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Michael J Trenerry

Showing results (1-10 of 8) with videos related to

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Nanoscale|July 30, 2024
Ditopic ligand effects on solution structure and redox chemistry in discrete [Cu<sub>12</sub>S<sub>6</sub>] clusters with labile Cu-S bondsMichael J Trenerry, Gwendolyn A Bailey
The Journal of Physical Chemistry. A|May 14, 2024
Computational Analysis of Low Overpotential Ammonia Oxidation by Metal-Metal Bonded Ruthenium Catalysts, and Predictions for Related Osmium CatalystsMichael J Trenerry, Milton Acosta, John F Berry
Dalton Transactions (Cambridge, England : 2003)|May 11, 2023
Computational analysis of metal-metal bonded dimetal tetrabenzoate redox potentials in the context of ammonia oxidation electrocatalysisAlex M Pavelic, Michael J Trenerry, John F Berry
Inorganic Chemistry|August 26, 2025
CO<sub>2</sub> Reduction Using Chalcogen-Modified Copper Materials and Nanoclusters: Progress and ChallengesMichael J Trenerry, Manuraj Kallumkal, Eryck García L, et al.
Nature Chemistry|November 9, 2021
Spontaneous N<sub>2</sub> formation by a diruthenium complex enables electrocatalytic and aerobic oxidation of ammoniaMichael J Trenerry, Christian M Wallen, Tristan R Brown, et al.
Chemsuschem|September 27, 2022
Divergent C-H Amidations and Imidations by Tuning Electrochemical Reaction PotentialsIsaac Choi, Michael J Trenerry, Ken S Lee, et al.
ACS Catalysis|October 10, 2024
Ligand-Metal Cooperation Enables Net Ring-Opening C-C Activation / Difunctionalization of Cyclopropyl KetonesMichael M Gilbert, Michael J Trenerry, Victoria R Longley, et al.
Inorganic Chemistry|February 17, 2022
Electronic Structure of Ru<sub>2</sub><sup>6+</sup> Complexes with Electron-Rich Anilinopyridinate LigandsMichael D Roy, Michael J Trenerry, Biswash Thakuri, et al.
Pageof 1

Showing results (1-10 of 8) with videos related to

Sort By:
Pageof 1
Nanoscale|July 30, 2024
Ditopic ligand effects on solution structure and redox chemistry in discrete [Cu<sub>12</sub>S<sub>6</sub>] clusters with labile Cu-S bondsMichael J Trenerry, Gwendolyn A Bailey
The Journal of Physical Chemistry. A|May 14, 2024
Computational Analysis of Low Overpotential Ammonia Oxidation by Metal-Metal Bonded Ruthenium Catalysts, and Predictions for Related Osmium CatalystsMichael J Trenerry, Milton Acosta, John F Berry
Dalton Transactions (Cambridge, England : 2003)|May 11, 2023
Computational analysis of metal-metal bonded dimetal tetrabenzoate redox potentials in the context of ammonia oxidation electrocatalysisAlex M Pavelic, Michael J Trenerry, John F Berry
Inorganic Chemistry|August 26, 2025
CO<sub>2</sub> Reduction Using Chalcogen-Modified Copper Materials and Nanoclusters: Progress and ChallengesMichael J Trenerry, Manuraj Kallumkal, Eryck García L, et al.
Nature Chemistry|November 9, 2021
Spontaneous N<sub>2</sub> formation by a diruthenium complex enables electrocatalytic and aerobic oxidation of ammoniaMichael J Trenerry, Christian M Wallen, Tristan R Brown, et al.
Chemsuschem|September 27, 2022
Divergent C-H Amidations and Imidations by Tuning Electrochemical Reaction PotentialsIsaac Choi, Michael J Trenerry, Ken S Lee, et al.
ACS Catalysis|October 10, 2024
Ligand-Metal Cooperation Enables Net Ring-Opening C-C Activation / Difunctionalization of Cyclopropyl KetonesMichael M Gilbert, Michael J Trenerry, Victoria R Longley, et al.
Inorganic Chemistry|February 17, 2022
Electronic Structure of Ru<sub>2</sub><sup>6+</sup> Complexes with Electron-Rich Anilinopyridinate LigandsMichael D Roy, Michael J Trenerry, Biswash Thakuri, et al.
Pageof 1