Solar-driven thermo-photocatalytic CO2 methanation over a structured RuO2:TiO2/SBA-15 nanocomposite at low temperature

“…Therefore, most conversion procedures require high energy input and suitable catalysts, which usually present limited activity and low stability. This makes necessary to research new catalysts that would meet these challenging requirements . Nevertheless, catalysis allows the transformation and simultaneous valorization of the molecule, a competitive advantage over other technologies, with a capital contribution to the circular economy and green chemistry. , …”

“…This makes necessary to research new catalysts that would meet these challenging requirements. 12 Nevertheless, catalysis allows the transformation and simultaneous valorization of the molecule, a competitive advantage over other technologies, with a capital contribution to the circular economy and green chemistry. 10,13 Most of the current solutions to catalytically transform the CO 2 molecule are based on conventional, thermal processes, although electro-and photobased processes have emerged in relatively recent dates.…”

“…This makes necessary to research new catalysts that would meet these challenging requirements. 12 Nevertheless, catalysis allows the transformation and simultaneous valorization of the molecule, a competitive advantage over other technologies, with a capital contribution to the circular economy and green chemistry. 10 , 13 …”

Role of Atomicity and Interface on InO_x-TiO₂ Composites: Thermo-Photo Valorization of CO₂

“…Therefore, most conversion procedures require high energy input and suitable catalysts, which usually present limited activity and low stability. This makes necessary to research new catalysts that would meet these challenging requirements . Nevertheless, catalysis allows the transformation and simultaneous valorization of the molecule, a competitive advantage over other technologies, with a capital contribution to the circular economy and green chemistry. , …”

“…This makes necessary to research new catalysts that would meet these challenging requirements. 12 Nevertheless, catalysis allows the transformation and simultaneous valorization of the molecule, a competitive advantage over other technologies, with a capital contribution to the circular economy and green chemistry. 10,13 Most of the current solutions to catalytically transform the CO 2 molecule are based on conventional, thermal processes, although electro-and photobased processes have emerged in relatively recent dates.…”

“…This makes necessary to research new catalysts that would meet these challenging requirements. 12 Nevertheless, catalysis allows the transformation and simultaneous valorization of the molecule, a competitive advantage over other technologies, with a capital contribution to the circular economy and green chemistry. 10 , 13 …”

Role of Atomicity and Interface on InO_x-TiO₂ Composites: Thermo-Photo Valorization of CO₂

Fabrication of novel polyethersulfone (PES) photocatalytic membranes with excellent permeability and antifouling properties using TiO2–AgBr–Ag–SBA-15 nanofillers for cefixime removal

Green and sustainable synthesis of mesoporous silica from agricultural biowaste and functionalized with TiO2 nanoparticles for highly photoactive performance