January 13, 2023, Research Highlights

Cyanopyridines As Extremely Low-Reduction-Potential Anolytes for Nonaqueous Redox Flow Batteries

Discovery of a cyanophenylpyridine derivative with a very low reduction potential and good stability during cycling. Read More

December 8, 2022, Research Highlights

Characterizing Redoxmer – Electrode Kinetics Using a SECM-Based Spot Analysis Method

Identified asymmetries in electron transfer (ET) kinetics between the reduction and oxidation of ferrocene-based redoxmers by measuring the ET rate constants (kf/kb) as a function of electrode potential. Read More

November 11, 2022, Research Highlights

Benzotriazoles as Low Potential Anolytes for Non-Aqueous Redox Flow Batteries

We developed an easy-to-synthesize benzotriazole-based anolyte with a high energy redox potential (-2.3 V vs Fc/Fc+) and high solubility that demonstrates stable electrochemical cycling performance. Read More

November 10, 2022, Research Highlights

Hydrogen evolution mitigation in iron-chromium redox flow batteries via electrochemical purification of the electrolyte

An electrochemical purification method is used to mitigate the hydrogen evolution reaction (HER) in iron-chromium (Fe-Cr) redox flow batteries (RFBs), resulting in reduced capacity fade rates. Read More

November 1, 2022, Research Highlights

Automated Measurement of Electrogenerated Redox Species Degradation Using Multiplexed Interdigitated Electrode Arrays

Microfabricated devices enabled an automated methodology to quickly screen redoxmer degradation kinetics at concentrations up to 0.5 M. Read More

October 31, 2022, Research Highlights

High Energy Density, Asymmetric, Nonaqueous Redox Flow Batteries Without A Supporting Electrolyte

Oligomers of permanently cationic anolyte and catholyte molecules allow the assembly of high energy density nonaqueous redox flow batteries with little crossover of active materials. Read More

October 27, 2022, Research Highlights

Multi-chain cation coordination plays key role in increasing glass transition temperature in polymer systems

Free energy calculations show higher thermodynamic stability of multi-chain coordination compared to single-chain coordination in P(EO-MO) resulting in a higher increase in glass transition temperature with addition of salt as compared to PEO Read More

October 11, 2022, Research Highlights

Excitonic Effects in X‐ray Absorption Spectraof Fluoride Salts and Their Surfaces

Advanced calculations of X-ray absorption spectra provide accurate reproduction of experiment, consistent energy alignment and comparative electronic structure interpretation for common fluoride salts often found at electrode interfaces. Read More

October 4, 2022, Research Highlights

Large Variability and Complexity of Isothermal Solubility for a Series of Redox-Active Phenothiazines

Phenothiazine derivatives present a robust analysis system for experimental solubility determination in all states of charge. The QSPR models were only moderately successful in predicting solubility of an unknown PT compound. Modeling solubility of a fairly complex molecular set with only a few descriptors is difficult. Read More

September 22, 2022, Research Highlights

Ionic Dynamics of the Charge Carrier for Mg Batteries

Enabled by the high accuracy and computing efficiency of machine learned interatomic potential trained on-the-fly, we performed dynamic simulation of multivalent ion diffusion in solid materials at nanosecond time scale. Our computations revealed diffusion mechanisms, where cation hopping coordinated by surrounding anions’ synchronous movements in the oxyhalide-based, novel magnesium anode coating materials. Read More