Reversible Hydrogen Storage Using Nanocomposites
In the field of energy storage, recently investigated nanocomposites show promise in terms of high hydrogen uptake and release with enhancement in the reaction kinetics. Among several, carbonaceous nanovariants like carbon nanotubes (CNTs), fullerenes, and graphitic nanofibers reveal reversible hydr...
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MDPI AG
2020-07-01
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| Series: | Applied Sciences |
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| Online Access: | https://www.mdpi.com/2076-3417/10/13/4618 |
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doaj-ab9377093a8c4571bbfb64f466957dd22020-11-25T02:52:19ZengMDPI AGApplied Sciences2076-34172020-07-01104618461810.3390/app10134618Reversible Hydrogen Storage Using NanocompositesSesha Srinivasan0Dervis Emre Demirocak1Ajeet Kaushik2Meenu Sharma3Ganga Ram Chaudhary4Nicoleta Hickman5Elias Stefanakos6Department of Natural Sciences, Florida Polytechnic University, 4700 Research Way, Lakeland, FL 33805, USADepartment of Mechanical Engineering, University of Houston-Clear Lake, 2700 Bay Area Blvd., Houston, TX 77058, USADepartment of Natural Sciences, Florida Polytechnic University, 4700 Research Way, Lakeland, FL 33805, USADepartment of Physics, National Institute of Technology, Kurukshetra, Haryana 136119, IndiaDepartment of Chemistry, Center of Advanced Studies in Chemistry, Panjab University, Sector 14, Chandigarh 160014, IndiaDepartment of Natural Sciences, Florida Polytechnic University, 4700 Research Way, Lakeland, FL 33805, USAClean Energy Research Center, College of Engineering, University of South Florida, 4200 E. Fowler Ave., Tampa, FL 33620, USAIn the field of energy storage, recently investigated nanocomposites show promise in terms of high hydrogen uptake and release with enhancement in the reaction kinetics. Among several, carbonaceous nanovariants like carbon nanotubes (CNTs), fullerenes, and graphitic nanofibers reveal reversible hydrogen sorption characteristics at 77 K, due to their van der Waals interaction. The spillover mechanism combining Pd nanoparticles on the host metal-organic framework (MOF) show room temperature uptake of hydrogen. Metal or complex hydrides either in the nanocomposite form and its subset, nanocatalyst dispersed alloy phases illustrate the concept of nanoengineering and nanoconfinement of particles with tailor-made properties for reversible hydrogen storage. Another class of materials comprising polymeric nanostructures such as conducting polyaniline and their functionalized nanocomposites are versatile hydrogen storage materials because of their unique size, high specific surface-area, pore-volume, and bulk properties. The salient features of nanocomposite materials for reversible hydrogen storage are reviewed and discussed.https://www.mdpi.com/2076-3417/10/13/4618nanocomposite materialscarbon nanotubesnanocatalystnanoparticlesball-millinghydrogen storage system |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Sesha Srinivasan Dervis Emre Demirocak Ajeet Kaushik Meenu Sharma Ganga Ram Chaudhary Nicoleta Hickman Elias Stefanakos |
| spellingShingle |
Sesha Srinivasan Dervis Emre Demirocak Ajeet Kaushik Meenu Sharma Ganga Ram Chaudhary Nicoleta Hickman Elias Stefanakos Reversible Hydrogen Storage Using Nanocomposites Applied Sciences nanocomposite materials carbon nanotubes nanocatalyst nanoparticles ball-milling hydrogen storage system |
| author_facet |
Sesha Srinivasan Dervis Emre Demirocak Ajeet Kaushik Meenu Sharma Ganga Ram Chaudhary Nicoleta Hickman Elias Stefanakos |
| author_sort |
Sesha Srinivasan |
| title |
Reversible Hydrogen Storage Using Nanocomposites |
| title_short |
Reversible Hydrogen Storage Using Nanocomposites |
| title_full |
Reversible Hydrogen Storage Using Nanocomposites |
| title_fullStr |
Reversible Hydrogen Storage Using Nanocomposites |
| title_full_unstemmed |
Reversible Hydrogen Storage Using Nanocomposites |
| title_sort |
reversible hydrogen storage using nanocomposites |
| publisher |
MDPI AG |
| series |
Applied Sciences |
| issn |
2076-3417 |
| publishDate |
2020-07-01 |
| description |
In the field of energy storage, recently investigated nanocomposites show promise in terms of high hydrogen uptake and release with enhancement in the reaction kinetics. Among several, carbonaceous nanovariants like carbon nanotubes (CNTs), fullerenes, and graphitic nanofibers reveal reversible hydrogen sorption characteristics at 77 K, due to their van der Waals interaction. The spillover mechanism combining Pd nanoparticles on the host metal-organic framework (MOF) show room temperature uptake of hydrogen. Metal or complex hydrides either in the nanocomposite form and its subset, nanocatalyst dispersed alloy phases illustrate the concept of nanoengineering and nanoconfinement of particles with tailor-made properties for reversible hydrogen storage. Another class of materials comprising polymeric nanostructures such as conducting polyaniline and their functionalized nanocomposites are versatile hydrogen storage materials because of their unique size, high specific surface-area, pore-volume, and bulk properties. The salient features of nanocomposite materials for reversible hydrogen storage are reviewed and discussed. |
| topic |
nanocomposite materials carbon nanotubes nanocatalyst nanoparticles ball-milling hydrogen storage system |
| url |
https://www.mdpi.com/2076-3417/10/13/4618 |
| work_keys_str_mv |
AT seshasrinivasan reversiblehydrogenstorageusingnanocomposites AT dervisemredemirocak reversiblehydrogenstorageusingnanocomposites AT ajeetkaushik reversiblehydrogenstorageusingnanocomposites AT meenusharma reversiblehydrogenstorageusingnanocomposites AT gangaramchaudhary reversiblehydrogenstorageusingnanocomposites AT nicoletahickman reversiblehydrogenstorageusingnanocomposites AT eliasstefanakos reversiblehydrogenstorageusingnanocomposites |
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