Polyoxometalate-based electron transfer modulation for efficient electrocatalytic carbon dioxide reduction

Abstract: The electrocatalytic carbon dioxide (CO 2 ) reduction reaction (CO 2 RR) involves a variety of electron transfer pathways, resulting in poor reaction selectivity, limiting its use to meet future energy requirements.Polyoxometalates (POMs) can both store and release multiple electrons in the electrochemical process, and this is expected to be an ideal "electron switch" to match with catalytically active species, realize electron transfer modulation and promote the activity and selectivity of the electrocatalyti… Show more

“…Different NO concentrations have almost no effect on the current density of MoS 2 /GF, which may be due to the saturation of the dissolved NO in the electrolyte. We measured the electron transfer process in the reduction electrolysis in the presence and absence of NO (Figure S3) and the observation of two semicircles with NO gas (blue line in Figure S3) suggesting two kinds of reaction pathways for MoS 2 /GF catalyst [45] . The NORR activity of MoS 2 /GF was also evaluated in alkaline media, as shown in Figure S4.…”

High‐Performance Electrochemical NO Reduction into NH₃ by MoS₂ Nanosheet

“…Different NO concentrations have almost no effect on the current density of MoS 2 /GF, which may be due to the saturation of the dissolved NO in the electrolyte. We measured the electron transfer process in the reduction electrolysis in the presence and absence of NO (Figure S3) and the observation of two semicircles with NO gas (blue line in Figure S3) suggesting two kinds of reaction pathways for MoS 2 /GF catalyst [45] . The NORR activity of MoS 2 /GF was also evaluated in alkaline media, as shown in Figure S4.…”

High‐Performance Electrochemical NO Reduction into NH₃ by MoS₂ Nanosheet

“…POMs are significantly able to adapt with and deliver a special number of electrons without any change or decomposition in their construction. Isopolyanions (IPAs) and heteropolyanions (HPAs) are components of POMs and are repeatedly created into aqueous media [32][33][34]. Besides, the oxoanions are occasionally assembled in a non-aqueous medium or a solid state as in minerals.…”

Application of Polyoxometalate-based composites for sensor systems: A review

“…In classic electrochemical theory, both the electron transfer rate and the adsorption of reactants at the electrode control the electrochemical reaction. [30][31][32] Typically, the adsorption ability of the reactants in different regions of the material varies, 33 which is an important factor resulting in the unsynchronized electrochemical reaction and heterogeneous electrocatalytic activity at the surface. 3 Accordingly, some active sites with a greater number of adsorbed reactants (labeled in red in Part i of Figure 1a) must be present at the electrode that emit a brighter ECL compared with the ECL intensity in the surrounding regions with fewer adsorbed reactants.…”

High-resolution imaging of catalytic activity of a single graphene sheet using electrochemiluminescence microscopy