Add to ORKGSolar energy is an efficient source that provides enough power for all global energy demands if it can efficiently harvested. The more elegant, practical and potentially more efficient way to store this huge energy is fix this electromagnetic energy to molecular bonds in the form of chemical energy as analogous to photosynthesis process exploit by nature[Allen J bard, 1995]. In the view of simplicity and ecology, Photoelectrolysis is very promising technique for photoelectrochemical conversion of solar energy. Hematite (α-Fe2O), a binary metal oxide material, is n type in its pure form crystallizes in corundum structure. Due to its significant light absorption, abundance, chemical stability in an aqueous environment and low cost, it emer...
Thermal oxidation of Fe to nanostructured hematite (wires, flakes) is currently widely investigated ...
Photoelectrochemical (PEC) solar water splitting represents a clean and sustainable approach for hyd...
Photoelectrochemical water splitting has gained considerable interest in the past few decades becaus...
Solar water splitting is an environmentally friendly reaction of producing hydrogen gas. Since Honda...
One of the greatest issues facing society today is finding a renewable energy source to power our wo...
The production of solar fuels, i.e. energy-rich molecules obtained from sunlight-driven processes, r...
DoctorHydrogen is very promising fuel that may become one of the important energy carrier to meet ou...
Solar hydrogen has the potential to replace fossil fuels with a sustainable energy carrier that can ...
One possibility to partially satisfy the ever-increasing energy needs of modern society, without com...
Photoelectrochemical solar cells are promising because of their low cost and fabrication process. Ir...
High dependency of fossil fuels to maintain human lifestyle cause serious environmental issues to ou...
DoctorHematite (-Fe2O3) is a photoactive material which is widely investigated in the research field...
In solar water splitting, the abundant and sustainable solar radiation is directly utilized to split...
AbstractDue to the band gap of hematite (α-Fe2O3, Eg = 2.1 eV) in visible light region, it was regar...
International audienceThe perfomance of hematite and Ti-substituted hematite nanorods as photoanodes...
Thermal oxidation of Fe to nanostructured hematite (wires, flakes) is currently widely investigated ...
Photoelectrochemical (PEC) solar water splitting represents a clean and sustainable approach for hyd...
Photoelectrochemical water splitting has gained considerable interest in the past few decades becaus...
Solar water splitting is an environmentally friendly reaction of producing hydrogen gas. Since Honda...
One of the greatest issues facing society today is finding a renewable energy source to power our wo...
The production of solar fuels, i.e. energy-rich molecules obtained from sunlight-driven processes, r...
DoctorHydrogen is very promising fuel that may become one of the important energy carrier to meet ou...
Solar hydrogen has the potential to replace fossil fuels with a sustainable energy carrier that can ...
One possibility to partially satisfy the ever-increasing energy needs of modern society, without com...
Photoelectrochemical solar cells are promising because of their low cost and fabrication process. Ir...
High dependency of fossil fuels to maintain human lifestyle cause serious environmental issues to ou...
DoctorHematite (-Fe2O3) is a photoactive material which is widely investigated in the research field...
In solar water splitting, the abundant and sustainable solar radiation is directly utilized to split...
AbstractDue to the band gap of hematite (α-Fe2O3, Eg = 2.1 eV) in visible light region, it was regar...
International audienceThe perfomance of hematite and Ti-substituted hematite nanorods as photoanodes...
Thermal oxidation of Fe to nanostructured hematite (wires, flakes) is currently widely investigated ...
Photoelectrochemical (PEC) solar water splitting represents a clean and sustainable approach for hyd...
Photoelectrochemical water splitting has gained considerable interest in the past few decades becaus...