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International Journal of Environmental Analytical Chemistry Volume 6, 1979 - Issue 4
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Original Articles

The Hitachi Graphite Furnace-Zeeman Atomic Absorption Spectrometer as an Automated, Element-Specific Detector for High Pressure Liquid Chromatography: The Separation of Arsenobetaine, Arsenocholine and Arsenite/Arsenate

R. A. Stockton Department of Chemistry, Texas A&M University, College Station, Texas, 77843, U.S.A.
&
Kurt J. Irgolic Department of Chemistry, Texas A&M University, College Station, Texas, 77843, U.S.A.
Pages 313-319 | Received 08 Nov 1978, Published online: 03 Jan 2007

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BadarI. Afghan & AaronW. Wolkoff. (1981) High Performance Liquid Chromatography in Environmental Analysis: Present and Future Applications. Journal of Liquid Chromatography 4:sup001, pages 99-139.
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Janghan Koh, Yongsuk Kwon & Yong-Nam Pak. (2005) Separation and sensitive determination of arsenic species (As3+/As5+) using the yeast-immobilized column and hydride generation in ICP–AES. Microchemical Journal 80:2, pages 195-199.
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Ken’ichi Hanaoka, Walter Goessler, Toshikazu Kaise, Hirokazu Ohno, Yukiko Nakatani, Shunshirow Ueno, Doris Kuehnelt, Claudia Schlagenhaufen & Kurt J. Irgolic. (1999) Occurrence of a few organo-arsenicals in jellyfish. Applied Organometallic Chemistry 13:2, pages 95-99.
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Yukiho Yamaoka, Osamu Takimura, Hiroyuki Fuse & Kastuji Murakami. (1999) Effect of glutathione on arsenic accumulation byDunaliella salina. Applied Organometallic Chemistry 13:2, pages 89-94.
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Ken'ichi Hanaoka, Toshikazu Kaise, Norihisa Kai, Yasuhiro Kawasaki, Hideaki Miyasita, Kenji Kakimoto & Shoji Tagawa. (1997) Arsenobetaine-decomposing Ability of Marine Microorganisms Occurring in Particles Collected at Depths of 1100 and 3500 Meters. Applied Organometallic Chemistry 11:4, pages 265-271.
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X.C. Le & Mingsheng Ma. (1997) Speciation of arsenic compounds by using ion-pair chromatography with atomic spectrometry and mass spectrometry detection. Journal of Chromatography A 764:1, pages 55-64.
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J?rgen Gailer & Kurt J. Irgolic. (1996) Retention behavior of arsenobetaine, arsenocholine, trimethylarsine oxide and tetramethylarsonium iodide on a styrene-divinylbenzene column with benzenesulfonates as ion-pairing reagents. Journal of Chromatography A 730:1-2, pages 219-229.
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X. C. Le, Mingsheng Ma & Norris A. Wong. (1996) Speciation of Arsenic Compounds Using High-Performance Liquid Chromatography at Elevated Temperature and Selective Hydride Generation Atomic Fluorescence Detection. Analytical Chemistry 68:24, pages 4501-4506.
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Ken'ichi Hanaoka, Osamu Nakamura, Hiroshi Ohno, Shoji Tagawa & Toshikazu Kaise. (1995) Degradation of arsenobetaine to inorganic arsenic by bacteria in seawater. Hydrobiologia 316:1, pages 75-80.
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Ken'ichi Hanaoka, Kenji Uchida, Shoji Tagawa & Toshikazu Kaise. (1995) Uptake and degradation of arsenobetaine by the microorganisms occurring in sediments. Applied Organometallic Chemistry 9:7, pages 573-579.
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Ken'ichi Hanaoka, Tamaki Kogure, Yuko Miura, Shoji Tagawa & Toshikazu Kaise. (1993) Post-mortem formation of inorganic arsenic from arsenobetaine in a shark under natural conditions. Chemosphere 27:11, pages 2163-2167.
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Ken'Ichi Hanaoka, Tomoko Motoya, Shoji Tagawa & Toshikazu Kaise. (2004) Conversion of arsenobetaine by intestinal bacteria of a mollusc Liolophura japonica chitons . Applied Organometallic Chemistry 5:5, pages 427-430.
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