期刊
SEPARATION AND PURIFICATION TECHNOLOGY
卷 308, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.seppur.2022.122943
关键词
Adsorption; Pd recycling; Nitric acid solution system; X-ray absorption fine structure spectroscopy; N-donor-type adsorbents
The separation of Pd(II) and Ag(I) in HNO3 solutions was investigated using N-donor-type adsorbents. R-IDA and R-Py showed efficient separation of Pd(II) from other metal ions, while R-Amine had lower adsorption. R-Py was the most effective adsorbent based on selectivity and desorption efficiency.
The HNO3 leaching process is used in recycling Pd metal from spent products that primarily contain Ag, and most Pd residues are separated from solutions containing Ag(I). However, a small amount of Pd(II) remains in these Ag (I) solutions. Therefore, the separation of Pd(II) and Ag(I) in HNO3 solutions is essential for promoting efficient Pd recycling. In this study, the separation of Pd(II) and Ag(I) in HNO3 solutions was investigated using four N -donor-type adsorbents bearing amine (R-Amine), iminodiacetic acid (R-IDA), pyridine (R-Py), and bis-picolylamine (R-BPA) functional groups. R-IDA and R-Py demonstrated efficient separation of Pd(II) (82 %- 99 %) from Ag(I), Cu(II), Ni(II), and Fe(III) (<3%) over a range of HNO3 concentrations (0.5-7 M for R-IDA and 0.3-7 M for R-Py). R-Amine showed similar selectivity but lower Pd(II) adsorption (<65 %). By contrast, R-BPA adsorbed Pd(II), Ag(I), and Cu(II) efficiently and non-selectively (>90 %; 0.3-5 M HNO3). Structural analyses of the adsorbed metal ions using Fourier-transform infrared and extended X-ray absorption fine structure spec-troscopies revealed the separation mechanisms of the N-donor-type adsorbents. Pd(II) adsorption on R-IDA, R-Py, and R-BPA occurred via Pd(II) coordination with their respective functional groups, whereas that on R -Amine occurred via anion exchange of NO3- with [Pd(NO3)(4)](2-). The coordinative adsorption mechanisms resulted in higher Pd(II) adsorption of R-IDA, R-Py, and R-BPA. HCl (5.0 M) eluents desorbed 83 % of Pd(II) from R-IDA, whereas thiourea eluents (0.1 M) desorbed 95 % of Pd(II) from R-Py. R-Py was the most effective Pd (II) adsorbent based on adsorption selectivity and desorption efficiency.
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