Phosphomolybdates for Dual-Mode Photoelectrochemical Sensing toward Trace Chromium(VI) and Tetracycline.

Highly sensitive photoelectrochemical (PEC) sensors for trace carcinogens, such as heavy metal chromium(VI) [Cr(VI)] and antibiotic tetracycline (TC) are crucial. Herein, by integration of photoactive and redox phosphomolybdates with conjugated organic components, types of dual-mode PEC sensors were synthesized for sensing trace Cr(VI) and TC pollutants, with formulas of (Hbimb)[Co(bimb)][Co(HO)][Co(PMoOH)]·6HO (), (Hbib)[Co(HO)][Co(HO)][Co(PMoOH)]·9HO (), and (Hbib)[Co(Hbib)(HO)][Co(PMoOH)]·15HO (), where bimb represents 1,4-bis(1-imidazolyl)benzene and bib is 4,4'-bis(imidazolyl)bibphenyl. Hybrid consisted of a three-dimensional framework structure constructed by Co{PMo} clusters and one-dimensional (1D) {Co-bimb} chains, hybrid exhibited 1D Co ion-bridged Co{PMo} chains hydrogen-bonding with [Hbib] cations, and hybrid showed a discrete hybrid structure built upon a Co{PMo} cluster modified by the {Co-bib} unit. Hybrids - displayed wide spectral absorption and excellent electrochemical redox properties, enabling dual-mode PEC responses to Cr(VI) reduction and TC oxidation. For Cr(VI) detection, hybrids - exhibited high sensitivities of 364.40, 225.72, and 124.29 μA·μM as well as "nM" level detection limits (LODs) of 4.9, 10.0, and 11.0 nM, respectively. For TC detection, the sensitivities of hybrids - were 494.72, 308.78, and 174.03 μA·μM and the LODs were 5.2, 6.1, and 12.9 nM, respectively. This research offers significant insights into designing efficient PEC sensors for the detection of environmental pollutants.