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Sophia G Robinson

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

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Accounts of Chemical Research|January 11, 2020
Integrating Electrochemical and Statistical Analysis Tools for Molecular Design and Mechanistic UnderstandingSophia G Robinson, Matthew S Sigman
Journal of the American Chemical Society|September 11, 2019
Mechanism-Based Design of a High-Potential Catholyte Enables a 3.2 V All-Organic Nonaqueous Redox Flow BatteryYichao Yan, Sophia G Robinson, Matthew S Sigman, et al.
Journal of the American Chemical Society|October 16, 2020
Mechanistic Studies Inform Design of Improved Ti(salen) Catalysts for Enantioselective [3 + 2] CycloadditionSophia G Robinson, Xiangyu Wu, Binyang Jiang, et al.
Journal of the American Chemical Society|June 18, 2019
Developing a Predictive Solubility Model for Monomeric and Oligomeric Cyclopropenium-Based Flow Battery CatholytesSophia G Robinson, Yichao Yan, Koen H Hendriks, et al.
Journal of the American Chemical Society|August 13, 2021
Simultaneously Enhancing the Redox Potential and Stability of Multi-Redox Organic Catholytes by Incorporating Cyclopropenium SubstituentsYichao Yan, Sophia G Robinson, Thomas P Vaid, et al.
Organic Letters|May 19, 2020
Electrochemical Ruthenium-Catalyzed C-H Hydroxylation of Amine Derivatives in Aqueous AcidSophia G Robinson, James B C Mack, Sara N Alektiar, et al.
Dalton Transactions (Cambridge, England : 2003)|July 5, 2016
Calorimetric studies of the interactions of metalloenzyme active site mimetics with zinc-binding inhibitorsSophia G Robinson, Philip T Burns, Amanda M Miceli, et al.
Journal of the American Chemical Society|January 3, 2019
Mechanistic Study of Ruthenium-Catalyzed C-H Hydroxylation Reveals an Unexpected Pathway for Catalyst ArrestJames B C Mack, Katherine L Walker, Sophia G Robinson, et al.
Journal of the American Chemical Society|February 22, 2017
Physical Organic Approach to Persistent, Cyclable, Low-Potential Electrolytes for Flow Battery ApplicationsChristo S Sevov, David P Hickey, Monique E Cook, et al.
ACS Central Science|March 14, 2018
High-Performance Oligomeric Catholytes for Effective Macromolecular Separation in Nonaqueous Redox Flow BatteriesKoen H Hendriks, Sophia G Robinson, Miles N Braten, et al.
Pageof 1

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

Sort By:
Pageof 1
Accounts of Chemical Research|January 11, 2020
Integrating Electrochemical and Statistical Analysis Tools for Molecular Design and Mechanistic UnderstandingSophia G Robinson, Matthew S Sigman
Journal of the American Chemical Society|September 11, 2019
Mechanism-Based Design of a High-Potential Catholyte Enables a 3.2 V All-Organic Nonaqueous Redox Flow BatteryYichao Yan, Sophia G Robinson, Matthew S Sigman, et al.
Journal of the American Chemical Society|October 16, 2020
Mechanistic Studies Inform Design of Improved Ti(salen) Catalysts for Enantioselective [3 + 2] CycloadditionSophia G Robinson, Xiangyu Wu, Binyang Jiang, et al.
Journal of the American Chemical Society|June 18, 2019
Developing a Predictive Solubility Model for Monomeric and Oligomeric Cyclopropenium-Based Flow Battery CatholytesSophia G Robinson, Yichao Yan, Koen H Hendriks, et al.
Journal of the American Chemical Society|August 13, 2021
Simultaneously Enhancing the Redox Potential and Stability of Multi-Redox Organic Catholytes by Incorporating Cyclopropenium SubstituentsYichao Yan, Sophia G Robinson, Thomas P Vaid, et al.
Organic Letters|May 19, 2020
Electrochemical Ruthenium-Catalyzed C-H Hydroxylation of Amine Derivatives in Aqueous AcidSophia G Robinson, James B C Mack, Sara N Alektiar, et al.
Dalton Transactions (Cambridge, England : 2003)|July 5, 2016
Calorimetric studies of the interactions of metalloenzyme active site mimetics with zinc-binding inhibitorsSophia G Robinson, Philip T Burns, Amanda M Miceli, et al.
Journal of the American Chemical Society|January 3, 2019
Mechanistic Study of Ruthenium-Catalyzed C-H Hydroxylation Reveals an Unexpected Pathway for Catalyst ArrestJames B C Mack, Katherine L Walker, Sophia G Robinson, et al.
Journal of the American Chemical Society|February 22, 2017
Physical Organic Approach to Persistent, Cyclable, Low-Potential Electrolytes for Flow Battery ApplicationsChristo S Sevov, David P Hickey, Monique E Cook, et al.
ACS Central Science|March 14, 2018
High-Performance Oligomeric Catholytes for Effective Macromolecular Separation in Nonaqueous Redox Flow BatteriesKoen H Hendriks, Sophia G Robinson, Miles N Braten, et al.
Pageof 1