Email this article Removal of heavy metal ions by biogenic hydroxyapatite: Morphology influence and mechanism study
- Authors: Wang D.1, Guan X.1, Huang F.1, Li S.1, Shen Y.1, Chen J.2, Long H.1
-
Affiliations:
- School of Chemistry and Chemical Engineering
- Department of Chemistry and Chemical Engineering
- Issue: Vol 90, No 8 (2016)
- Pages: 1557-1562
- Section: Chemical Kinetics and Catalysis
- URL: https://journals.rcsi.science/0036-0244/article/view/168569
- DOI: https://doi.org/10.1134/S0036024416080069
- ID: 168569
Cite item
Open Access
Access granted
Subscription Access
Abstract
Based on the synthesis of hydroxyapatite (HA) with different morphologies, such as nanorod-like, flower-like and sphere-like assembled HA nanorods, a new strategy has been developed for the removal of heavy metal ions such as Pb2+, Cu2+, Mn2+, Zn2+. The dependence of removal efficiency on the morphology and the suspended concentration of trapping agent, the removal time and selectivity were evaluated and discussed. The experimental results proved that the removal capacity of flower-like assembled HA nanorods (NAFL-HA) was the best, and the maximum removal ratio for Pb2+ ion was 99.97%. The mechanism of Pb2+ removal was studied in detail, noting that some metal ions were completely incorporated into hydroxyapatitie to produce Pb-HA. It reveals that the metal ions capture by HA is mainly controlled by sample surface adsorption and co-precipitation, which are directly controlled by sample morphology.
Keywords
About the authors
Dandan Wang
School of Chemistry and Chemical Engineering
Email: huangfangzhi@163.com
China, Hefei, 230039
Xiaomei Guan
School of Chemistry and Chemical Engineering
Email: huangfangzhi@163.com
China, Hefei, 230039
Fangzhi Huang
School of Chemistry and Chemical Engineering
Author for correspondence.
Email: huangfangzhi@163.com
China, Hefei, 230039
Shikuo Li
School of Chemistry and Chemical Engineering
Email: huangfangzhi@163.com
China, Hefei, 230039
Yuhua Shen
School of Chemistry and Chemical Engineering
Email: huangfangzhi@163.com
China, Hefei, 230039
Jun Chen
Department of Chemistry and Chemical Engineering
Email: huangfangzhi@163.com
China, Maanshan, 230601
Haibo Long
School of Chemistry and Chemical Engineering
Email: huangfangzhi@163.com
China, Hefei, 230039
