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ACS Central Science
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March 27, 2023
Electrochemistry Cracks the P-O Bond: Sustainable Reduction of Phosphates to Phosphorus
Eva M Nichols
Inorganic Chemistry
|
February 27, 2026
The Effect of Exogenous Acid Identity on Iron Tetraphenylporphyrin-Catalyzed CO<sub>2</sub> Reduction
Kaeden Teindl, Eva M Nichols
Nature Chemistry
|
February 29, 2024
Molecularly defined electrodes host a concert of protons and electrons
Siyuan L Xie, Eva M Nichols
Chemical Science
|
September 22, 2025
Promoting selective electrochemical CO<sub>2</sub> reduction under unconventionally acidic conditions through secondary coordination sphere positioning
Kaeden Teindl, Jolene P Reid, Eva M Nichols
Journal of the American Chemical Society
|
July 27, 2023
Linear Free Energy Relationships and Transition State Analysis of CO<sub>2</sub> Reduction Catalysts Bearing Second Coordination Spheres with Tunable Acidity
Kaeden Teindl, Brian O Patrick, Eva M Nichols
Journal of the American Chemical Society
|
July 13, 2021
Interfacial Acid-Base Equilibria and Electric Fields Concurrently Probed by <i>In Situ</i> Surface-Enhanced Infrared Spectroscopy
Murielle F Delley, Eva M Nichols, James M Mayer
The Journal of Physical Chemistry. C, Nanomaterials and Interfaces
|
July 30, 2025
Electrolyte Cation Effects on Interfacial Acidity and Electric Fields
Murielle F Delley, Eva M Nichols, James M Mayer
ACS Central Science
|
July 1, 2024
Porphyrin Aggregation under Homogeneous Conditions Inhibits Electrocatalysis: A Case Study on CO<sub>2</sub> Reduction
Kaitlin L Branch, Erin R Johnson, Eva M Nichols
Journal of Inorganic Biochemistry
|
May 11, 2026
CO binding at Iron porphyrins: Reflecting on Heme model complexes to guide future electrocatalyst design
Daelin Peel-Smith, Connor S Durfy, Eva M Nichols
Journal of the American Chemical Society
|
January 2, 2026
Highly Acidic Second Coordination Spheres Promote In Situ Formation of Iron Phlorins Exhibiting Fast and Selective CO<sub>2</sub> Reduction
Kaeden Teindl, Daniel Jacobs, Julien A Panetier, et al.
Page
of 3
Search research articles
Search
Showing results (1-10 of 26) with videos related to
Sort By:
Page
of 3
ACS Central Science
|
March 27, 2023
Electrochemistry Cracks the P-O Bond: Sustainable Reduction of Phosphates to Phosphorus
Eva M Nichols
Inorganic Chemistry
|
February 27, 2026
The Effect of Exogenous Acid Identity on Iron Tetraphenylporphyrin-Catalyzed CO<sub>2</sub> Reduction
Kaeden Teindl, Eva M Nichols
Nature Chemistry
|
February 29, 2024
Molecularly defined electrodes host a concert of protons and electrons
Siyuan L Xie, Eva M Nichols
Chemical Science
|
September 22, 2025
Promoting selective electrochemical CO<sub>2</sub> reduction under unconventionally acidic conditions through secondary coordination sphere positioning
Kaeden Teindl, Jolene P Reid, Eva M Nichols
Journal of the American Chemical Society
|
July 27, 2023
Linear Free Energy Relationships and Transition State Analysis of CO<sub>2</sub> Reduction Catalysts Bearing Second Coordination Spheres with Tunable Acidity
Kaeden Teindl, Brian O Patrick, Eva M Nichols
Journal of the American Chemical Society
|
July 13, 2021
Interfacial Acid-Base Equilibria and Electric Fields Concurrently Probed by <i>In Situ</i> Surface-Enhanced Infrared Spectroscopy
Murielle F Delley, Eva M Nichols, James M Mayer
The Journal of Physical Chemistry. C, Nanomaterials and Interfaces
|
July 30, 2025
Electrolyte Cation Effects on Interfacial Acidity and Electric Fields
Murielle F Delley, Eva M Nichols, James M Mayer
ACS Central Science
|
July 1, 2024
Porphyrin Aggregation under Homogeneous Conditions Inhibits Electrocatalysis: A Case Study on CO<sub>2</sub> Reduction
Kaitlin L Branch, Erin R Johnson, Eva M Nichols
Journal of Inorganic Biochemistry
|
May 11, 2026
CO binding at Iron porphyrins: Reflecting on Heme model complexes to guide future electrocatalyst design
Daelin Peel-Smith, Connor S Durfy, Eva M Nichols
Journal of the American Chemical Society
|
January 2, 2026
Highly Acidic Second Coordination Spheres Promote In Situ Formation of Iron Phlorins Exhibiting Fast and Selective CO<sub>2</sub> Reduction
Kaeden Teindl, Daniel Jacobs, Julien A Panetier, et al.
Page
of 3