Separation of π-Electron-Rich Compounds by Using Anion-Exchange Resin Modified with Cu2+-Phthalocyanine Derivative as Stationary Phase for Chromatography

Mifune, Masaki; Kanai, Takemine; Urabe, Masakiyo; Iwado, Akimasa; Haginaka, Jun; Motohashi, Noriko; Saito, Yutaka

doi:10.2116/analsci.15.581

Cited by 7 publications

(3 citation statements)

References 13 publications

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“…Cu 2+-and Ni2+-phthalocyanine [13] derivatives, metal porphyrins [14], and a variety of organometallic iron complexes [15] have recently been immobilized on silica gel and used to separate polycyclic aromatic hydrocarbons (PAH) under normal-phase conditions.…”

Section: Introductionmentioning

confidence: 99%

Synthesis and evaluation of a ferrocene-bonded silica phase for reversed-phase high-performance liquid chromatography

2002

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Key WardsColumn liquid chromatography Ferrocene-bonded silica stationary phase re-re Interactions Hydrophobic interactions SummaryThe preparation, characterization, and potential liquid chromatographic applications of a ferrocene-bonded silica stationary phase are presented. The phase was prepared by covalent bonding of ferrocene-derivatized aminosilane to silica gel then end-capping with trimethylchlorosilane. Use of the new stationary phase enabled good separations of alkylbenzenes, halobenzenes, polycyclic aromatic hydrocarbons, and even basic compounds under reversed-phase conditions. The linear relationship between log k (where k is the retention factor) and the number of rc electrons (n~) in the structures of polyaromatic hydrocarbons indicates that the mechanism of retention on the new stationary phase involves strong re-re interaction with one of the cyclopentadienyl (Cp) groups of the ferrocene. The retention increment for a methylene group was calculated. The value indicates that the mechanism of retention on the new stationary phase also involves a strong hydrophobic interaction, so the phase enables effective separation of compounds with a benzene ring.

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Section: Introductionmentioning

confidence: 99%

Synthesis and evaluation of a ferrocene-bonded silica phase for reversed-phase high-performance liquid chromatography

2002

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“…6 The resultant Cu-PCSMCI (12.5, 25 or 50 µmol Cu-PCS/g dry MCI) was filtered, washed with water and then acetone, and dried under a vacuum to obtain Cu-PCSMCI. All of the modified resins were stable to temperature, moisture and storage, and Cu-PCS on the MCI was not eluted with water and methanol at all.…”

Section: Preparation Of Mci-gel Ca08s Modified With Cu-pcs (Cu-pcsmci)mentioning

confidence: 99%

π-π Electron Interaction Property of HPLC Anion-Exchange Resin Modified with Cu2+-Phthalocyanine Derivative

et al. 2000

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It has recently been reported that silica gels binding Cu 2+ -phthalocyanine (Cu-PCS) 1-3 and In 3+ -porphine 4 and pyrene 5 derivatives interact with π-electron-rich compounds, such as polyaromatic hydrocarbons (PAHs), through a π-π electron interaction (π-π interaction). They are useful for separating π-electron-rich compounds, although their preparation requires troublesome procedures.1-5 On the other hand, we have briefly reported that anionic Cu-PCS are easily bound on an ordinary anion-exchange resin through electrostatic and hydrophobic interactions, and that the modified resin exhibits a relatively strong π-π interaction with PAHs. 6 However, the modified resin was not completely suited for an HPLC stationary phase for an analytical purpose, because the theoretical plate number (N) is relatively low due to the irregular particle size of the resin. To develop a new HPLC stationary phase, we thus tried to modify an HPLC anion-exchange resin for HPLC with Cu-PCS.Consequently, we could increase hydrophobic interactions, including the π-π interaction of an HPLC anionexchange resin for large PAHs by an easy modification method with Cu-PCS. In the present paper, we report on the properties of the resultant modified resin as the HPLC stationary phase for the separation of π-electron-rich PAHs.

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“…The grafting on silica gel of electron acceptor molecules bearing transition metal metallocenes [1][2][3][4][5] is another investigated field of research [6][7]. In recent years, the ferrocene-bonded stationary phase has attracted considerable attention in liquid chromatography due to its varieties of separation mechanisms, including hydrophobic, hydrogen bonding, π-π, dipole-dipole and charge-transfer interactions [8][9][10][11][12].…”

Section: Introductionmentioning

confidence: 99%

Development of N-ferrocenyl(benzoyl)amino-acid esters stationary phase for high performance liquid chromatography

Zhou

Li²,

Cao

et al. 2015

Talanta

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A new stationary phase for high-performance liquid chromatography was prepared by covalently bonding N-ferrocenyl(benzoyl)amino-acid esters (L(1)) onto silica gel using 3-aminopropyltriethoxysilane as coupling reagent. The structure of new material was characterized by infrared spectroscopy, elemental analysis and thermogravimetric analysis. The chromatographic behavior of the phase was illustrated in reversed-phase (RP) and normal-phase (NP) modes using polycyclic aromatic hydrocarbons (PAHs), aromatics positional isomers, amines, 5-nitroimidazoles, organophosphorus pesticides and phenols as probes. Multiple mechanisms including hydrophobic, hydrogen bonding, π-π, dipole-dipole, charge-transfer and acid-base equilibrium interactions are involved. Thus, multi-interaction mechanisms and mixed-mode separation of the new phase can very likely guarantee its excellent chromatographic performance for the analysis of complex samples. The L(1) AminoSil column was successfully employed for the analysis of organophosphorus pesticides in vegetable.

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Separation of π-Electron-Rich Compounds by Using Anion-Exchange Resin Modified with Cu2+-Phthalocyanine Derivative as Stationary Phase for Chromatography

Cited by 7 publications

References 13 publications

Synthesis and evaluation of a ferrocene-bonded silica phase for reversed-phase high-performance liquid chromatography

Synthesis and evaluation of a ferrocene-bonded silica phase for reversed-phase high-performance liquid chromatography

π-π Electron Interaction Property of HPLC Anion-Exchange Resin Modified with Cu2+-Phthalocyanine Derivative

Development of N-ferrocenyl(benzoyl)amino-acid esters stationary phase for high performance liquid chromatography

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