The primary objective of this research is to address the energy challenges by introducing an innovative nanocomposite material. This material is designed to facilitate the conversion of environmentally friendly and economically viable Red Sea water into hydrogen gas. The ultimate goal of this work is to pave the way for the development of a practical device that can be employed within households and industrial settings to directly convert water into hydrogen gas. This novel nanocomposite material synthesized through oxidative polymerization comprises As2O3 and Poly-3-methylaniline (P3MA). This material possesses an extensive absorption range, spanning up to 700 nm, and features a bandgap of 1.75 eV, making it a promising candidate for use a...
International audienceThe preparation of a triptych nanomaterial made of TiO2 nanoparticles as semic...
The efficient conversion of light energy into chemical energy is key for sustainable human developme...
The study of the complex interfaces between organic semiconductors and liquids have recently gained ...
This study is very promising for providing a renewable enrgy (H2 gas fuel) under the elctrochemical ...
This study provides H2 gas as a renewable energy source from sewage water splitting reaction using a...
A floatable photocatalytic platform made from a porous elastomer-hydrogel nanocomposite has been dev...
<p>Nano-structures were investigated for the advancement of energy conversion technology because of ...
The photocatalytic production of hydrogen represents a fascinating way to convert and store solar en...
Fossil fuels have been critical to the development of modern society, but concerns over pollution, e...
Water shortages are anticipated to occur all over the world and are likely to have a significant eff...
The worldwide energy demand is expanding and demand for pure hydrogen is estimated around 70 Mt annu...
Global energy and environmental crisis have received enormous research attention for a long time. Fo...
© 2018 The Royal Society of Chemistry. A novel sunlight-water-energy nexus technology is presented t...
There is a global need to reduce the use of fossil fuels due to the negative impacts of anthropogeni...
Water shortages are anticipated to occur all over the world and are likely to have a significant eff...
International audienceThe preparation of a triptych nanomaterial made of TiO2 nanoparticles as semic...
The efficient conversion of light energy into chemical energy is key for sustainable human developme...
The study of the complex interfaces between organic semiconductors and liquids have recently gained ...
This study is very promising for providing a renewable enrgy (H2 gas fuel) under the elctrochemical ...
This study provides H2 gas as a renewable energy source from sewage water splitting reaction using a...
A floatable photocatalytic platform made from a porous elastomer-hydrogel nanocomposite has been dev...
<p>Nano-structures were investigated for the advancement of energy conversion technology because of ...
The photocatalytic production of hydrogen represents a fascinating way to convert and store solar en...
Fossil fuels have been critical to the development of modern society, but concerns over pollution, e...
Water shortages are anticipated to occur all over the world and are likely to have a significant eff...
The worldwide energy demand is expanding and demand for pure hydrogen is estimated around 70 Mt annu...
Global energy and environmental crisis have received enormous research attention for a long time. Fo...
© 2018 The Royal Society of Chemistry. A novel sunlight-water-energy nexus technology is presented t...
There is a global need to reduce the use of fossil fuels due to the negative impacts of anthropogeni...
Water shortages are anticipated to occur all over the world and are likely to have a significant eff...
International audienceThe preparation of a triptych nanomaterial made of TiO2 nanoparticles as semic...
The efficient conversion of light energy into chemical energy is key for sustainable human developme...
The study of the complex interfaces between organic semiconductors and liquids have recently gained ...