Add to ORKGThe induced defects in carbonaceous materials for hydrogen storage were studied. The effect of exfoliation was studied and the graphite nanofibers (GNF) diameter before and after exfoliation was quantified. Thermal decomposition of the GNF before and after sulfuric/nitric acid exfoliation indicated a clear loss of thermal stability. GNF exfoliation enhanced the hydrogen uptake by a factor of five compared to the untreated GNF. The amorphous carbon was reactive than GNF, and decomposed before the GNF. The higher pretreatment temperature was intended to preferentially remove amorphous carbon leaving a higher purity of exfoliated GNF
Recently, many studies have been reported about a variety of carbon materials in adsorbing hydrogen....
This thesis examines the potential of C 60 intercalated graphite and titanium oxide'decorated' graph...
Hydrogen storage in MWNT was enhanced via the catalytic activity of NiMgO. The magnitude of the hydr...
Exfoliation of graphite nanofibers (GNF) expands the interplanar spacing of the GNF, which leads to ...
A graphite exfoliation technique, using intercalation of a concentrated sulfuric/nitric acid mixture...
A series of graphite nanofibers (GNFs) that were subjected to various pretreatments were used to det...
Hydrogen storage in carbon nanomaterials was enhanced through hydrogen spillover. Carbon nanomateria...
Graphite nanofibers were synthesized and their hydrogen desorption and adsorption properties are rep...
This article is devoted to some fundamental aspects of “super” storage in graphite nanofibers (GNF) ...
There is huge need to develop an alternative to hydrocarbons fuel, which does not produce CO2 or con...
Hydrogen sorption properties of graphene-related materials were studied by gravimetric and volumetri...
This thesis describes our research on adsorbent systems for hydrogen storage for small scale, mobile...
The paper gives a critical review of the literature on hydrogen storage in carbon nanostructures. Fu...
Inevitable decreasing trend in the world supply of fossil fuels has sparked interest in new sustain...
Recent developments focusing on novel hydrogen storage media have helped to benchmark nanostructured...
Recently, many studies have been reported about a variety of carbon materials in adsorbing hydrogen....
This thesis examines the potential of C 60 intercalated graphite and titanium oxide'decorated' graph...
Hydrogen storage in MWNT was enhanced via the catalytic activity of NiMgO. The magnitude of the hydr...
Exfoliation of graphite nanofibers (GNF) expands the interplanar spacing of the GNF, which leads to ...
A graphite exfoliation technique, using intercalation of a concentrated sulfuric/nitric acid mixture...
A series of graphite nanofibers (GNFs) that were subjected to various pretreatments were used to det...
Hydrogen storage in carbon nanomaterials was enhanced through hydrogen spillover. Carbon nanomateria...
Graphite nanofibers were synthesized and their hydrogen desorption and adsorption properties are rep...
This article is devoted to some fundamental aspects of “super” storage in graphite nanofibers (GNF) ...
There is huge need to develop an alternative to hydrocarbons fuel, which does not produce CO2 or con...
Hydrogen sorption properties of graphene-related materials were studied by gravimetric and volumetri...
This thesis describes our research on adsorbent systems for hydrogen storage for small scale, mobile...
The paper gives a critical review of the literature on hydrogen storage in carbon nanostructures. Fu...
Inevitable decreasing trend in the world supply of fossil fuels has sparked interest in new sustain...
Recent developments focusing on novel hydrogen storage media have helped to benchmark nanostructured...
Recently, many studies have been reported about a variety of carbon materials in adsorbing hydrogen....
This thesis examines the potential of C 60 intercalated graphite and titanium oxide'decorated' graph...
Hydrogen storage in MWNT was enhanced via the catalytic activity of NiMgO. The magnitude of the hydr...