Add to ORKGOur study shows that the H2 storage media using Ni-dispersed fullerenes could be viable alternatives to reversible hydrogen storage. It is demonstrated that a single Ni coated on the fullerene surface can store up to three H2 molecules. Consequently, at high Ni coverage, Ni-dispersed fullerenes are considered to be the novel hydrogen storage media capable of storing ~6.8 wt % H2, thus exceeding the Department of Energy target (6.5 wt %) for automobile applications. Moreover, the H2 desorption activation barrier of 11.8 kcal/mol H2 is ideal for many practical hydrogen storage applications
Literature data on the storage capacities of hydrogen in carbon nanostructures show a scatter over s...
none10noThe addition of transition metals to alkali intercalated fullerides proved to enhance their ...
The paper presents a systematic study of the trends in the interaction of hydrogen with carbon fulle...
Our study shows that the H2 storage media using Ni-dispersed fullerenes could be viable alternatives...
Fullerenes are nanocage compounds that can be used for hydrogen storage. Hydrogen is believed to be ...
Hydrogen desorption and adsorption properties of the fullerene materials C60, C70, and fullerite (a ...
We report an innovative synthetic strategy based on the solid state reaction of fullerene C60 with l...
This work was focused on the study of a new class of hydrogen storage materials, the lithium and sod...
Li6C60 has been chosen as the most representative system to study the hydrogenation mechanism in alk...
Hydrogen storage by carbon materials is a topic of current interest. In order to exploit fullerenes ...
In this study, ordered mesoporous carbons CMK-3 were prepared by a nanocasting method using SBA-15 s...
Two types of hybrid metallofullerene framework are theoretically designed, and their structural stab...
Storing hydrogen safely and efficiently is an area of great interest for the utilization of hydrogen...
The results of recent investigation of fullerenefullerene hydride system as a potential high capacit...
Carbon based materials,such as fullerides and graphene derivatives,are fascinating systems for solid...
Literature data on the storage capacities of hydrogen in carbon nanostructures show a scatter over s...
none10noThe addition of transition metals to alkali intercalated fullerides proved to enhance their ...
The paper presents a systematic study of the trends in the interaction of hydrogen with carbon fulle...
Our study shows that the H2 storage media using Ni-dispersed fullerenes could be viable alternatives...
Fullerenes are nanocage compounds that can be used for hydrogen storage. Hydrogen is believed to be ...
Hydrogen desorption and adsorption properties of the fullerene materials C60, C70, and fullerite (a ...
We report an innovative synthetic strategy based on the solid state reaction of fullerene C60 with l...
This work was focused on the study of a new class of hydrogen storage materials, the lithium and sod...
Li6C60 has been chosen as the most representative system to study the hydrogenation mechanism in alk...
Hydrogen storage by carbon materials is a topic of current interest. In order to exploit fullerenes ...
In this study, ordered mesoporous carbons CMK-3 were prepared by a nanocasting method using SBA-15 s...
Two types of hybrid metallofullerene framework are theoretically designed, and their structural stab...
Storing hydrogen safely and efficiently is an area of great interest for the utilization of hydrogen...
The results of recent investigation of fullerenefullerene hydride system as a potential high capacit...
Carbon based materials,such as fullerides and graphene derivatives,are fascinating systems for solid...
Literature data on the storage capacities of hydrogen in carbon nanostructures show a scatter over s...
none10noThe addition of transition metals to alkali intercalated fullerides proved to enhance their ...
The paper presents a systematic study of the trends in the interaction of hydrogen with carbon fulle...