Add to ORKGAccessing the intrinsic hydrogen content within ammonia, NH3, has the potential to play a very significant role in the future of a CO2-free sustainable energy supply. Inexpensive light metal imides and amides are effective at decomposing ammonia to hydrogen and nitrogen (2NH3 → 3H2 + N2), at modest temperatures, and thus represent a low-cost approach to on-demand hydrogen production. Building upon this discovery, this paper describes the integration of an ammonia cracking unit with a post-reactor gas purification system and a small-scale PEM fuel cell to create a first bench-top demonstrator for the production of hydrogen using light metal imides
Catalytic decomposition of ammonia has been investigated as a method to produce hydrogen for fuel ce...
This paper reviews many aspects of the use of ammonia as a renewable fuel, including the properties ...
We have investigated hydrogen storage materials composed of light elements such as MgH2, Metal-N-H, ...
Accessing the intrinsic hydrogen content within ammonia, NH3, has the potential to play a very signi...
Hydrogen has long been touted as an alternative fuel which could form the basis of a sustainable ene...
The catalytic decomposition of ammonia to hydrogen is a vital process in the use of ammonia as a zer...
Because of the problems associated with the generation and storage of hydrogen in portable applicati...
Hydrogen is often regarded as an ideal energy carrier. Its use in energy conversion devices does in ...
Ammonia is a promising carbon-free energy carrier, but is currently synthesized industrially under h...
We demonstrate that non-stoichiometric lithium imide is a highly active catalyst for the production ...
This report focuses on the feasibility of the power-to-ammonia concept. Power-to-ammonia uses produc...
Ammonia is a well known hydrogen carrier which can be effectively utilized as a fuel in internal com...
Global energy sources are being transformed from hydrocarbon-based energy sources to renewable and c...
Global energy sources are being transformed from hydrocarbon-based energy sources to renewable and c...
Our current reliance on fossil fuels is highly unsustainable due to their limited supply and environ...
Catalytic decomposition of ammonia has been investigated as a method to produce hydrogen for fuel ce...
This paper reviews many aspects of the use of ammonia as a renewable fuel, including the properties ...
We have investigated hydrogen storage materials composed of light elements such as MgH2, Metal-N-H, ...
Accessing the intrinsic hydrogen content within ammonia, NH3, has the potential to play a very signi...
Hydrogen has long been touted as an alternative fuel which could form the basis of a sustainable ene...
The catalytic decomposition of ammonia to hydrogen is a vital process in the use of ammonia as a zer...
Because of the problems associated with the generation and storage of hydrogen in portable applicati...
Hydrogen is often regarded as an ideal energy carrier. Its use in energy conversion devices does in ...
Ammonia is a promising carbon-free energy carrier, but is currently synthesized industrially under h...
We demonstrate that non-stoichiometric lithium imide is a highly active catalyst for the production ...
This report focuses on the feasibility of the power-to-ammonia concept. Power-to-ammonia uses produc...
Ammonia is a well known hydrogen carrier which can be effectively utilized as a fuel in internal com...
Global energy sources are being transformed from hydrocarbon-based energy sources to renewable and c...
Global energy sources are being transformed from hydrocarbon-based energy sources to renewable and c...
Our current reliance on fossil fuels is highly unsustainable due to their limited supply and environ...
Catalytic decomposition of ammonia has been investigated as a method to produce hydrogen for fuel ce...
This paper reviews many aspects of the use of ammonia as a renewable fuel, including the properties ...
We have investigated hydrogen storage materials composed of light elements such as MgH2, Metal-N-H, ...