Comparative study of reversible hydrogen storage in alkali-doped fulleranes

► Catalytic effect of alkali metals of fullerane formation. ► Hydrogen storage properties of alkali metal hydrides and fullerene composites. ► Novel intercalation of Na and Li in the fullerene lattice. ► Reversible phase transformation of C60 from fcc to bcc upon de/rehydrogenation. ► Potential to e...

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Published inJournal of alloys and compounds Vol. 580; pp. S364 - S367
Main Authors Teprovich, Joseph A., Knight, Douglas A., Peters, Brent, Zidan, Ragaiy
Format Journal Article Conference Proceeding
LanguageEnglish
Published Kidlington Elsevier B.V 15.12.2013
Elsevier
Subjects
Alkali doped
C60
Chemisorption
Condensed matter: structure, mechanical and thermal properties
Cross-disciplinary physics: materials science; rheology
Equations of state, phase equilibria, and phase transitions
Exact sciences and technology
Fullerane
Fullerenes
Fullerenes and related materials; diamonds, graphite
Hydrogen storage
Hydrogen storage materials
Lithium
Materials science
Other materials
Physics
Polymer
Reversible hydrogen storage
Sodium
Solubility, segregation, and mixing; phase separation
Specific materials
Stores
X-ray diffraction
XRD
Reversible hydrogen storage
Polymer
XRD
C60
Fullerane
Alkali doped
C
Doping
Hydrogenation
Phase transitions
Hydrogen bonds
Active system
Polymers
Active material
Chemisorption
Temperature dependence
Hydrogen storage
Solubility
Thermogravimetry
Doped materials
Desorption
Sodium
Fullerenes
Hydrogen storage material
Comparative study
Lithium additions
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Abstract ► Catalytic effect of alkali metals of fullerane formation. ► Hydrogen storage properties of alkali metal hydrides and fullerene composites. ► Novel intercalation of Na and Li in the fullerene lattice. ► Reversible phase transformation of C60 from fcc to bcc upon de/rehydrogenation. ► Potential to enable to the formation of other carbon based hydrogen storage systems. In this report we describe and compare the hydrogen storage properties of lithium and sodium doped fullerenes prepared via a solvent-assisted mixing process. For the preparation of these samples either NaH or LiH was utilized as the alkali metal source to make material based on either a Na6C60 or Li6C60. Both of the alkali-doped materials can reversibly absorb and desorb hydrogen at much milder conditions than the starting materials used to make them (decomposition temperatures of NaH>420°C, LiH>670°C, and fullerane>500°C). The hydrogen storage properties of the materials were compared by TGA, isothermal desorption, and XRD analysis. It was determined that the sodium-doped material can reversibly store 4.0wt.% H2 while the lithium doped material can reversibly store 5.0wt.% H2 through a chemisorption mechanism indicated by the formation and measurement of C–H bonds. XRD analysis of the material demonstrated that a reversible phase transition between fcc and bcc occurs depending on the temperature at which the hydrogenation is performed. In either system the active hydrogen storage material resembles a hydrogenated fullerene (fullerane).
AbstractList In this report we describe and compare the hydrogen storage properties of lithium and sodium doped fullerenes prepared via a solvent-assisted mixing process. For the preparation of these samples either NaH or LiH was utilized as the alkali metal source to make material based on either a Na sub(6)C sub(60) or Li sub(6)C sub(60). Both of the alkali-doped materials can reversibly absorb and desorb hydrogen at much milder conditions than the starting materials used to make them (decomposition temperatures of NaH > 420 [degrees]C, LiH > 670 [degrees]C, and fullerane > 500 [degrees]C). The hydrogen storage properties of the materials were compared by TGA, isothermal desorption, and XRD analysis. It was determined that the sodium-doped material can reversibly store 4.0 wt.% H sub(2) while the lithium doped material can reversibly store 5.0 wt.% H sub(2) through a chemisorption mechanism indicated by the formation and measurement of C-H bonds. XRD analysis of the material demonstrated that a reversible phase transition between fee and bcc occurs depending on the temperature at which the hydrogenation is performed. In either system the active hydrogen storage material resembles a hydrogenated fullerene (fullerane).
► Catalytic effect of alkali metals of fullerane formation. ► Hydrogen storage properties of alkali metal hydrides and fullerene composites. ► Novel intercalation of Na and Li in the fullerene lattice. ► Reversible phase transformation of C60 from fcc to bcc upon de/rehydrogenation. ► Potential to enable to the formation of other carbon based hydrogen storage systems. In this report we describe and compare the hydrogen storage properties of lithium and sodium doped fullerenes prepared via a solvent-assisted mixing process. For the preparation of these samples either NaH or LiH was utilized as the alkali metal source to make material based on either a Na6C60 or Li6C60. Both of the alkali-doped materials can reversibly absorb and desorb hydrogen at much milder conditions than the starting materials used to make them (decomposition temperatures of NaH>420°C, LiH>670°C, and fullerane>500°C). The hydrogen storage properties of the materials were compared by TGA, isothermal desorption, and XRD analysis. It was determined that the sodium-doped material can reversibly store 4.0wt.% H2 while the lithium doped material can reversibly store 5.0wt.% H2 through a chemisorption mechanism indicated by the formation and measurement of C–H bonds. XRD analysis of the material demonstrated that a reversible phase transition between fcc and bcc occurs depending on the temperature at which the hydrogenation is performed. In either system the active hydrogen storage material resembles a hydrogenated fullerene (fullerane).
Author Peters, Brent
Zidan, Ragaiy
Knight, Douglas A.
Teprovich, Joseph A.
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Keywords Reversible hydrogen storage
Polymer
XRD
C60
Fullerane
Alkali doped
C
Doping
Hydrogenation
Phase transitions
Hydrogen bonds
Active system
Polymers
Active material
Chemisorption
Temperature dependence
Hydrogen storage
Solubility
Thermogravimetry
Doped materials
Desorption
Sodium
Fullerenes
Hydrogen storage material
Comparative study
Lithium additions
Language English
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SSID ssj0001931
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Snippet ► Catalytic effect of alkali metals of fullerane formation. ► Hydrogen storage properties of alkali metal hydrides and fullerene composites. ► Novel...
In this report we describe and compare the hydrogen storage properties of lithium and sodium doped fullerenes prepared via a solvent-assisted mixing process....
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StartPage S364
SubjectTerms Alkali doped
C60
Chemisorption
Condensed matter: structure, mechanical and thermal properties
Cross-disciplinary physics: materials science; rheology
Equations of state, phase equilibria, and phase transitions
Exact sciences and technology
Fullerane
Fullerenes
Fullerenes and related materials; diamonds, graphite
Hydrogen storage
Hydrogen storage materials
Lithium
Materials science
Other materials
Physics
Polymer
Reversible hydrogen storage
Sodium
Solubility, segregation, and mixing; phase separation
Specific materials
Stores
X-ray diffraction
XRD
Title Comparative study of reversible hydrogen storage in alkali-doped fulleranes
URI https://dx.doi.org/10.1016/j.jallcom.2013.02.024
https://search.proquest.com/docview/1541456900
https://search.proquest.com/docview/1678015373
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