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Electrocatalytic Hydrogen Evolution by a Uranium(VI) Polyoxometalate: an Environmental Toxin for Sustainable Energy Generation.

Sateesh MulkapuriAsha SiddikhaAthira RaviPinki SahaAvulu Vinod KumarSathyanarayana BoodidaMuga VithalSamar K Das
Published in: Inorganic chemistry (2023)
The uranyl ion (UO 2 ) 2+ , a uranium nuclear waste, is one of the serious contaminants in our ecosystem because of its radioactivity, relevant human activities, and highly mobile and complex nature of living cells. In this article, we have reported the synthesis and structural characterization of an uranyl cation-incorporated polyoxometalate (POM) compound, K 10 [{K 4 (H 2 O) 6 }{UO 2 } 2 (α-PW 9 O 34 ) 2 ]·13H 2 O ( 1 ), in which the uranyl cations are complexed with an in situ generated [α-PW 9 O 34 ] 9- cluster. Single-crystal X-ray diffraction (SCXRD) analysis of compound 1 reveals that the uranyl-potassium complex cationic species, [{K 4 (H 2 O) 6 }{UO 2 } 2 ] 8+ , is sandwiched by two [α-PW 9 O 34 ] 9- clusters resulting in a Dawson type of POM. Compound 1 was further characterized by inductively coupled plasma optical emission spectroscopy (ICP-OES) analysis and infrared (IR), Raman, electronic absorption, and solid-state photoluminescence spectral studies. IR stretching vibrations at 895 and 856 cm -1 and the Raman signature peak at 792 cm -1 in the IR and Raman spectra of compound 1 primarily confirm the presence of a trans -[O═U═O] 2+ ion. The solid-state photoluminescence spectrum of 1 exhibits a typical vibronic structure, resulting from symmetrical vibrations of [O═U═O] 2+ bands, corresponding to the electronic transitions of S 11 → S 10 and S 10 → S 0 υ (υ = 0-3). Interestingly, title compound 1 shows efficient electrocatalytic hydrogen evolution by water reduction with low Tafel slope values of 186.59 and 114.83 mV dec -1 at 1 mA cm -2 along with optimal Faradaic efficiency values of 82 and 87% at neutral pH and in acidic pH 3, respectively. Detailed electrochemical analyses reveal that the catalytic hydrogen evolution reaction (HER) activity mediated by compound 1 is associated with the U VI /U V redox couple of the POM. The microscopic as well as routine spectral analyses of postelectrode samples and controlled experiments have confirmed that compound 1 behaves like a true molecular electrocatalyst for the HER. To our knowledge, this is the first paradigm of a uranium-containing polyoxometalate that exhibits electrocatalytic water reduction to molecular H 2 . In a nutshell, an environmental toxin (a uranium-oxo compound) has been demonstrated to be utilized as an efficient electrocatalyst for hydrogen generation from water, a green approach of sustainable energy production.
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