Articles citing this paper
Problems with Sb analysis of environmentally relevant samples
David S. T. Hjortenkrans A B , Nina S. Månsson A , Bo G. Bergbäck A and Agneta V. Häggerud A
+ Author Affiliations
- Author Affiliations
A School of Pure and Applied Natural Sciences, University of Kalmar, Barlastgatan 1, SE-391 82 Kalmar, Sweden.
B Corresponding author. Email: david.hjortenkrans@hik.se
Environmental Chemistry 6(2) 153-159 https://doi.org/10.1071/EN08077
Submitted: 15 October 2008 Accepted: 12 February 2009 Published: 27 April 2009
12 articles found in Crossref database.
The effect of phosphate application on the mobility of antimony in firing range soils
Griggs Christopher S.,
Martin W. Andy,
Larson Steven L.,
O'Connnor Greg,
Fabian Gene,
Zynda Greg, Mackie David
Science of The Total Environment. 2011 409(12). p.2397
Application of sorbents in different soil types from small arms shooting ranges for immobilization of lead (Pb), copper (Cu), zinc (Zn), and antimony (Sb)
Mariussen Espen,
Johnsen Ida Vaa, Strømseng Arnljot Einride
Journal of Soils and Sediments. 2018 18(4). p.1558
Range Design Considerations Based on Behavior of Antimony and Lead under Dynamic Loading Conditions
Martin W. Andy,
Nestler Catherine C.,
Lee Linda S., Larson Steven L.
Journal of Environmental Engineering. 2017 143(7).
Antimony mobility during prolonged waterlogging and reoxidation of shooting range soil: A field experiment
Tandy Susan,
Hockmann Kerstin,
Keller Martin,
Studer Björn,
Papritz Andreas, Schulin Rainer
Science of The Total Environment. 2018 624 p.838
Antimony in the environment - the new global puzzle
Maher William A.
Environmental Chemistry. 2009 6(2). p.93
Forensic comparison of PVC tape backings using time resolved LA-ICP-MS analysis
Kuczelinis Felix,
Weis Peter, Bings Nicolas-H.
Forensic Chemistry. 2019 12 p.33
Distribution and mobility of lead (Pb), copper (Cu), zinc (Zn), and antimony (Sb) from ammunition residues on shooting ranges for small arms located on mires
Mariussen Espen,
Johnsen Ida Vaa, Strømseng Arnljot Einride
Environmental Science and Pollution Research. 2017 24(11). p.10182
Atomic spectrometry update. Environmental analysis
Butler Owen T.,
Cairns W. R. L.,
Cook Jennifer M., Davidson Christine M.
J. Anal. At. Spectrom.. 2010 25(2). p.103
Removal of low Sb(V) concentrations from mining wastewater using zeolitic imidazolate framework-8
Li Wenpeng,
Wang Qingping,
Jin Xiaoying,
Khan Nasreen Islam,
Owens Gary, Chen Zuliang
Journal of Environmental Management. 2021 287 p.112280
Antimony leaching from soils and mine waste from the Mau Due antimony mine, North-Vietnam
Cappuyns Valérie,
Van Campen Axelle, Helser Jillian
Journal of Geochemical Exploration. 2021 220 p.106663
Antimony leaching and chemical species analyses in an industrial solid waste: Surface and bulk speciation using ToF-SIMS and XANES
Kappen P.,
Ferrando-Miguel G.,
Reichman S.M.,
Innes L.,
Welter E., Pigram P.J.
Journal of Hazardous Materials. 2017 329 p.131
Assessing toxicity of metal contaminated soil from glassworks sites with a battery of biotests
Hagner M.,
Romantschuk M.,
Penttinen O.-P.,
Egfors A.,
Marchand C., Augustsson A.
Science of The Total Environment. 2018 613-614 p.30
