Nanostructured metal oxide semiconductors have shown outstanding performances in photoelectrochemical (PEC) water splitting, but limitations in light harvesting and charge collection have necessitated further advances in photoelectrode design. Herein, we propose anodized Fe foams (AFFs) with multidimensional nano/micro-architectures as a highly efficient photoelectrode for PEC water splitting. Fe foams fabricated by freeze-casting and sintering were electrochemically anodized and directly used as photoanodes. We verified the superiority of our design concept by achieving an unprecedented photocurrent density in PEC water splitting over 5 mA cm−2 before the dark current onset, which originated from the large surface area and low electrical r...
Photoelectrochemical (PEC) solar water splitting represents a clean and sustainable approach for hyd...
International audiencesources is inalienable. Among renewable energy resources, the sun is the most ...
We report great enhancement in photoelectrochemical water splitting efficiency of hematite assisted ...
Nanostructured metal oxide semiconductors have shown outstanding performances in photoelectrochemica...
Nanostructured metal oxide semiconductors have shown outstanding performances in photoelectrochemica...
The need to satisfy the growing global population's enormous energy demands is a major challenge for...
Mesoscopic solar cells based on nanostructured oxide semiconductors are considered as a promising ca...
An ultrathin FeOOH cocatalyst is deposited on α-Fe2O3 photoanodes in a simple room temperature immer...
Patterned FTO was fabricated via a facile method as an efficient current collector in a photoelectro...
Photonic nanostructures hold great promise in promoting light harvesting. Here we report the first d...
There is a global need to reduce the use of fossil fuels due to the negative impacts of anthropogeni...
We report the photoelectrochemical (PEC) performance of a densely grown single crystalline hematite ...
Solar hydrogen has the potential to replace fossil fuels with a sustainable energy carrier that can ...
DoctorHematite (-Fe2O3) is a photoactive material which is widely investigated in the research field...
Photoelectrochemical (PEC) water splitting has been widely researched since 1970s as it is a promisi...
Photoelectrochemical (PEC) solar water splitting represents a clean and sustainable approach for hyd...
International audiencesources is inalienable. Among renewable energy resources, the sun is the most ...
We report great enhancement in photoelectrochemical water splitting efficiency of hematite assisted ...
Nanostructured metal oxide semiconductors have shown outstanding performances in photoelectrochemica...
Nanostructured metal oxide semiconductors have shown outstanding performances in photoelectrochemica...
The need to satisfy the growing global population's enormous energy demands is a major challenge for...
Mesoscopic solar cells based on nanostructured oxide semiconductors are considered as a promising ca...
An ultrathin FeOOH cocatalyst is deposited on α-Fe2O3 photoanodes in a simple room temperature immer...
Patterned FTO was fabricated via a facile method as an efficient current collector in a photoelectro...
Photonic nanostructures hold great promise in promoting light harvesting. Here we report the first d...
There is a global need to reduce the use of fossil fuels due to the negative impacts of anthropogeni...
We report the photoelectrochemical (PEC) performance of a densely grown single crystalline hematite ...
Solar hydrogen has the potential to replace fossil fuels with a sustainable energy carrier that can ...
DoctorHematite (-Fe2O3) is a photoactive material which is widely investigated in the research field...
Photoelectrochemical (PEC) water splitting has been widely researched since 1970s as it is a promisi...
Photoelectrochemical (PEC) solar water splitting represents a clean and sustainable approach for hyd...
International audiencesources is inalienable. Among renewable energy resources, the sun is the most ...
We report great enhancement in photoelectrochemical water splitting efficiency of hematite assisted ...