Chelate‐Thiolate‐Coordinate Ligands Modulating the Configuration and Electrochemical Property of Dinitrosyliron Complexes (DNICs). Issue 45 (25th September 2015)
- Record Type:
- Journal Article
- Title:
- Chelate‐Thiolate‐Coordinate Ligands Modulating the Configuration and Electrochemical Property of Dinitrosyliron Complexes (DNICs). Issue 45 (25th September 2015)
- Main Title:
- Chelate‐Thiolate‐Coordinate Ligands Modulating the Configuration and Electrochemical Property of Dinitrosyliron Complexes (DNICs)
- Authors:
- Yeh, Shih‐Wey
Lin, Chih‐Wei
Liu, Bai‐Heng
Tsou, Chih‐Chin
Tsai, Ming‐Li
Liaw, Wen‐Feng - Abstract:
- Abstract: As opposed to the reversible redox reaction ({Fe(NO)2 } 10 reduced‐form DNIC [(NO)2 Fe(S(CH2 )3 S)] 2− (1 )⇌{Fe(NO)2 } 9 oxidized‐form [(NO)2 Fe(S(CH2 )3 S)] − ), the chemical oxidation of the {Fe(NO)2 } 10 DNIC [(NO)2 Fe(S(CH2 )2 S)] 2− (2 ) generates the dinuclear {Fe(NO)2 } 9 –{Fe(NO)2 } 9 complex [(NO)2 Fe(μ‐SC2 H4 S)2 Fe(NO)2 ] 2− (3 ) bridged by two terminal [SC2 H4 S] 2− ligands. On the basis of the Fe K‐edge pre‐edge energy and S K‐edge XAS, the oxidation of complex 1 yielding [(NO)2 Fe(S(CH2 )3 S)] − is predominantly a metal‐based oxidation. The smaller S1‐Fe1‐S2 bond angle of 94.1(1)° observed in complex 1 (S1‐Fe1‐S2 88.6(1)° in complex 2 ), compared to the bigger bond angle of 100.9(1)° in the {Fe(NO)2 } 9 DNIC [(NO)2 Fe(S(CH2 )3 S)] −, may be ascribed to the electron‐rich {Fe(NO)2 } 10 DNIC preferring a restricted bite angle to alleviate the electronic donation of the chelating thiolate to the electron‐rich {Fe(NO)2 } 10 core. The extended transition state and natural orbitals for chemical valence (ETS‐NOCV) analysis on the edt‐/pdt‐chelated {Fe(NO)2 } 9 and {Fe(NO)2 } 10 DNICs demonstrates how two key bonding interactions, that is, a FeS covalent σ bond and thiolate to the Fe d z 2 charge donation, between the chelating thiolate ligand and the {Fe(NO)2 } 9/10 core could be modulated by the backbone lengths of the chelating thiolate ligands to tune the electrochemical redox potential ( E 1/2 =−1.64 V for complex 1 and E 1/2 =−1.33 V for complex 2 )Abstract: As opposed to the reversible redox reaction ({Fe(NO)2 } 10 reduced‐form DNIC [(NO)2 Fe(S(CH2 )3 S)] 2− (1 )⇌{Fe(NO)2 } 9 oxidized‐form [(NO)2 Fe(S(CH2 )3 S)] − ), the chemical oxidation of the {Fe(NO)2 } 10 DNIC [(NO)2 Fe(S(CH2 )2 S)] 2− (2 ) generates the dinuclear {Fe(NO)2 } 9 –{Fe(NO)2 } 9 complex [(NO)2 Fe(μ‐SC2 H4 S)2 Fe(NO)2 ] 2− (3 ) bridged by two terminal [SC2 H4 S] 2− ligands. On the basis of the Fe K‐edge pre‐edge energy and S K‐edge XAS, the oxidation of complex 1 yielding [(NO)2 Fe(S(CH2 )3 S)] − is predominantly a metal‐based oxidation. The smaller S1‐Fe1‐S2 bond angle of 94.1(1)° observed in complex 1 (S1‐Fe1‐S2 88.6(1)° in complex 2 ), compared to the bigger bond angle of 100.9(1)° in the {Fe(NO)2 } 9 DNIC [(NO)2 Fe(S(CH2 )3 S)] −, may be ascribed to the electron‐rich {Fe(NO)2 } 10 DNIC preferring a restricted bite angle to alleviate the electronic donation of the chelating thiolate to the electron‐rich {Fe(NO)2 } 10 core. The extended transition state and natural orbitals for chemical valence (ETS‐NOCV) analysis on the edt‐/pdt‐chelated {Fe(NO)2 } 9 and {Fe(NO)2 } 10 DNICs demonstrates how two key bonding interactions, that is, a FeS covalent σ bond and thiolate to the Fe d z 2 charge donation, between the chelating thiolate ligand and the {Fe(NO)2 } 9/10 core could be modulated by the backbone lengths of the chelating thiolate ligands to tune the electrochemical redox potential ( E 1/2 =−1.64 V for complex 1 and E 1/2 =−1.33 V for complex 2 ) and to dictate structural rearrangement/chemical transformations (S‐Fe‐S bite angle and monomeric vs. dimeric DNICs). Abstract : Good two NO : The physical properties and the chemical reactivity of the {Fe(NO)2 } 10 DNICs [(NO)2 Fe(S(CH2 ) n S)] 2− ( n =3 (pdt=1, 3‐propanedithiolate); n =2 (edt=1, 2‐ethanedithiolate), see scheme) were demonstrated to be modulated by the backbone lengths of the chelating thiolate ligands. It was shown that the FeS covalent bond and the thiolate to the Fe d z 2 charge donation modulate the reduction potentials and the chemical transformations. … (more)
- Is Part Of:
- Chemistry. Volume 21:Issue 45(2015)
- Journal:
- Chemistry
- Issue:
- Volume 21:Issue 45(2015)
- Issue Display:
- Volume 21, Issue 45 (2015)
- Year:
- 2015
- Volume:
- 21
- Issue:
- 45
- Issue Sort Value:
- 2015-0021-0045-0000
- Page Start:
- 16035
- Page End:
- 16046
- Publication Date:
- 2015-09-25
- Subjects:
- bioinorganic chemistry -- chelates -- dinitrosyl iron complexes -- nitric oxide
Chemistry -- Periodicals
540 - Journal URLs:
- http://onlinelibrary.wiley.com/journal/10.1002/(ISSN)1521-3765 ↗
http://onlinelibrary.wiley.com/ ↗ - DOI:
- 10.1002/chem.201502071 ↗
- Languages:
- English
- ISSNs:
- 0947-6539
- Deposit Type:
- Legaldeposit
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- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library DSC - 3168.860500
British Library DSC - BLDSS-3PM
British Library STI - ELD Digital store - Ingest File:
- 23604.xml