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Cited by 275 publications
(139 citation statements)
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References 40 publications
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“…Also, HA is added to some brands of toothpaste as a gentle polishing agent instead of calcium carbonate (Niwa et al 2001;Kim et al 2006). Non-biomedical applications of HA include its using as an environmentalfriendly filler for elastomers (Pietrasik et al 2008), a lowtemperature sorbent (Bailliez et al 2004;Corami et al 2008) and/or stabilizer (Wang et al 2014b) of poisonous chemical elements, a high-temperature sorbent for carbon dioxide (Landi et al 2014), both a catalyst Rodrigues et al 2014) and a carrier for other catalysts (Domínguez et al 2009;Sun et al 2009;Vukomanović et al 2012), a material for ultraviolet light protection (Holzmann et al 2009) and sunscreen filter (Piccirillo et al 2014), as well as a component of various sensors (Nagai et al 1988;Petrucelli et al 1996;Tagaya et al 2010;Khairnar et al 2011). Finally, highly flexible and nonflammable inorganic paper could be prepared from HA (Lu et al 2014a).…”
Section: Ha (Or Hap or Ohap)mentioning
confidence: 99%
“…Also, HA is added to some brands of toothpaste as a gentle polishing agent instead of calcium carbonate (Niwa et al 2001;Kim et al 2006). Non-biomedical applications of HA include its using as an environmentalfriendly filler for elastomers (Pietrasik et al 2008), a lowtemperature sorbent (Bailliez et al 2004;Corami et al 2008) and/or stabilizer (Wang et al 2014b) of poisonous chemical elements, a high-temperature sorbent for carbon dioxide (Landi et al 2014), both a catalyst Rodrigues et al 2014) and a carrier for other catalysts (Domínguez et al 2009;Sun et al 2009;Vukomanović et al 2012), a material for ultraviolet light protection (Holzmann et al 2009) and sunscreen filter (Piccirillo et al 2014), as well as a component of various sensors (Nagai et al 1988;Petrucelli et al 1996;Tagaya et al 2010;Khairnar et al 2011). Finally, highly flexible and nonflammable inorganic paper could be prepared from HA (Lu et al 2014a).…”
Section: Ha (Or Hap or Ohap)mentioning
confidence: 99%
“…Some of these mechanisms include: surface complexation, ion exchange, dissolution followed by the precipitation of metal phosphates, and the substitution of Ca 2+ present in the HAP structure by other divalent heavy metals during co-precipitation [16,18,28,34]. Literature presents very little information on the specific contribution of these processes, leading researchers to believe that they are all employed at the same time [16,34] (in aqueous solutions containing multiple competing heavy metal ions [33]). The sorption process of metal ions involves complex adsorption on the adsorption sites on the HAP surface [19].…”
Section: Metal Ions Removal From Mine Wastewater Samplesmentioning
confidence: 99%
“…The sorption process of metal ions involves complex adsorption on the adsorption sites on the HAP surface [19]. For the mechanism of ions retention, ion exchange was considered, for instance for Pb 2+ [1,15], where the incorporation of Pb in the HAP lattice was evidenced, or for Cd 2+ [33]. For Zn 2+ , Fe 2+ and Mn 2+ the formation of metal phosphates was considered [15], by dissolution of HAP and precipitation of phosphate ions with the heavy metal ions.…”
Section: Metal Ions Removal From Mine Wastewater Samplesmentioning
confidence: 99%
“…Adsorption process using activated carbon, widely used as an adsorbent, is among the most effective techniques for heavy metals removal from waste streams (Jusoh et al, 2007). In the last decades, there have been a great trend for using of low cost absorbents and different studies have demonstrated that natural agents have high removal capacity for divalent heavy metal ions (Ayyappana et al, 2005;Carrillo-Morales et al, 2001;Corami et al, 2008;Inglezakis et al, 2007;Naseem and Tahir, 2001). Different kinds of clays for removal of metal ions from aqueous solution have been studied and many factors effecting the absorbability of dissolved element, including chemical form of metal, pH, contact time, metal concentrations, presence of competing adsorbents, amount of sorbent, temperature, particle size and others have been distinguished (Benjamin et al, 1982;Farrah and Pickering, 1977;Johnson, 1990;Orumwenese Faraday, 1996).…”
Section: Introductionmentioning
confidence: 99%