Innovative Catalytic Materials for Environmental Remediation and Energy Applications
This editorial introduces the Special Issue “Catalytic Reforming and Hydrogen Production: From the Past to the Future,” which presents a curated collection of cutting-edge research articles and reviews dedicated to hydrogen (H₂) production through catalytic reforming processes. With growing energy d...
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| Język: | angielski |
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MDPI - Multidisciplinary Digital Publishing Institute
2025
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| Dostęp online: | ONIX_20250812T110751_9783725839445_258 |
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| description | This editorial introduces the Special Issue “Catalytic Reforming and Hydrogen Production: From the Past to the Future,” which presents a curated collection of cutting-edge research articles and reviews dedicated to hydrogen (H₂) production through catalytic reforming processes. With growing energy demands and the urgent need for sustainable alternatives, this issue explores diverse pathways such as dry methane reforming, methanol steam and aqueous-phase reforming, and photocatalytic water splitting. Key challenges—including catalyst deactivation, carbon deposition, and material stability—are addressed through novel approaches like bimetallic systems, nanostructured materials, and single-atom alloys. Highlights include advancements in Pt- and Ni-based catalysts, La-doped MoS2, and Cu2O/CuO heterostructures. The reviews delve into the synthesis and catalytic behavior of cobalt manganese oxide spinels and modern methanol-reforming catalysts. Together, these contributions provide a comprehensive snapshot of progress and future directions in clean hydrogen production, offering insights essential for researchers and engineers working toward a fossil fuel-free energy landscape. |
| format | Online |
| id | doab-20.500.12854ir-165503 |
| institution | Directory of Open Access Books |
| language | eng |
| publishDate | 2025 |
| publishDateRange | 2025 |
| publishDateSort | 2025 |
| publisher | MDPI - Multidisciplinary Digital Publishing Institute |
| publisherStr | MDPI - Multidisciplinary Digital Publishing Institute |
| record_format | ojs |
| spelling | doab-20.500.12854ir-1655032025-08-12T09:49:53Z Innovative Catalytic Materials for Environmental Remediation and Energy Applications Bampos, Georgios Petala, Athanasia Frontistis, Zacharias water gas shift platinum TiO2 promoter structured catalysts pellets monoliths magnetic materials catalysts magnetic separation syngas CO2 conversion natural graphite MoS2 molten NaCl graphene MoO3 molybdenum oxycarbide H2S decomposition/reforming H2O excess conditions carbon-free H2 production Co3O4/CeO2 catalysts cobalt sulfide phase transition metal oxides CuO-based catalysts Co3O4 modification α-MnO2 nanowire catalytic oxidation of CO olive kernel CO2 gasification Ni/CeO2 Ni/Al2O3 molten carbonates salt (MS) instant gasification rate carbon conversion acetic acid hydrogen evolution reaction hydrogen fuel cell rotating disk voltammetry gold electrode turnover frequency metal–oxide nanocomposites multicomponent catalysts complex oxide precursors K2NiF4 structure high temperature reduction exsolution dry reforming of methane electrochemical promotion of catalysis (EPOC) non-faradaic electrochemical modification of catalytic activity (NEMCA) CO2 hydrogenation rhodium (Rh) YSZ XPS porous metal phosphate heterogeneous catalysis Knoevenagel condensation base catalysis CO combustion propane combustion CO oxidation propane oxidation perovskites La0.8Sr0.2CoxFe1−xO3−δ lanthanum strontium cobaltite ferrite n/a thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology This editorial introduces the Special Issue “Catalytic Reforming and Hydrogen Production: From the Past to the Future,” which presents a curated collection of cutting-edge research articles and reviews dedicated to hydrogen (H₂) production through catalytic reforming processes. With growing energy demands and the urgent need for sustainable alternatives, this issue explores diverse pathways such as dry methane reforming, methanol steam and aqueous-phase reforming, and photocatalytic water splitting. Key challenges—including catalyst deactivation, carbon deposition, and material stability—are addressed through novel approaches like bimetallic systems, nanostructured materials, and single-atom alloys. Highlights include advancements in Pt- and Ni-based catalysts, La-doped MoS2, and Cu2O/CuO heterostructures. The reviews delve into the synthesis and catalytic behavior of cobalt manganese oxide spinels and modern methanol-reforming catalysts. Together, these contributions provide a comprehensive snapshot of progress and future directions in clean hydrogen production, offering insights essential for researchers and engineers working toward a fossil fuel-free energy landscape. 2025-08-12T09:49:51Z 2025-08-12T09:49:51Z 2025 book ONIX_20250812T110751_9783725839445_258 9783725839445 9783725839438 https://directory.doabooks.org/handle/20.500.12854/165503 eng image/jpeg Attribution 4.0 International https://mdpi.com/books https://mdpi.com/books/pdfview/book/10851 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-7258-3943-8 10.3390/books978-3-7258-3943-8 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783725839445 9783725839438 216 open access |
| spellingShingle | water gas shift platinum TiO2 promoter structured catalysts pellets monoliths magnetic materials catalysts magnetic separation syngas CO2 conversion natural graphite MoS2 molten NaCl graphene MoO3 molybdenum oxycarbide H2S decomposition/reforming H2O excess conditions carbon-free H2 production Co3O4/CeO2 catalysts cobalt sulfide phase transition metal oxides CuO-based catalysts Co3O4 modification α-MnO2 nanowire catalytic oxidation of CO olive kernel CO2 gasification Ni/CeO2 Ni/Al2O3 molten carbonates salt (MS) instant gasification rate carbon conversion acetic acid hydrogen evolution reaction hydrogen fuel cell rotating disk voltammetry gold electrode turnover frequency metal–oxide nanocomposites multicomponent catalysts complex oxide precursors K2NiF4 structure high temperature reduction exsolution dry reforming of methane electrochemical promotion of catalysis (EPOC) non-faradaic electrochemical modification of catalytic activity (NEMCA) CO2 hydrogenation rhodium (Rh) YSZ XPS porous metal phosphate heterogeneous catalysis Knoevenagel condensation base catalysis CO combustion propane combustion CO oxidation propane oxidation perovskites La0.8Sr0.2CoxFe1−xO3−δ lanthanum strontium cobaltite ferrite n/a thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology Innovative Catalytic Materials for Environmental Remediation and Energy Applications |
| title | Innovative Catalytic Materials for Environmental Remediation and Energy Applications |
| title_full | Innovative Catalytic Materials for Environmental Remediation and Energy Applications |
| title_fullStr | Innovative Catalytic Materials for Environmental Remediation and Energy Applications |
| title_full_unstemmed | Innovative Catalytic Materials for Environmental Remediation and Energy Applications |
| title_short | Innovative Catalytic Materials for Environmental Remediation and Energy Applications |
| title_sort | innovative catalytic materials for environmental remediation and energy applications |
| topic | water gas shift platinum TiO2 promoter structured catalysts pellets monoliths magnetic materials catalysts magnetic separation syngas CO2 conversion natural graphite MoS2 molten NaCl graphene MoO3 molybdenum oxycarbide H2S decomposition/reforming H2O excess conditions carbon-free H2 production Co3O4/CeO2 catalysts cobalt sulfide phase transition metal oxides CuO-based catalysts Co3O4 modification α-MnO2 nanowire catalytic oxidation of CO olive kernel CO2 gasification Ni/CeO2 Ni/Al2O3 molten carbonates salt (MS) instant gasification rate carbon conversion acetic acid hydrogen evolution reaction hydrogen fuel cell rotating disk voltammetry gold electrode turnover frequency metal–oxide nanocomposites multicomponent catalysts complex oxide precursors K2NiF4 structure high temperature reduction exsolution dry reforming of methane electrochemical promotion of catalysis (EPOC) non-faradaic electrochemical modification of catalytic activity (NEMCA) CO2 hydrogenation rhodium (Rh) YSZ XPS porous metal phosphate heterogeneous catalysis Knoevenagel condensation base catalysis CO combustion propane combustion CO oxidation propane oxidation perovskites La0.8Sr0.2CoxFe1−xO3−δ lanthanum strontium cobaltite ferrite n/a thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology |
| topic_facet | water gas shift platinum TiO2 promoter structured catalysts pellets monoliths magnetic materials catalysts magnetic separation syngas CO2 conversion natural graphite MoS2 molten NaCl graphene MoO3 molybdenum oxycarbide H2S decomposition/reforming H2O excess conditions carbon-free H2 production Co3O4/CeO2 catalysts cobalt sulfide phase transition metal oxides CuO-based catalysts Co3O4 modification α-MnO2 nanowire catalytic oxidation of CO olive kernel CO2 gasification Ni/CeO2 Ni/Al2O3 molten carbonates salt (MS) instant gasification rate carbon conversion acetic acid hydrogen evolution reaction hydrogen fuel cell rotating disk voltammetry gold electrode turnover frequency metal–oxide nanocomposites multicomponent catalysts complex oxide precursors K2NiF4 structure high temperature reduction exsolution dry reforming of methane electrochemical promotion of catalysis (EPOC) non-faradaic electrochemical modification of catalytic activity (NEMCA) CO2 hydrogenation rhodium (Rh) YSZ XPS porous metal phosphate heterogeneous catalysis Knoevenagel condensation base catalysis CO combustion propane combustion CO oxidation propane oxidation perovskites La0.8Sr0.2CoxFe1−xO3−δ lanthanum strontium cobaltite ferrite n/a thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology |
| url | ONIX_20250812T110751_9783725839445_258 |