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Publication Cover
Journal of Environmental Science and Health, Part A
Toxic/Hazardous Substances and Environmental Engineering
Volume 42, 2007 - Issue 1
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Original Articles

Removal of aqueous arsenic using iron attached to immobilized ligands (IMLIGs)

Dean F. Martin Institute for Environmental Studies, Department of Chemistry, University of South Florida, Tampa, Florida, 33620-5250, USA
,
Lauren O'Donnell Institute for Environmental Studies, Department of Chemistry, University of South Florida, Tampa, Florida, 33620-5250, USA
,
Barbara B. Martin Institute for Environmental Studies, Department of Chemistry, University of South Florida, Tampa, Florida, 33620-5250, USA
&
Robert Alldredge Metre-General, Inc., Frederick, Colorado, 80530, USA
Pages 97-102 | Received 26 Oct 2006, Published online: 05 Apr 2011

Citations (15)

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Read on this site (8)

Dean F. Martin & Bill Gilmore. (2017) Removal of phosphate from electrocoagulation post-treatment phosphate reduction using Octolig®. Journal of Environmental Science and Health, Part A 52:11, pages 1046-1047.
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DeanF. Martin & DouglasM. Franz. (2011) Comparison of anion removal capacities of Octolig® and Cuprilig. Journal of Environmental Science and Health, Part A 46:14, pages 1619-1624.
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Ackmez Mudhoo, Sanjay Kumar Sharma, Vinod Kumar Garg & Chin-Hsiao Tseng. (2011) Arsenic: An Overview of Applications, Health, and Environmental Concerns and Removal Processes. Critical Reviews in Environmental Science and Technology 41:5, pages 435-519.
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DeanF. Martin, ChristopherL. Lizardi, Eileen Schulman, Bryan Vo & Darius Wynn. (2010) Removal of selected nuisance anions by Octolig®. Journal of Environmental Science and Health, Part A 45:9, pages 1144-1149.
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FrederickW. Stull & DeanF. Martin. (2009) Comparative ease of separation of mixtures of selected nuisance anions (nitrate, nitrite, sulfate, phosphate) using Octolig®. Journal of Environmental Science and Health, Part A 44:14, pages 1545-1550.
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DeanF. Martin, NicholasP. Kondis & RobertL. Alldredge. (2009) Effectiveness of removal of aqueous perchlorate by Cuprilig, a copper(II) derivative of Octolig® . Journal of Environmental Science and Health, Part A 44:2, pages 188-191.
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DeanF. Martin, JeremyS. Aguinaldo, NicholasP. Kondis, FrederickW. Stull, LaurenF. O'Donnell, BarbaraB. Martin & RobertL. Alldredge. (2008) Comparison of effectiveness of removal of nuisance anions by metalloligs, metal derivatives of Octolig®. Journal of Environmental Science and Health, Part A 43:11, pages 1296-1302.
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DeanF. Martin, LaurenF. O'Donnell, BarbaraB. Martin & RobertL. Alldredge. (2008) Removal of nuisance aqueous anions with Ferrilig. Journal of Environmental Science and Health, Part A 43:7, pages 700-704.
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Articles from other publishers (7)

Revathi Kottappara, Suresh C. Pillai & Baiju Kizhakkekilikoodayil Vijayan. 2021. Biobased Nanotechnology for Green Applications. Biobased Nanotechnology for Green Applications 41 72 .
Kanu Gupta, Jasleen Kaur, Anupama Kaushik & Sonal Singhal. (2019) Stabilization of Magnetic Ferrite Nanostructures with Cellulose Derived From Biomass for the Abatement of Environmental Pollution. Materials Today: Proceedings 14, pages 417-425.
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Sadia Bibi, Muhammad Aqeel Kamran, Jawairia Sultana & Abida Farooqi. (2016) Occurrence and methods to remove arsenic and fluoride contamination in water. Environmental Chemistry Letters 15:1, pages 125-149.
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Xiaolin Yu, Shengrui Tong, Maofa Ge, Junchao Zuo, Changyan Cao & Weiguo Song. (2013) One-step synthesis of magnetic composites of cellulose@iron oxide nanoparticles for arsenic removal. J. Mater. Chem. A 1:3, pages 959-965.
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Xiaolin Yu, Shengrui Tong, Maofa Ge, Lingyan Wu, Junchao Zuo, Changyan Cao & Weiguo Song. (2013) Synthesis and characterization of multi-amino-functionalized cellulose for arsenic adsorption. Carbohydrate Polymers 92:1, pages 380-387.
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C.K. Jain & R.D. Singh. (2012) Technological options for the removal of arsenic with special reference to South East Asia. Journal of Environmental Management 107, pages 1-18.
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Dinesh Mohan & Charles U. PittmanJr.Jr.. (2007) Arsenic removal from water/wastewater using adsorbents—A critical review. Journal of Hazardous Materials 142:1-2, pages 1-53.
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