Mesoporous single crystals (MSCs) rendering highly accessible surface area and long-range electron conductivity are extremely significant in many fields, including catalyst, solar fuel, and electrical energy storage technologies. Hematite semiconductor, whose performance has been crucially limited by its pristine poor charge separation efficiency in solar water splitting, should benefit from this strategy. Despite successful synthesis of many metal oxide MSCs, the fabrication of hematite MSCs remains to be a great challenge due to its quite slow hydrolysis rate in water. Herein, for the first time, we have developed a synthetic strategy to prepare hematite MSCs and systematically investigated their growth mechanism. The electrode fabricated...
The production of solar fuels, i.e. energy-rich molecules obtained from sunlight-driven processes, r...
DoctorHematite (-Fe2O3) is a photoactive material which is widely investigated in the research field...
Hematite (α-Fe₂O₃) is one of the most promising candidates as a photoanode materials for solar water...
Solar energy is inexhaustible but variable during the day and the seasons. Photoelectrolysis of wate...
The environmental effect of atmospheric CO2 associated with other geopolitical and economic problems...
We introduce a simple solution-based strategy to decouple morphological and functional effects of an...
Solar assisted water splitting in a PEC is an attractive concept to store solar energy as hydrogen f...
AbstractDue to the band gap of hematite (α-Fe2O3, Eg = 2.1 eV) in visible light region, it was regar...
Solar water splitting is an environmentally friendly reaction of producing hydrogen gas. Since Honda...
A hematite photoanode showing a stable, record-breaking performance of 4.32 mA/cm(2) photoelectroche...
Photoelectrochemical (PEC) cells are attractive for storing solar energy in chemical bonds through c...
In solar water splitting, the abundant and sustainable solar radiation is directly utilized to split...
peer reviewed(Graph Presented). In this study, we report the synthesis of Ti-doped mesoporous hemati...
Department of Energy Engineering (Energy Engineering)Due to the declining fossil fuel and growing en...
High dependency of fossil fuels to maintain human lifestyle cause serious environmental issues to ou...
The production of solar fuels, i.e. energy-rich molecules obtained from sunlight-driven processes, r...
DoctorHematite (-Fe2O3) is a photoactive material which is widely investigated in the research field...
Hematite (α-Fe₂O₃) is one of the most promising candidates as a photoanode materials for solar water...
Solar energy is inexhaustible but variable during the day and the seasons. Photoelectrolysis of wate...
The environmental effect of atmospheric CO2 associated with other geopolitical and economic problems...
We introduce a simple solution-based strategy to decouple morphological and functional effects of an...
Solar assisted water splitting in a PEC is an attractive concept to store solar energy as hydrogen f...
AbstractDue to the band gap of hematite (α-Fe2O3, Eg = 2.1 eV) in visible light region, it was regar...
Solar water splitting is an environmentally friendly reaction of producing hydrogen gas. Since Honda...
A hematite photoanode showing a stable, record-breaking performance of 4.32 mA/cm(2) photoelectroche...
Photoelectrochemical (PEC) cells are attractive for storing solar energy in chemical bonds through c...
In solar water splitting, the abundant and sustainable solar radiation is directly utilized to split...
peer reviewed(Graph Presented). In this study, we report the synthesis of Ti-doped mesoporous hemati...
Department of Energy Engineering (Energy Engineering)Due to the declining fossil fuel and growing en...
High dependency of fossil fuels to maintain human lifestyle cause serious environmental issues to ou...
The production of solar fuels, i.e. energy-rich molecules obtained from sunlight-driven processes, r...
DoctorHematite (-Fe2O3) is a photoactive material which is widely investigated in the research field...
Hematite (α-Fe₂O₃) is one of the most promising candidates as a photoanode materials for solar water...