Gold and silver anchored cobalt porphyrins used for catalytic water splitting

In natural photosynthesis, the energy in sunlight is used to rearrange the bonds present in water to produce oxygen and hydrogen. Artificial systems that perform water splitting require catalysts that assist the production of hydrogen from water without excessive reduction potential. Consequently a...

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Autores principales: Morales Vásquez, M.A., Suárez, S.A., Doctorovich, F.
Formato: JOUR
Materias:
Electrochemical properties
Electrochemical techniques
Inorganic compounds
Catalysts
Cobalt
Electrodes
Gold
Hydrogen bonds
Porphyrins
Redox reactions
Reduction
Silver
Artificial systems
Cobalt porphyrins
Cyclic voltammograms
Different solvents
Electrocatalytic reduction
Modified electrodes
Production of hydrogen
Hydrogen production
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_02540584_v159_n_p159_MoralesVasquez
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Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
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spelling todo:paper_02540584_v159_n_p159_MoralesVasquez2023-10-03T15:11:31Z Gold and silver anchored cobalt porphyrins used for catalytic water splitting Morales Vásquez, M.A. Suárez, S.A. Doctorovich, F. Electrochemical properties Electrochemical techniques Inorganic compounds Catalysts Cobalt Electrochemical properties Electrodes Gold Hydrogen bonds Inorganic compounds Porphyrins Redox reactions Reduction Silver Artificial systems Cobalt porphyrins Cyclic voltammograms Different solvents Electrocatalytic reduction Electrochemical techniques Modified electrodes Production of hydrogen Hydrogen production In natural photosynthesis, the energy in sunlight is used to rearrange the bonds present in water to produce oxygen and hydrogen. Artificial systems that perform water splitting require catalysts that assist the production of hydrogen from water without excessive reduction potential. Consequently a cobalt porphyrin({cobaltII-5,10,15,20-tetrakis[3-(p-acetylthiopropoxy) phenyl]porphyrin}[Co-P]) covalently bound to gold or silver has been tested as a catalyst for reduction and oxidation of H<inf>2</inf>O to H<inf>2</inf> and O<inf>2,</inf> respectively. In the cyclic voltammogram CoIII/CoII and CoII/CoI reversible waves were observed at potentials close to the expected values. The addition of water increased the cathodic peak for the CoII/CoI wave, consistent with the electrocatalytic reduction of water. In aqueous buffers the current increased for catalytic [Co-P] with decreasing pH. Similar results are obtained by changing the solvent or metal electrode to which the porphyrin is adsorbed. This leads to a reduction in the redox potential for the H+/H<inf>2</inf> couple by 200 mV. The material (Au°-[Co-P]) shows good efficiency and robustness for the electrochemical production of H<inf>2</inf> in different solvents and buffers in contrast to results previously seen for other porphyrins in solutions. The modified electrode Au°-[Co-P] shows high stability, and it is not damaged after several cycles. It can be stored in a CH<inf>2</inf>Cl<inf>2</inf> solution and reused several times. © 2015 Elsevier B.V. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_02540584_v159_n_p159_MoralesVasquez
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Electrochemical properties
Electrochemical techniques
Inorganic compounds
Catalysts
Cobalt
Electrochemical properties
Electrodes
Gold
Hydrogen bonds
Inorganic compounds
Porphyrins
Redox reactions
Reduction
Silver
Artificial systems
Cobalt porphyrins
Cyclic voltammograms
Different solvents
Electrocatalytic reduction
Electrochemical techniques
Modified electrodes
Production of hydrogen
Hydrogen production
spellingShingle Electrochemical properties
Electrochemical techniques
Inorganic compounds
Catalysts
Cobalt
Electrochemical properties
Electrodes
Gold
Hydrogen bonds
Inorganic compounds
Porphyrins
Redox reactions
Reduction
Silver
Artificial systems
Cobalt porphyrins
Cyclic voltammograms
Different solvents
Electrocatalytic reduction
Electrochemical techniques
Modified electrodes
Production of hydrogen
Hydrogen production
Morales Vásquez, M.A.
Suárez, S.A.
Doctorovich, F.
Gold and silver anchored cobalt porphyrins used for catalytic water splitting
topic_facet Electrochemical properties
Electrochemical techniques
Inorganic compounds
Catalysts
Cobalt
Electrochemical properties
Electrodes
Gold
Hydrogen bonds
Inorganic compounds
Porphyrins
Redox reactions
Reduction
Silver
Artificial systems
Cobalt porphyrins
Cyclic voltammograms
Different solvents
Electrocatalytic reduction
Electrochemical techniques
Modified electrodes
Production of hydrogen
Hydrogen production
description In natural photosynthesis, the energy in sunlight is used to rearrange the bonds present in water to produce oxygen and hydrogen. Artificial systems that perform water splitting require catalysts that assist the production of hydrogen from water without excessive reduction potential. Consequently a cobalt porphyrin({cobaltII-5,10,15,20-tetrakis[3-(p-acetylthiopropoxy) phenyl]porphyrin}[Co-P]) covalently bound to gold or silver has been tested as a catalyst for reduction and oxidation of H<inf>2</inf>O to H<inf>2</inf> and O<inf>2,</inf> respectively. In the cyclic voltammogram CoIII/CoII and CoII/CoI reversible waves were observed at potentials close to the expected values. The addition of water increased the cathodic peak for the CoII/CoI wave, consistent with the electrocatalytic reduction of water. In aqueous buffers the current increased for catalytic [Co-P] with decreasing pH. Similar results are obtained by changing the solvent or metal electrode to which the porphyrin is adsorbed. This leads to a reduction in the redox potential for the H+/H<inf>2</inf> couple by 200 mV. The material (Au°-[Co-P]) shows good efficiency and robustness for the electrochemical production of H<inf>2</inf> in different solvents and buffers in contrast to results previously seen for other porphyrins in solutions. The modified electrode Au°-[Co-P] shows high stability, and it is not damaged after several cycles. It can be stored in a CH<inf>2</inf>Cl<inf>2</inf> solution and reused several times. © 2015 Elsevier B.V.
format JOUR
author Morales Vásquez, M.A.
Suárez, S.A.
Doctorovich, F.
author_facet Morales Vásquez, M.A.
Suárez, S.A.
Doctorovich, F.
author_sort Morales Vásquez, M.A.
title Gold and silver anchored cobalt porphyrins used for catalytic water splitting
title_short Gold and silver anchored cobalt porphyrins used for catalytic water splitting
title_full Gold and silver anchored cobalt porphyrins used for catalytic water splitting
title_fullStr Gold and silver anchored cobalt porphyrins used for catalytic water splitting
title_full_unstemmed Gold and silver anchored cobalt porphyrins used for catalytic water splitting
title_sort gold and silver anchored cobalt porphyrins used for catalytic water splitting
url http://hdl.handle.net/20.500.12110/paper_02540584_v159_n_p159_MoralesVasquez
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AT suarezsa goldandsilveranchoredcobaltporphyrinsusedforcatalyticwatersplitting
AT doctorovichf goldandsilveranchoredcobaltporphyrinsusedforcatalyticwatersplitting
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