Catalysis by Precious Metals, Past and Future
The future of the precious metals is shiny and resistant. Although expensive and potentially replaceable by transition metal catalysts, precious metal implementation in research and industry shows potential. These metals catalyze oxidation and hydrogenation due to their dissociative behavior toward...
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Format: | Book Chapter |
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MDPI - Multidisciplinary Digital Publishing Institute
2020
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Online Access: | Get Fullteks DOAB: description of the publication |
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LEADER | 04634naaaa2201117uu 4500 | ||
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001 | doab_20_500_12854_42787 | ||
005 | 20210211 | ||
020 | |a books978-3-03928-723-9 | ||
020 | |a 9783039287239 | ||
020 | |a 9783039287222 | ||
024 | 7 | |a 10.3390/books978-3-03928-723-9 |c doi | |
041 | 0 | |a English | |
042 | |a dc | ||
100 | 1 | |a Tejada, Marcela Martinez |4 auth | |
700 | 1 | |a Ivanova, Svetlana |4 auth | |
245 | 1 | 0 | |a Catalysis by Precious Metals, Past and Future |
260 | |b MDPI - Multidisciplinary Digital Publishing Institute |c 2020 | ||
300 | |a 1 electronic resource (204 p.) | ||
506 | 0 | |a Open Access |2 star |f Unrestricted online access | |
520 | |a The future of the precious metals is shiny and resistant. Although expensive and potentially replaceable by transition metal catalysts, precious metal implementation in research and industry shows potential. These metals catalyze oxidation and hydrogenation due to their dissociative behavior toward hydrogen and oxygen, dehydrogenation, isomerization, and aromatization, etc. The precious metal catalysts, especially platinum-based catalysts, are involved in a variety of industrial processes. Examples include Pt-Rh gauze for nitric acid production, the Pt/Al2O3 catalyst for cyclohexane and propylene production, and Pd/Al2O3 catalysts for petrochemical hydropurification reactions, etc. A quick search of the number of published articles in the last five years containing a combination of corresponding "metals" (Pt, Pd, Ru, Rh and Au) and "catalysts" as keywords indicates the importance of the Pt catalysts, but also the continuous increase in the contribution of Pd and Au. This Special Issue reveals the importance of precious metals in catalysis and focuses on mono- and bi-metallic formulations of any supported precious metals and their promotional catalytic effect of other transition metals. The application of precious metals in diverse reactions, either homogeneous or heterogeneous, and studies of the preparation, characterization, and applications of the supported precious metal catalysts, are presented. | ||
540 | |a Creative Commons |f https://creativecommons.org/licenses/by-nc-nd/4.0/ |2 cc |4 https://creativecommons.org/licenses/by-nc-nd/4.0/ | ||
546 | |a English | ||
653 | |a sustainable ammonia synthesis | ||
653 | |a Pt3Sn alloy | ||
653 | |a alkenols | ||
653 | |a n/a | ||
653 | |a PtSn alloy | ||
653 | |a propane dehydrogenation | ||
653 | |a chelate | ||
653 | |a photodegradation | ||
653 | |a gold nanoparticles | ||
653 | |a photochemical | ||
653 | |a alkynols | ||
653 | |a triple bond electron charge | ||
653 | |a palladium catalyst | ||
653 | |a Pt/Al2O3 | ||
653 | |a 2-methyl-3-butyn-2-ol | ||
653 | |a hydrogen storage | ||
653 | |a X-ray crystallography | ||
653 | |a ruthenium | ||
653 | |a platinum dispersion | ||
653 | |a gold catalysts | ||
653 | |a reduction temperature | ||
653 | |a DOC | ||
653 | |a palladium | ||
653 | |a renewable hydrogen | ||
653 | |a 1-propanol | ||
653 | |a 4-hydroxyproline | ||
653 | |a glycerol | ||
653 | |a 2-?-benzylproline | ||
653 | |a proline | ||
653 | |a hydrogen bonding | ||
653 | |a oxidative coupling | ||
653 | |a glucose oxidation | ||
653 | |a stabilizing agent | ||
653 | |a titania | ||
653 | |a 4-fluoroproline | ||
653 | |a turnover frequency | ||
653 | |a porous carbons | ||
653 | |a Pt-Sn/Al2O3 | ||
653 | |a P25@Pd | ||
653 | |a catalyst synthesis | ||
653 | |a 2-propanol | ||
653 | |a amino acid | ||
653 | |a azetidine | ||
653 | |a precious metals | ||
653 | |a clay | ||
653 | |a gas phase hydrogenation | ||
653 | |a CNTs | ||
653 | |a 3-butyn-2-ol | ||
653 | |a Pd/Al2O3 | ||
653 | |a heterogeneous enantioselective hydrogenation | ||
653 | |a XPS | ||
653 | |a microwave | ||
653 | |a caesium | ||
653 | |a perovskite | ||
653 | |a CO oxidation | ||
653 | |a Au-TiO2 | ||
653 | |a dodecahydro-N-ethylcarbazole | ||
653 | |a phenol photo-degradation | ||
653 | |a pipecolinic acid | ||
653 | |a 3-butyn-1-ol | ||
653 | |a acetophenone | ||
653 | |a drying | ||
653 | |a palladium catalysts | ||
653 | |a N-methylproline | ||
653 | |a dehydrogenation | ||
653 | |a PVA | ||
653 | |a aging | ||
653 | |a hydrodechlorination | ||
653 | |a hydrogenolysis | ||
653 | |a dispersion | ||
653 | |a direct reduction | ||
653 | |a core-shell | ||
856 | 4 | 0 | |a www.oapen.org |u https://mdpi.com/books/pdfview/book/2176 |7 0 |z Get Fullteks |
856 | 4 | 0 | |a www.oapen.org |u https://directory.doabooks.org/handle/20.500.12854/42787 |7 0 |z DOAB: description of the publication |