications of the solvent on the parameters governing peak resolution are discussed based on the concepts describing migration and zone broadening in capillary zone electrophoresis. This discussion includes the solvent-dependent influence of the ionic strength on the mobility. The role of the solvent on the plate number in case of the inevitable diffusional peak dispersion is outlined, and its effect on other peak broadening contributions is briefly examined. This paper also deals with the problems of conductance, applicable voltage and analysis time upon application of organic solvents, and tries to clarify some misunderstandings common in the literature.

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Electromigration of a heteroconjugated imidazole–acetate complex in ACN

Cited by 10 publications

References 57 publications

A novel technique for NACE coupled with simultaneous electrochemiluminescence and electrochemical detection for fast analysis of tertiary amines

A novel technique for NACE coupled with simultaneous electrochemiluminescence and electrochemical detection for fast analysis of tertiary amines

Non‐aqueous capillary electrophoresis 2005–2008

Organic solvents in CE

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