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Organometallics
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September 11, 2012
Reaction of Aryl Diazonium Salts and Diiron(I) Dithiolato Carbonyls: Evidence for Radical Intermediates
Matthew T Olsen, Thomas B Rauchfuss, Riccardo Zaffaroni
Current Opinion in Biotechnology
|
April 2, 2010
Artificial hydrogenases
Bryan E Barton, Matthew T Olsen, Thomas B Rauchfuss
Journal of the American Chemical Society
|
December 5, 2008
Aza- and oxadithiolates are probable proton relays in functional models for the [FeFe]-hydrogenases
Bryan E Barton, Matthew T Olsen, Thomas B Rauchfuss
Inorganic Chemistry
|
April 1, 2017
Studies on the Activation and Hydrosilylation Catalysis of RhCl<sub>3</sub>(Bu<sub>2</sub>S)<sub>3</sub>
Matthew T Olsen, Brian D Rekken, Donald V Eldred
Inorganic Chemistry
|
July 17, 2009
Hydrogen activation by biomimetic diiron dithiolates
Matthew T Olsen, Bryan E Barton, Thomas B Rauchfuss
Journal of the American Chemical Society
|
December 1, 2010
Role of the azadithiolate cofactor in models for [FeFe]-hydrogenase: novel structures and catalytic implications
Matthew T Olsen, Thomas B Rauchfuss, Scott R Wilson
Chemical Communications (Cambridge, England)
|
July 22, 2011
Stereochemistry of electrophilic attack at 34e⁻ dimetallic complexes: the case of diiron dithiolato carbonyls + MeS⁺
Matthew T Olsen, Danielle L Gray, Thomas B Rauchfuss, et al.
Journal of the American Chemical Society
|
August 15, 2008
Nitrosyl derivatives of diiron(I) dithiolates mimic the structure and Lewis acidity of the [FeFe]-hydrogenase active site
Matthew T Olsen, Maurizio Bruschi, Luca De Gioia, et al.
Inorganic Chemistry
|
November 15, 2008
New nitrosyl derivatives of diiron dithiolates related to the active site of the [FeFe]-hydrogenases
Matthew T Olsen, Aaron K Justice, Frédéric Gloaguen, et al.
Inorganic Chemistry
|
July 18, 2012
EPR/ENDOR, Mössbauer, and quantum-chemical investigations of diiron complexes mimicking the active oxidized state of [FeFe]hydrogenase
Alexey Silakov, Matthew T Olsen, Stephen Sproules, et al.
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Search research articles
Search
Showing results (1-10 of 10) with videos related to
Sort By:
Page
of 1
Organometallics
|
September 11, 2012
Reaction of Aryl Diazonium Salts and Diiron(I) Dithiolato Carbonyls: Evidence for Radical Intermediates
Matthew T Olsen, Thomas B Rauchfuss, Riccardo Zaffaroni
Current Opinion in Biotechnology
|
April 2, 2010
Artificial hydrogenases
Bryan E Barton, Matthew T Olsen, Thomas B Rauchfuss
Journal of the American Chemical Society
|
December 5, 2008
Aza- and oxadithiolates are probable proton relays in functional models for the [FeFe]-hydrogenases
Bryan E Barton, Matthew T Olsen, Thomas B Rauchfuss
Inorganic Chemistry
|
April 1, 2017
Studies on the Activation and Hydrosilylation Catalysis of RhCl<sub>3</sub>(Bu<sub>2</sub>S)<sub>3</sub>
Matthew T Olsen, Brian D Rekken, Donald V Eldred
Inorganic Chemistry
|
July 17, 2009
Hydrogen activation by biomimetic diiron dithiolates
Matthew T Olsen, Bryan E Barton, Thomas B Rauchfuss
Journal of the American Chemical Society
|
December 1, 2010
Role of the azadithiolate cofactor in models for [FeFe]-hydrogenase: novel structures and catalytic implications
Matthew T Olsen, Thomas B Rauchfuss, Scott R Wilson
Chemical Communications (Cambridge, England)
|
July 22, 2011
Stereochemistry of electrophilic attack at 34e⁻ dimetallic complexes: the case of diiron dithiolato carbonyls + MeS⁺
Matthew T Olsen, Danielle L Gray, Thomas B Rauchfuss, et al.
Journal of the American Chemical Society
|
August 15, 2008
Nitrosyl derivatives of diiron(I) dithiolates mimic the structure and Lewis acidity of the [FeFe]-hydrogenase active site
Matthew T Olsen, Maurizio Bruschi, Luca De Gioia, et al.
Inorganic Chemistry
|
November 15, 2008
New nitrosyl derivatives of diiron dithiolates related to the active site of the [FeFe]-hydrogenases
Matthew T Olsen, Aaron K Justice, Frédéric Gloaguen, et al.
Inorganic Chemistry
|
July 18, 2012
EPR/ENDOR, Mössbauer, and quantum-chemical investigations of diiron complexes mimicking the active oxidized state of [FeFe]hydrogenase
Alexey Silakov, Matthew T Olsen, Stephen Sproules, et al.
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of 1