Add to ORKGAmmonia decomposition using 15N labelled ammonia was performed over a lithium imide catalyst with mass spectrometry. The results show that all the nitrogen is released from the bulk of the lithium imide catalyst during the ammonia decomposition reaction, but that the decomposition itself occurs at the catalyst surface; they also indicate that lithium imide decomposes ammonia and does not merely act as a promoter to transition metal catalysts
Optimum conditions for the lithium-liquid ammonia reduction of 4-t-butylcyclohexyl methanesulfonate(...
Accessing the intrinsic hydrogen content within ammonia, NH3, has the potential to play a very signi...
In previous experiments III this series, nitrogen-15 was used as a tracer over a singly-promoted iro...
© 2016 The Royal Society of Chemistry.Lithium-calcium imide is explored as a catalyst for the decomp...
We demonstrate that non-stoichiometric lithium imide is a highly active catalyst for the production ...
We demonstrate that the ammonia decomposition reaction catalysed by sodium amide proceeds under a di...
Lithium imide is a promising new catalyst for the production of hydrogen from ammonia. Its catalytic...
The catalytic decomposition of ammonia to hydrogen is a vital process in the use of ammonia as a zer...
To substitute the energy-intensive Haber-Bosch process for the synthesis of ammonia, some labile tec...
Lithium amide-imide is an excellent ammonia decomposition catalyst, but its highly reactive nature m...
Lithium amide-imide is an excellent ammonia decomposition catalyst, but its highly reactive nature m...
The decomposition of lithium imide (Li2NH) is an important step for hydrogen storage in Li3N. In thi...
The electrochemical synthesis of ammonia from nitrogen under mild conditions using renewable electri...
In this work, nitrogenation, ammonia generation, regeneration reactions of lithium-tin alloy is inve...
Ammonia decomposition over nitrided MoNx/alpha-Al2O3 and NiMoNy/alpha-Al2O3 catalysts was investigat...
Optimum conditions for the lithium-liquid ammonia reduction of 4-t-butylcyclohexyl methanesulfonate(...
Accessing the intrinsic hydrogen content within ammonia, NH3, has the potential to play a very signi...
In previous experiments III this series, nitrogen-15 was used as a tracer over a singly-promoted iro...
© 2016 The Royal Society of Chemistry.Lithium-calcium imide is explored as a catalyst for the decomp...
We demonstrate that non-stoichiometric lithium imide is a highly active catalyst for the production ...
We demonstrate that the ammonia decomposition reaction catalysed by sodium amide proceeds under a di...
Lithium imide is a promising new catalyst for the production of hydrogen from ammonia. Its catalytic...
The catalytic decomposition of ammonia to hydrogen is a vital process in the use of ammonia as a zer...
To substitute the energy-intensive Haber-Bosch process for the synthesis of ammonia, some labile tec...
Lithium amide-imide is an excellent ammonia decomposition catalyst, but its highly reactive nature m...
Lithium amide-imide is an excellent ammonia decomposition catalyst, but its highly reactive nature m...
The decomposition of lithium imide (Li2NH) is an important step for hydrogen storage in Li3N. In thi...
The electrochemical synthesis of ammonia from nitrogen under mild conditions using renewable electri...
In this work, nitrogenation, ammonia generation, regeneration reactions of lithium-tin alloy is inve...
Ammonia decomposition over nitrided MoNx/alpha-Al2O3 and NiMoNy/alpha-Al2O3 catalysts was investigat...
Optimum conditions for the lithium-liquid ammonia reduction of 4-t-butylcyclohexyl methanesulfonate(...
Accessing the intrinsic hydrogen content within ammonia, NH3, has the potential to play a very signi...
In previous experiments III this series, nitrogen-15 was used as a tracer over a singly-promoted iro...