Alkaline Co(OH)₂-Decorated 2D Monolayer Titanic Acid Nanosheets for Enhanced Photocatalytic Syngas Production from CO₂

Abstract: The difficulty of adsorption and activation of CO2 at the catalytic site and rapid recombination of photogenerated charge carriers severely restrict the CO2 conversion efficiency. Here, we fabricate a novel alkaline Co­(OH)2-decorated ultrathin 2D titanic acid nanosheet (H2Ti6O13) catalyst, which rationally couples the structural and functional merits of ultrathin 2D supports with catalytically active Co species. Alkaline Co­(OH)2 beneficially binds and activates CO2 molecules, while monolayer H2Ti6O13 acts as… Show more

“…To further study the influence of the introduction of GO and Pt on charge separation and migration, a series of photoelectrochemical characterizations over blank CsPbBr 3 , CPB/GO, and CPB/GO-Pt composites have been carried out. As shown in Figure 2A , the photocurrent response tests of these samples reveal that the CPB/GO-Pt hybrid composite (taking CPB/1.0% GO-1%Pt with optimal photoactivity as an example) displays higher current density than blank CsPbBr 3 and CPB/GO samples, indicating a more efficient separation of the photogenerated carrier ( Liao et al, 2021 ). Figure 2B presents the electrochemical impedance spectroscopy (EIS) study of these samples, which is employed to study the charge transfer resistance of the samples.…”

Photocatalytic Anaerobic Oxidation of Aromatic Alcohols Coupled With H2 Production Over CsPbBr3/GO-Pt Catalysts

“…To further study the influence of the introduction of GO and Pt on charge separation and migration, a series of photoelectrochemical characterizations over blank CsPbBr 3 , CPB/GO, and CPB/GO-Pt composites have been carried out. As shown in Figure 2A , the photocurrent response tests of these samples reveal that the CPB/GO-Pt hybrid composite (taking CPB/1.0% GO-1%Pt with optimal photoactivity as an example) displays higher current density than blank CsPbBr 3 and CPB/GO samples, indicating a more efficient separation of the photogenerated carrier ( Liao et al, 2021 ). Figure 2B presents the electrochemical impedance spectroscopy (EIS) study of these samples, which is employed to study the charge transfer resistance of the samples.…”

Photocatalytic Anaerobic Oxidation of Aromatic Alcohols Coupled With H2 Production Over CsPbBr3/GO-Pt Catalysts

“…21,28 As we have mentioned earlier, different approaches have been adopted from time to time for syngas production, but the solar-driven approach is one of the pioneering ones. 16,26,29 Over a decade, numerous studies have been conducted on photocatalytic CO 2 reduction and significant efforts have been made to develop new photocatalytic systems to increase photocatalytic performance. [30][31][32][33][34] In addition, there are plenty of reviews and perspectives on photocatalytic CO 2 reduction that mainly discuss the challenges in CO 2 photoreduction for solar fuel production, the different types of photocatalytic systems for CO 2 reduction, improvement in the photo selectivity of solar fuels, and advancements in the structural engineering of photocatalysts for solar-driven CO 2 reduction into fuels.…”

“…21,28 As we have mentioned earlier, different approaches have been adopted from time to time for syngas production, but the solar-driven approach is one of the pioneering ones. 16,26,29 Over a decade, numerous studies have been conducted on photocatalytic CO 2 reduction and significant efforts have been made to develop new photocatalytic systems to increase photocatalytic performance. 30–34…”

A critical review on emerging photocatalysts for syngas generation via CO₂ reduction under aqueous media: a sustainable paradigm

“…The huge consumption of global energy causes a sharp reduction of traditional fossil fuels and increases the concentration of atmospheric CO 2 that induces severe environmental issues including global warming and ocean acidification. − Using photocatalytic technology to decompose water and reduce carbon dioxide for producing “solar fuel” is an effective method to alleviate energy shortage and natural environment deterioration. − Syngas, a mixture of H 2 and CO, is a critical raw material for the production of bulk chemicals and active alternative fuel through the Fischer–Tropsch processing. The control of the CO/H 2 ratio in syngas is very important for the synthesis of useful chemicals, and generally CO/H 2 mixtures with a ratio of 1:1 or 1:2 can produce aldehydes or methanol. , However, less effort has been made in photocatalytic controllable syngas generation than pure H 2 and CO production. − In 1983, Lehn and co-workers initially developed several Re­(bipy)­(CO) 3 X complexes for photocatalytic conversion of CO 2 to CO, which attracted much attention due to their effectiveness and selectivity . In 2015, Reisner and co-workers immobilized a Re bipyridine photocatalyst fac-[Re­(2,2′-bipyridine-4,4′-bisphosphonic acid)­(CO) 3 (Cl)] (ReP) on TiO 2 particles to form heterogeneous catalysts, obtaining significantly enhanced durability and activity .…”

Controllable Visible-Light-Driven Syngas Evolution by a Ternary Titania Hybrid Sacrificial System with a Photosensitive Metal–Organic Pd^II Cage and Re^I Catalyst