Journal of Physical Chemistry C
Journal of Physical Chemistry C
5 years ago

Progress toward Zeolite-Based Self-Luminous Sensors for Radioactive Isotopes such as 201Tl and 137Cs: Structures and Luminescence of Hf,Cl,Tl-A and Hf,Cl,Cs,Na-A

Progress toward Zeolite-Based Self-Luminous Sensors for Radioactive Isotopes such as 201Tl and 137Cs: Structures and Luminescence of Hf,Cl,Tl-A and Hf,Cl,Cs,Na-A
Nam Ho Heo, Karl Seff, Hong Joo Kim, Joon Young Kim
Smart materials that both sorb and announce the presence of radioactive isotopes such as 201Tl and 137Cs are needed for human safety in environmental catastrophies. This study reports progress toward zeolite-based self-luminous sensors for radioactive isotopes. Hf4+ was introduced into zeolite A by treating Tl-A and Cs,Na-A with HfCl4(g) under anhydrous conditions. The crystal structures of the products, Hf,Cl,Tl-A and Hf,Cl,Cs,Na-A, were determined by single-crystal crystallography using synchrotron X-radiation, with compositional confirmation by SEM-EDX analysis. Their luminescence properties upon X-ray, UV, and proton beam irradiation were studied. In Hf,Cl,Tl-A, some Hf4+ ions are 3-coordinate with three framework oxygen atoms of 6-rings; octahedral HfCl62– ions are at the very centers of 7% of the large cavities within Tl14HfCl612+ clusters. HfCl62– ions are also seen in Hf,Cl,Cs,Na-A; they similarly occupy 7% of the large cavities and are members of a Cs11HfCl69+ continuum. The X-ray-induced luminescence spectra of Hf,Cl,Tl-A and Hf,Cl,Cs,Na-A, and that of Hf,Cl,Tl-A induced by UV, are all broad bands from 300 to 720 nm, peaking near 400 nm. By comparisons with the corresponding spectra of Zr,Cl,Tl-A, Zr,Cl,Cs,Na-A, Cs2HfCl6, and Cs2ZrCl6, several luminescence mechanisms are proposed. These zeolite-based materials can be expected to emit light (be self-luminous) as radioactive isotopes exchange into them.

Publisher URL: http://dx.doi.org/10.1021/acs.jpcc.7b05641

DOI: 10.1021/acs.jpcc.7b05641

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