DOI: 10.1002/smll.202400679 ISSN: 1613-6810

Amorphous K–Co–Mo–Sx Chalcogel: A Synergy of Surface Sorption and Ion‐Exchange

Jing Nie, Taohedul Islam, Subrata Chandra Roy, Dien Li, Ruhul Amin, Kathryn Taylor‐Pashow, Xianchun Zhu, Renfei Feng, Roman Chernikov, Avijit Pramanik, Fengxiang X. Han, Amar S. Kumbhar, Saiful M. Islam
  • Biomaterials
  • Biotechnology
  • General Materials Science
  • General Chemistry

Abstract

Chalcogel represents a unique class of meso‐ to macroporous nanomaterials that offer applications in energy and environmental pursuits. Here, the synthesis of an ion‐exchangeable amorphous chalcogel using a nominal composition of K2CoMo2S10 (KCMS) at room temperature is reported. Synchrotron X‐ray pair distribution function (PDF), X‐ray absorption near‐edge structure (XANES), and extended X‐ray absorption fine structure (EXAFS) reveal a plausible local structure of KCMS gel consisting of Mo5+2 and Mo4+3 clusters in the vicinity of di/polysulfides which are covalently linked by Co2+ ions. The ionically bound K+ ions remain in the percolating pores of the Co–Mo–S covalent network. XANES of Co K‐edge shows multiple electronic transitions, including quadrupole (1s→3d), shakedown (1s→4p + MLCT), and dipole allowed 1s→4p transitions. Remarkably, despite a lack of regular channels as in some crystalline solids, the amorphous KCMS gel shows ion‐exchange properties with UO22+ ions. Additionally, it also presents surface sorption via [S∙∙∙∙UO22+] covalent interactions. Overall, this study underscores the synthesis of quaternary chalcogels incorporating alkali metals and their potential to advance separation science for cations and oxo‐cationic species by integrating a synergy of surface sorption and ion‐exchange.

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