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In Situ FT-IR Spectroelectrochemistry Reveals Mechanistic Insights into Nitric Oxide Release from Ruthenium(II) Nitrosyl Complexes
Ruthenium(II) tetraamine nitrosyl complexes with N-heterocyclic ligands are known for their potential as nitric oxide (NO•) donors, capable of releasing NO• through either direct photodissociation or one-electron reduction of the Ru(II)NO+ center. This study delivers a novel insight into the one-...
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| Published in: | Inorganic chemistry 2024-11, Vol.63 (45), p.21387-21396 |
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| container_end_page | 21396 |
| container_issue | 45 |
| container_start_page | 21387 |
| container_title | Inorganic chemistry |
| container_volume | 63 |
| creator | Gonçalves, Felipe de Santis Macedo, Lucyano J. A. Souza, Maykon L. Lehnert, Nicolai Crespilho, Frank N. Roveda Jr, Antonio C. Cardoso, Daniel R. |
| description | Ruthenium(II) tetraamine nitrosyl complexes with N-heterocyclic ligands are known for their potential as nitric oxide (NO•) donors, capable of releasing NO• through either direct photodissociation or one-electron reduction of the Ru(II)NO+ center. This study delivers a novel insight into the one-electron reduction mechanism for the model complex trans-[RuII(NO)(NH3)4(py)]3+ (RuNOpy, py = pyridine) in phosphate buffer solution (pH 7.4). In situ FT-IR spectroelectrochemistry reveals that the pyridine ligand is readily released upon one-electron reduction of the nitrosyl complex, a finding supported by nuclear magnetic resonance spectroscopy (1H NMR) and electrochemistry coupled to mass spectrometry (EC-MS), which detect free pyridine in solution. However, direct evidence of NO• release from RuNOpy as the primary step following reduction was not observed. Interestingly, FT-IR results indicate that the isomers of the nitrosyl complex, cis-[Ru(NO)(NH3)4(OH)]+ and trans-[Ru(NO)(NH3)4(OH)]+, are formed following reduction and pyridine labilization, initiating an outer-sphere electron transfer process that triggers a chain electron transfer reaction. Finally, nitric oxide is liberated as an end product, arising from the reduction of the hydroxyl isomer complexes cis-[Ru(NO)(NH3)4(OH)]2+ and trans-[Ru(NO)(NH3)4(OH)]2+. This study provides new insights into the reduction mechanism and transformation pathways of ruthenium nitrosyl complexes, contributing to our understanding of their potential as NO• donors. |
| doi_str_mv | 10.1021/acs.inorgchem.4c03185 |
| format | article |
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A. ; Souza, Maykon L. ; Lehnert, Nicolai ; Crespilho, Frank N. ; Roveda Jr, Antonio C. ; Cardoso, Daniel R.</creator><creatorcontrib>Gonçalves, Felipe de Santis ; Macedo, Lucyano J. A. ; Souza, Maykon L. ; Lehnert, Nicolai ; Crespilho, Frank N. ; Roveda Jr, Antonio C. ; Cardoso, Daniel R.</creatorcontrib><description>Ruthenium(II) tetraamine nitrosyl complexes with N-heterocyclic ligands are known for their potential as nitric oxide (NO•) donors, capable of releasing NO• through either direct photodissociation or one-electron reduction of the Ru(II)NO+ center. This study delivers a novel insight into the one-electron reduction mechanism for the model complex trans-[RuII(NO)(NH3)4(py)]3+ (RuNOpy, py = pyridine) in phosphate buffer solution (pH 7.4). In situ FT-IR spectroelectrochemistry reveals that the pyridine ligand is readily released upon one-electron reduction of the nitrosyl complex, a finding supported by nuclear magnetic resonance spectroscopy (1H NMR) and electrochemistry coupled to mass spectrometry (EC-MS), which detect free pyridine in solution. However, direct evidence of NO• release from RuNOpy as the primary step following reduction was not observed. Interestingly, FT-IR results indicate that the isomers of the nitrosyl complex, cis-[Ru(NO)(NH3)4(OH)]+ and trans-[Ru(NO)(NH3)4(OH)]+, are formed following reduction and pyridine labilization, initiating an outer-sphere electron transfer process that triggers a chain electron transfer reaction. Finally, nitric oxide is liberated as an end product, arising from the reduction of the hydroxyl isomer complexes cis-[Ru(NO)(NH3)4(OH)]2+ and trans-[Ru(NO)(NH3)4(OH)]2+. This study provides new insights into the reduction mechanism and transformation pathways of ruthenium nitrosyl complexes, contributing to our understanding of their potential as NO• donors.</description><identifier>ISSN: 0020-1669</identifier><identifier>ISSN: 1520-510X</identifier><identifier>EISSN: 1520-510X</identifier><identifier>DOI: 10.1021/acs.inorgchem.4c03185</identifier><identifier>PMID: 39475160</identifier><language>eng</language><publisher>United States: American Chemical Society</publisher><ispartof>Inorganic chemistry, 2024-11, Vol.63 (45), p.21387-21396</ispartof><rights>2024 The Authors. Published by American Chemical Society</rights><rights>2024 The Authors. 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In situ FT-IR spectroelectrochemistry reveals that the pyridine ligand is readily released upon one-electron reduction of the nitrosyl complex, a finding supported by nuclear magnetic resonance spectroscopy (1H NMR) and electrochemistry coupled to mass spectrometry (EC-MS), which detect free pyridine in solution. However, direct evidence of NO• release from RuNOpy as the primary step following reduction was not observed. Interestingly, FT-IR results indicate that the isomers of the nitrosyl complex, cis-[Ru(NO)(NH3)4(OH)]+ and trans-[Ru(NO)(NH3)4(OH)]+, are formed following reduction and pyridine labilization, initiating an outer-sphere electron transfer process that triggers a chain electron transfer reaction. Finally, nitric oxide is liberated as an end product, arising from the reduction of the hydroxyl isomer complexes cis-[Ru(NO)(NH3)4(OH)]2+ and trans-[Ru(NO)(NH3)4(OH)]2+. This study provides new insights into the reduction mechanism and transformation pathways of ruthenium nitrosyl complexes, contributing to our understanding of their potential as NO• donors.</description><issn>0020-1669</issn><issn>1520-510X</issn><issn>1520-510X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2024</creationdate><recordtype>article</recordtype><recordid>eNqFkc1uGyEUhVHVqnHTPkIrluliXJiB-VlVldW0I6WJ5HjRHcLMxUM0Ay4wUbzNkwfHrtWusuGiy3cPcA5CHymZU5LTL1KFubHOb1QP45wpUtCav0IzynOScUp-v0YzQtKelmVzht6FcEcIaQpWvkVnRcMqTksyQ4-txbcmTvhylbVLfLsFFb2D4bnspU2IfoeXcA9yCPgXqF7a1DMKtzaYTR8DNjY6fG2iT82bB9NBwgeQAbD2bsTLKfZgzTRetO3nZ86F3YAXbtwO8ADhPXqjkzZ8ONZztLr8vlr8zK5ufrSLb1eZzGseM8qaRjV1WiSptKSM1iXvYF1wRogCVhOpC2AaoMoV1bJKnlR11a21pk3HinP09SC7ndYjdAps9HIQW29G6XfCSSP-P7GmFxt3LyjlvC5LnhQujgre_ZkgRJHcUTAM0oKbgihonpcFz1mRUH5AVfps8KBP91Ai9vmJlJ845SeO-aW5T_8-8jT1N7AE0AOwn79zk7fJshdEnwCx5a76</recordid><startdate>20241111</startdate><enddate>20241111</enddate><creator>Gonçalves, Felipe de Santis</creator><creator>Macedo, Lucyano J. 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A.</au><au>Souza, Maykon L.</au><au>Lehnert, Nicolai</au><au>Crespilho, Frank N.</au><au>Roveda Jr, Antonio C.</au><au>Cardoso, Daniel R.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>In Situ FT-IR Spectroelectrochemistry Reveals Mechanistic Insights into Nitric Oxide Release from Ruthenium(II) Nitrosyl Complexes</atitle><jtitle>Inorganic chemistry</jtitle><addtitle>Inorg. Chem</addtitle><date>2024-11-11</date><risdate>2024</risdate><volume>63</volume><issue>45</issue><spage>21387</spage><epage>21396</epage><pages>21387-21396</pages><issn>0020-1669</issn><issn>1520-510X</issn><eissn>1520-510X</eissn><abstract>Ruthenium(II) tetraamine nitrosyl complexes with N-heterocyclic ligands are known for their potential as nitric oxide (NO•) donors, capable of releasing NO• through either direct photodissociation or one-electron reduction of the Ru(II)NO+ center. This study delivers a novel insight into the one-electron reduction mechanism for the model complex trans-[RuII(NO)(NH3)4(py)]3+ (RuNOpy, py = pyridine) in phosphate buffer solution (pH 7.4). In situ FT-IR spectroelectrochemistry reveals that the pyridine ligand is readily released upon one-electron reduction of the nitrosyl complex, a finding supported by nuclear magnetic resonance spectroscopy (1H NMR) and electrochemistry coupled to mass spectrometry (EC-MS), which detect free pyridine in solution. However, direct evidence of NO• release from RuNOpy as the primary step following reduction was not observed. Interestingly, FT-IR results indicate that the isomers of the nitrosyl complex, cis-[Ru(NO)(NH3)4(OH)]+ and trans-[Ru(NO)(NH3)4(OH)]+, are formed following reduction and pyridine labilization, initiating an outer-sphere electron transfer process that triggers a chain electron transfer reaction. Finally, nitric oxide is liberated as an end product, arising from the reduction of the hydroxyl isomer complexes cis-[Ru(NO)(NH3)4(OH)]2+ and trans-[Ru(NO)(NH3)4(OH)]2+. This study provides new insights into the reduction mechanism and transformation pathways of ruthenium nitrosyl complexes, contributing to our understanding of their potential as NO• donors.</abstract><cop>United States</cop><pub>American Chemical Society</pub><pmid>39475160</pmid><doi>10.1021/acs.inorgchem.4c03185</doi><tpages>10</tpages><orcidid>https://orcid.org/0000-0002-3492-3327</orcidid><orcidid>https://orcid.org/0000-0002-5221-5498</orcidid><orcidid>https://orcid.org/0000-0001-9409-8093</orcidid><orcidid>https://orcid.org/0000-0002-7949-5397</orcidid><oa>free_for_read</oa></addata></record> |
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| title | In Situ FT-IR Spectroelectrochemistry Reveals Mechanistic Insights into Nitric Oxide Release from Ruthenium(II) Nitrosyl Complexes |
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