A Monolith-like Macroporous Reversed Phase/Anion Exchange Mixed-mode Adsorbent Sintered with a Polyethylene Powder for Solid-phase Extraction

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  • KATOH Toshifumi
    Products Planning & Development Dep., Research & Development Center, Nippon Filcon Co., LTD.
  • INOUE Yoshinori
    Products Planning & Development Dep., Research & Development Center, Nippon Filcon Co., LTD.
  • KAMICHATANI Waka
    Products Planning & Development Dep., Research & Development Center, Nippon Filcon Co., LTD. College of Bioscience and Biotechnology, Chubu University
  • SAITO Mitsuru
    Products Planning & Development Dep., Research & Development Center, Nippon Filcon Co., LTD.
  • KAGAYA Shigehiro
    Graduate School of Science and Engineering for Research, University of Toyama
  • YAMAMOTO Atsushi
    College of Bioscience and Biotechnology, Chubu University

Bibliographic Information

Other Title
  • ポリエチレン粉体と焼結した逆相/陰イオン交換複合モード型モノリス様多孔質固相抽出剤
  • ポリエチレン フンタイ ト ショウケツ シタ ギャクソウ/インイオン コウカン フクゴウ モードガタ モノリス ヨウ タコウシツコソウ チュウシュツザイ

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Abstract

A monolith-like continuous macroporous adsorbent sintered with a reverse-phase/anion exchange-type polymer and a polyethylene powder was prepared for solid-phase extraction (SPE). The sintered SPE adsorbent showed high permeability, which was equal to that using bulk adsorbent. Several drugs such as caffeine and acetaminophen could be extracted quantitatively even at 30 mL min </sup>−1</sup> of a sample flow rate. Neutral and basic drugs, such as acetoaminophen, caffeine, theobromine, atenolol, procaine and procainamide, were clearly retained by hydrophobic interaction ; they were quantitatively eluted with methanol. Acidic drugs, such as acetylsalicylic acid, naproxen and salicylic acid, were strongly retained by both a hydrophobic interaction and an anion exchange interaction. The acidic drugs retained were not eluted with only methanol, whereas they were quantitatively eluted with methanol containing 1% of formic acid. The sintered SPE adsorbent could produce an ion-exchange interaction effectively without any influence based on the water repellency of polyethylene. The monolith-like macroporous SPE adsorbent is easy to handle and is useful for the SPE of drugs and the other compounds. Additionally, the sintering technique using a bulk adsorbent and a polyethylene powder would be applicable to the preparation of SPE adsorbents having various shapes.

Journal

  • BUNSEKI KAGAKU

    BUNSEKI KAGAKU 61 (4), 335-340, 2012

    The Japan Society for Analytical Chemistry

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