Publications

Publications 2023 - 2017

2023

Journal of Electroanalytical Chemistry.jpg

131.

A. M. Fenton, Jr., B. J. Neyhouse, K. M. Tenny, Y. Chiang, F. R. Brushett

An automated and lightweight framework for electrolyte diagnostics using quantitative microelectrode voltammetry

Journal of Electroanalytical Chemistry, 2023

Volume 947, 15 October 2023, 117689

Journal of The Electrochemical Society.jpg

130.

C. T. Wan, R. M. Darling, Y. Chiang, F. R. Brushett

Modeling Nanoscale Ohmics in Carbon Supports of Fuel Cell Cathodes

Journal of the Electrochemical Society, 2023

DOI 10.1149/1945-7111/acd4ef

129.

W. Gao, J. Drake, F. R. Brushett

Modeling the Impact of Electrolyte Flow on Heat Management in a Li-Ion Convection Cell

Journal of the Electrochemical Society, 2023

128.

B. J. Neyhouse, R. M. Darling, J. D. Saraidaridis, F. R. Brushett

A method for quantifying crossover in redox flow cells through compositionally unbalanced symmetric cell cycling

Journal of the Electrochemical Society, 2023

170 (8), 080514

127.

A. M. Zito, L. E. Clarke, J. M. Barlow, D. Bim, Z. Zhang, K. Ripley, C. J. Li, A. Kummeth, M. E. Leonard, A. N. Alexandrova, F. R. Brushett, and J. Y. Yang

Electrochemical Carbon Dioxide Capture and Concentration

Chem. Rev. 2023, 123, 13, 8069–8098

Publication Date: 21 June 2023

https://doi.org/10.1021/acs.chemrev.2c00681

126.

T. A. Weiss, G. Fan, B. J. Neyhouse, E. B. Moore, A. L. Furst, F. R. Brushett

Characterizing the Impact of Oligomerization on Redox Flow Cell Performance

Batteries and Supercaps, Chemistry Europe, 2023

125.

M. V. Majji, B. J. Neyhouse, N.J. Matteucci, K. R. Lennon, C. T. Mallia, A. M. Fenton, Jr., J. W. Swan, and F. R. Brushett

Modeling Electrochemical and Rheological Characteristics of Suspension-Based Electrodes for Redox Flow Cells

Journal of The Electrochemical Society, 2023

107 - Journal of Electroanalytical Chemistry.jpg

124.

A. M. Fenton, Jr., F. R. Brushett

Leveraging graphical models to enhance in situ analyte identification via multiple voltammetric techniques

Journal of Electroanalytical Chemistry, 2023

Volume 936, 1 May 2023, 117299

https://doi.org/10.1016/j.jelechem.2023.117299

123.

K. E. Rodby, R. L. Jaffe, E. A. Olivetti, F. R. Brushett

Materials availability and supply chain considerations for vanadium in grid-scale redox flow batteries

Journal of Power Sources, 2023

Volume 560, 15 March 2023, 232605

https://doi.org/10.1016/j.jpowsour.2022.232605

122.

J. J. Patil, C. T. Wan, S. Gong, Y. Chiang, F. R. Brushett, and J. C. Grossman

Bayesian-Optimization-Assisted Laser Reduction of Poly(acrylonitrile) for Electrochemical Applications

ACS Nano, 22 February 2023

17, 5, 4999–5013

https://doi.org/10.1021/acsnano.2c12663

121.

langmuird5.2023.39.issue-3.largecover.jpg

C. T. Wan, A. Ismail, A. H. Quinn, Y. Chiang, F. R. Brushett

Synthesis and Characterization of Dense Carbon Films as Model Surfaces to Estimate Electron Transfer Kinetics on Redox Flow Battery Electrodes

Langmuir, 2023

39, 3, 1198–1214

https://doi.org/10.1021/acs.langmuir.2c03003

120.

A. P. Kaur, B. J. Neyhouse, I. A. Shkrob, Y. Wang, N. H. Attanayake, R. K. Jha, Q. Wu, L. Zhang, R. H. Ewoldt, F. R. Brushett, S. A. Odom

Concentration-dependent cycling of phenothiazine-based electrolytes in nonaqueous redox flow cells

Chemistry an Asian Journal, 2023

18(5), e202201171

2022

119.

C. T. Wan, K. E. Rodby, M. L. Perry, Y. Chiang and F. R. Brushett

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

Journal of Power Sources, 2022
DOI: 10.1016/j.jpowsour.2022.232248

118.

A. M. Fenton, Jr., Y. A. Gandomi, C. T. Mallia, B. J. Neyhouse, A. Kpeglo, W. E. Exson, C. T. Wan, and F. R. Brushett

Toward a Mechanically Rechargeable Solid Fuel Flow Battery Based on Earth-Abundant Materials

ACS Omega, 2022
DOI: 10.1021/acsomega.2c05798

117.

J. M. Barlow, L. E. Clarke, Z. Zhang, D. Bím, K. M. Ripley, A. Zito, F. R. Brushett, A. N. Alexandrova, and J. Y. Yang

Molecular Design of Redox Carriers for Electrochemical CO2 Capture and Concentration

Chemical Society Reviews, 2022
DOI: 10.1039/D2CS00367H

116.

B. J. Neyhouse, J. Lee, F. R. Brushett

Connecting material properties and redox flow cell cycling performance through zero-dimensional models

Journal of The Electrochemical Society, 2022

169(9), 090503

DOI: 10.1149/1945-7111/ac86aa

115.

A. M. Fenton Jr., R. Kant Jha, B. J. Neyhouse, A. P. Kaur, D. A. Dailey, S. A. Odom, F. R. Brushett

On the challenges of materials and electrochemical characterization of concentrated electrolytes for redox flow batteries

Journal of Materials Chemistry A, 2022

DOI: 10.1039/d2ta00690a

In memory of Prof. Susan A. Odom

114.

M. S. Pan, L. Su, , S. L. Eiler, L. W. Jing, A. F. Badel, Z. Li, F. R. Brushett, and Y. Chiang

Electrochemical Stability and Reversibility of Aqueous Polysulfide Electrodes Cycled Beyond the Solubility Limit

Journal of The Electrochemical Society, 2022

DOI: 10.1149/1945-7111/ac7669

113.

K. M. Tenny, K.V. Greco, M. V. Heijden, T. Pini, A. Mularczyk, A. Vasile, J. Eller, A. Forner-Cuenca, Y. Chiang, and F. R. Brushett

A Comparative Study of Compressive Effects on the Morphology and Performance of Carbon Paper and Cloth Electrodes in Redox Flow Batteries

Energy Technology, 2022

DOI: 10.1002/ente.202101162

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112.CellReportsPhysicalScienceTempCover.jpg

112.

R. R. Jacquemond, C. T. Wan, Y. Chiang, Z. Borneman, F. R. Brushett, K. Nijmeijer, and A. Forner-Cuenca

Microstructural engineering of high-power redox flow battery electrodes via non-solvent induced phase separation

Cell Reports Physical Science, 2022

DOI: 10.1016/j.xcrp.2022.100943

111.

L. E. Clarke, M. E. Leonard, T. A. Hatton, and F. R, Brushett

Thermodynamic Modeling of CO2 Separation Systems with Soluble, Redox-Active Capture Species

Industrial & Engineering Chemistry Research, 2022

DOI: 10.1021/acs.iecr.1c04185

110.

A. Alazmi, C. T. Wan, P. M. Costa, and F. R. Brushett

Exploration of Reduced Graphene Oxide Microparticles as Electrocatalytic Materials in Vanadium Redox Flow Batteries

Journal of Energy Storage, 2022

50,104192

109.

M. L. Perry, K. E. Rodby, and F. R. Brushett

Untapped Potential: The Need and Opportunity for High-Voltage Aqueous Redox Flow Batteries

ACS Energy Letters, 2022

7, 659–667

108.

B. A. Simon, A. Gayon-Lombardo, C. A. Pino-Muñoz, C. E. Wood, K. M. Tenny, K. V. Greco, S. J. Cooper, A. Forner-Cuenca, F. R. Brushett, A. R. Kucernak, and N. P. Brandon

Combining Electrochemical and Imaging Analyses to Understand the Effect of Electrode Microstructure and Electrolyte Properties on Redox Flow Batteries

Applied Energy, 2022

306 (Part B), 117678

2021

106 - Journal of Electroanalytical Chemistry.jpg

107.

A. M. Fenton Jr. and F. R. Brushett

Using Voltammetry Augmented with Physics-based Modeling and Bayesian Hypothesis Testing to Identify Analytes in Electrolyte Solutions

Journal of Electroanalytical Chemistry, 2022

904, 115751

2021

106.

C. T. Wan, K. V. Greco, A. Alazmi, R. M. Darling, Y.-M. Chiang, and F. R. Brushett

Methods—A Potential–Dependent Thiele Modulus to Quantify the Effectiveness of Porous Electrocatalysts

Journal of the Electrochemical Society, 2021

168(12), 123503

105.

Z. Cheng, K. M. Tenny, A. Pizzolato, A. Forner-Cuenca, V. Verda, Y.-M. Chiang, F. R. Brushett, and R. Behrou

A Generalized Reduced Fluid Dynamic Model for Flow Fields and Electrodes in Redox Flow Batteries

AIChE Journal, 2021

DOI: 10.1002/aic.17540

104.

B. J. Neyhouse, K. M. Tenny, Y.-M. Chiang, and F. R. Brushett

Microelectrode-Based Sensor for Measuring Operando Active Species Concentrations in Redox Flow Cells

ACS Applied Energy Materials, 2021

4(12), 13830-13840

103.

K. V. Greco, J. K. Bonesteel, N. Chanut, C. T. Wan, Y.-M. Chiang, and F. R. Brushett

Limited Accessibility to Surface Area Generated by Thermal Pretreatment of Electrodes Reduces Its Impact on Redox Flow Battery Performance

ACS Applied Energy Materials, 2021

4(12), 13516–13527

102 - ACS Applied Materials & Interfaces.jpg

102.

Y. Ashraf Gandomi, I. V. Krasnikova, N. O. Akhmetov, N. A. Ovsyannikov, M. A. Pogosova, N. J. Matteucci, C. T. Mallia, B. J. Neyhouse, A. M. Fenton Jr., F. R. Brushett, and K. J. Stevenson
Synthesis and Characterization of Lithium-Conducting Composite Polymer–Ceramic Membranes for Use in Nonaqueous Redox Flow Batteries

ACS Applied Materials & Interfaces, 2021

13(45), 53746–53757

101.

B. J. Neyhouse and F. R. Brushett
From the Synthesis Vial to the Full Cell: Electrochemical Methods for Characterizing Active Materials for Redox Flow Batteries
Encyclopedia of Energy Storage, 2022

2, 453

100.

K. E. Rodby, M. L. Perry, and F. R. Brushett
Assessing Capacity Loss Remediation Methods for Asymmetric Redox Flow Battery Chemistries Using Levelized Cost of Storage
Journal of Power Sources, 2021
506, 230085

99.

K. M. Tenny, R. D. Braatz, Y.-M. Chiang, and F. R. Brushett
Leveraging Neural Networks and Genetic Algorithms to Refine Electrode Properties in Redox Flow Batteries
Journal of the Electrochemical Society, 2021

168(5), 050547

98.

Z. Liang, N. H. Attanayake, K. V. Greco, B. J. Neyhouse, J. L. Barton, A. P. Kaur, W. L. Eubanks, F. R. Brushett, J. Landon, and S. A. Odom
Comparison of Separators vs Membranes in Nonaqueous Redox Flow Battery Electrolytes Containing Small Molecule Active Materials
ACS Applied Energy Materials, 2021

97.

B. J. Neyhouse, A. M. Fenton Jr., and F. R. Brushett
Too Much of a Good Thing? Assessing Performance Tradeoffs of Two-Electron Compounds for Redox Flow Batteries
Journal of the Electrochemical Society, 2021

168(5), 050501

96.

M. J. Orella, M. E. Leonard, Y. Román-Leshkov, and F. R. Brushett
High-throughput Analysis of Contact Angle Goniometry Data Using DropPy
SoftwareX, 2021

14, 100665

95.

C. T. Wan, R. R. Jacquemond, Y.-M. Chiang, K. Nijmeijer, F. R. Brushett, and A. Forner-Cuenca
Non‐Solvent Induced Phase Separation Enables Designer Redox Flow Battery Electrodes
Advanced Materials, 2021

2006716

2020

94.

S. Yadav, M. D. R. Kok, A. Forner-Cuenca, K. M. Tenny, Y.-M. Chiang, F. R. Brushett, R. Jervis, P. R. Shearing, D. Brett, E. P. L. Roberts, and J. T. Gostick
Fabrication of High Surface Area Ribbon Electrodes for Use in Redox Flow Batteries via Coaxial Electrospinning
Journal of Energy Storage, 2021

33, 102079

2020

93.

W. Gao, M. J. Orella, T. J. Carney, Y. Román-Leshkov, J. Drake, and F.R. Brushett
Understanding the Impact of Convective Transport on Intercalation Batteries Through Dimensional Analysis
Journal of the Electrochemical Society, 2020

167(14), 140551

92.

J. A. Kowalski, A. M. Fenton Jr., B. J. Neyhouse, and F. R. Brushett
A Method for Evaluating Soluble Redox Couple Stability Using Microelectrode Voltammetry
Journal of the Electrochemical Society, 2020

167(16), 160513

91.

M. E. Leonard, M. J. Orella, N. Aiello, Y. Román-Leshkov, A. Forner-Cuenca, and F. R. Brushett
Flooded by Success: On the Role of Electrode Wettability in CO2 Electrolyzers that Generate Liquid Products
Journal of the Electrochemical Society, 2020

167(12), 124521

Editors' Choice paper

90.

M. Heydari Gharahcheshmeh, C. T. Wan, Y. Ashraf Gandomi, K. V. Greco, A. Forner-Cuenca, Y.-M. Chiang, F. R. Brushett, and K. K. Gleason
Ultrathin Conformal oCVD PEDOT Coatings on Carbon Electrodes Enable Improved Performance of Redox Flow Batteries
Advanced Materials Interfaces, 2020

7(20), 2000855

89.

Z. Cheng, K. M. Tenny, A. Pizzolato, A. Forner-Cuenca, V. Verda, Y.-M. Chiang, F. R. Brushett, and R. Behrou
Data-Driven Electrode Parameter Identification for Vanadium Redox Flow Batteries Through Experimental and Numerical Methods
Applied Energy, 2020

279, 115530

88.

B. Chakrabarti, E. Kalamaras, A. K. Singh, A. Bertei, J. Rubio-Garcia, V. Yufit, K. M. Tenny, B. Wu, F. Tariq, Y. S. Hajimolana, N. Brandon, J. Low, E. P.L. Roberts, Y.-M. Chiang, and F. R. Brushett
Modelling of redox flow battery electrode processes at a range of length scales: a review
Sustainable Energy & Fuels, 2020

4, 5433-5468

87 - PNAS - decarbonizing the energy lan

87.

L. Trahey, F. R. Brushett, N. P. Balsara, G. Ceder, L. Cheng, Y.-M. Chiang, N. T. Hahn, B. J. Ingram, S. D. Minteer, J. S. Moore, K. T. Mueller, L. F. Nazar, K. A. Persson, D. J. Siegel, K. Xu, K. R. Zavadil, V. Srinivasan, and G. W. Crabtree
Energy storage emerging: A perspective from the Joint Center for Energy Storage Research
PNAS, 2020

117(23), 12550-12557

86.

C. T. Wan, D. López Barreiro, A. Forner-Cuenca, J.-W. Barotta, M. Hawker, G. Han, H.-C. Loh, A. Masic, D. L. Kaplan, Y.-M. Chiang, F. R. Brushett, F. J. Martin-Martinez, and M. J. Buehler

Exploration of Biomass-Derived Activated Carbons for Use in Vanadium Redox Flow Batteries

ACS Sustainable Chem. Eng., 2020

8(25), 9472-9482

85.

K. E. Rodby, T. J. Carney, Y. Ashraf Gandomi, J. L. Barton, R. M. Darling, and F. R. Brushett

Assessing the levelized cost of vanadium redox flow batteries with capacity fade and rebalancing

Journal of Power Sources, 2020
460, 227958

84.

K. M. Tenny, A. Forner-Cuenca, Y.-M. Chiang, and F. R. Brushett
Comparing Physical and Electrochemical Properties of Different Weave Patterns for Carbon Cloth Electrodes in Redox Flow Batteries
Journal of Electrochemical Energy Conversion and Storage, 2020

17(4), 041108

Invited contribution to the special issue "Emerging Investigators in Electrochemical Energy Conversion and Storage 2020"

83.

F. R. Brushett, M. J. Aziz, and K. E. Rodby

On Lifetime and Cost of Redox-Active Organics for Aqueous Flow Batteries

ACS Energy Letters, 2020
5(3), 879-884

82.

J. A. Kowalski, T. J. Carney, J. Huang, L. Zhang, and F. R. Brushett

An investigation on the impact of halidization on substituted dimethoxybenzenes

Electrochimica Acta, 2020

335, 135580

J. A. Kowalski, B. J. Neyhouse, and F. R. Brushett

The impact of bulk electrolysis cycling conditions on the perceived stability of redox active materials

Electrochemistry Communications, 2020

111, 106625

75 - Electrochemistry Communications.jpg

81.

D. Zhang, A. Forner-Cuenca, O. O. Taiwo, V. Yufit, F. R. Brushett, N. P. Brandon, S. Gu, and Q. Cai

Understanding the role of the porous electrode microstructure in redox flow battery performance using an experimentally validated 3D pore-scale lattice Boltzmann model

Journal of Power Sources, 2020

447, 227249

81.

2019

80.

79.

M. J. Orella, S. M. Brown, M. E. Leonard, Y. Román-Leshkov, and F. R. Brushett

A General Techno‐Economic Model for Evaluating Emerging Electrolytic Processes

Energy Technology, 2019

8(11), 1900994

78.

A. Forner-Cuenca and F. R. Brushett

Engineering porous electrodes for next-generation redox flow batteries: recent progress and opportunities

Current Opinion in Electrochemistry, 2019

18, 113-122

Invited contribution to the special issue "Energy Storage ● Energy Transformation"

77.

M. E. Leonard, L. E. Clarke, A. Forner-Cuenca, S. M. Brown, and F. R. Brushett

Investigating Electrode Flooding in a Flowing Electrolyte, Gas-Fed Carbon Dioxide Electrolyzer

ChemSusChem, 2019

13(2), 400-411

Listed as a Very Important Paper in ChemSusChem

76.

M. Orella, T. Z. H. Gani, J. V. Vermaas, M. L. Stone, E. M. Anderson, G. T. Beckham, F. R. Brushett, and Y. Román-Leshkov

Lignin-KMC: A Toolkit for Simulating Lignin Biosynthesis

ACS Sustainable Chem. Eng., 2019

7(22), 18313-18322

75.

M. Gigli, J. A. Kowalski, B. J. Neyhouse, A. D'Epifanio, F. R. Brushett, and S. Licoccia

Investigating the factors that influence resistance rise of PIM-1 membranes in nonaqueous electrolytes

Electrochemistry Communications, 2019

107, 106530

74.

S. Sen, S. M. Brown, M. Leonard, and F. R. Brushett

Electroreduction of carbon dioxide to formate at high current densities using tin and tin oxide gas diffusion electrodes

Journal of Applied Electrochemistry, 2019

49(9), 917-928

74 - Journal_of_Applied_Electrochemistry

73.

T. Z. H. Gani, M. J. Orella, E. M. Anderson, M. L. Stone, F. R. Brushett, G. T. Beckham, and Y. Román-Leshkov

Computational evidence for kinetically controlled radical coupling during lignification

ACS Sustainable Chem. Eng., 2019

7(15), 13270-13277

72.

A. Forner-Cuenca, E. E. Penn, A. M. Oliveira, and F. R. Brushett

Exploring the Role of Electrode Microstructure on the Performance of Non-Aqueous Redox Flow Batteries

Journal of The Electrochemical Society, 2019

166(10), A2230-A2241

71.

J. L. Barton, A. I. Wixtrom, J. A. Kowalski, E. A. Qian, D. Jung, F. R. Brushett, and A. M. Spokoyny

Perfunctionalized Dodecaborate Clusters as Stable Metal-Free Active Materials for Charge Storage

ACS Appl. Energy Mater., 2019

2(7), 4907-4913

70.

C. Wiberg, T. J. Carney, F. Brushett, E. Ahlberg, and E. Wang

Dimerization of 9,10-anthraquinone-2,7-Disulfonic acid (AQDS)

Electrochimica Acta, 2019

317, 478-485

69.

N. H. Attanayake, J. A. Kowalski, K. V. Greco, M. D. Casselman, J. D. Milshtein, S. J. Chapman, S. R. Parkin, F. R. Brushett, and S. A. Odom

Tailoring Two-Electron-Donating Phenothiazines To Enable High-Concentration Redox Electrolytes for Use in Nonaqueous Redox Flow Batteries

Chemistry of Materials, 2019

31(12), 4353-4363

68.

J. L. Barton and F. R. Brushett

A One-Dimensional Stack Model for Redox Flow Battery Analysis and Operation

Batteries, 2019

5(1), 25

Invited contribution to the special issue "Vanadium Redox Flow Battery and Its Applications"

67.

M. M. Machovina, E. S. Ellis, T. J. Carney, F. R. Brushett, and J. L. DuBois

How a cofactor-free protein environment lowers the barrier to O2 reactivity

J. Biol. Chem., 2019

294(10), 3661-3669

2018

69 Tailoring Phenothiazines Kowalski.jpe

66.

K. V. Greco, A. Forner-Cuenca, A. Mularczyk, J. Eller, and F. R. Brushett

Elucidating the Nuanced Effects of Thermal Pretreatment on Carbon Paper Electrodes for Vanadium Redox Flow Batteries

ACS Appl. Mater. Interfaces, 2018

10(51), 44430-44442

65.

P. Bai, J. Guo, M. Wang, A. Kushima, L. Su, J. Li, F. R. Brushett, and M. Z. Bazant

Interactions between Lithium Growths and Nanoporous Ceramic Separators

Joule, 2018

2(11), 2434-2449

Electrochemical Engineering - From Disco

64.

T. J. Carney, D. S. Hodge, L. Trahey, and F. R. Brushett

The Joint Center for Energy Storage Research: A New Paradigm of Research, Development, and Demonstration

Chapter 2 in Electrochemical Engineering: From Discovery to Product, 2018.

63.

J. L. Barton, J. D. Milshtein, J. J. Hinricher,
and F. R. Brushett

Quantifying the impact of viscosity on mass-transfer coefficients in redox flow batteries

Journal of Power Sources, 2018

399, 133-143

62.

V. Dieterich, J. Milshtein, J. Barton, T. Carney,
R. Darling, and F. Brushett

Estimating the Cost of Organic Battery Active Materials: A Case Study on Anthraquinone Disulfonic Acid

Translational Materials Research, 2018

5, 034001

61.

M. J. Orella, Y. Román-Leshkov, and F. R. Brushett

Emerging opportunities for electrochemical processing to enable sustainable chemical manufacturing

Current Opinion in Chemical Engineering, 2018

20, 159-167

2017

60.

S. Sen, M. Leonard, R. Radhakrishnan, S. Snyder, B. Skinn, D. Wang, T. Hall, E. J. Taylor, and F. R. Brushett

Pulse Plating of Copper onto Gas Diffusion Layers for the Electroreduction of Carbon Dioxide

MRS Advances, 2017

3(23), 1277-1284

59.

J. D. Milshtein, R. M. Darling, J. Drake, M. L. Perry, and F. R. Brushett

The Critical Role of Supporting Electrolyte Selection on Flow Battery Cost

Journal of The Electrochemical Society, 2017

164(14), A3883-A3895

58.

J. A. Kowalski, M. D. Casselman, A. P. Kaur, J. D. Milshtein, C. F. Elliott, S. Modekrutti, N. H. Attanayake, N. Zhang, S. R. Parkin, C. Risko, F. R. Brushett, and S. A. Odom

A Stable Two-Electron-Donating Phenothiazine for Application in Nonaqueous Redox Flow Batteries

Journal of Materials Chemistry A, 2017

5, 24371-24379

57.

Z. Li, M. S. Pan, L. Su, P.-C. Tsai, A. F. Badel, J. M. Valle, S. L. Eiler, K. Xiang, F. R. Brushett, and Y.-M. Chiang

Air-Breathing Aqueous Sulfur Flow Battery for Ultralow-Cost Long-Duration Electrical Storage

Joule, 2017

1, 306-327

Featured as a Joule backstory and as the October 2017 cover art (pictured).

56.

E. V. Carino, D. J. Newman, J. G. Connell, C. Kim, and F. R. Brushett

Early Stage Anodic Instability of Glassy Carbon Electrodes in Propylene Carbonate Solvent Containing Lithium Hexafluorophosphate

Langmuir, 2017

33(43), 11911–11918

55.

L. Su, A. F. Badel, C. Cao, J. J. Hinricher, and F. R. Brushett

Toward an Inexpensive Aqueous Polysulfide-Polyiodide Redox Flow Battery

Industrial & Engineering Chemistry Research, 2017

56(35), 9783–9792

Invited paper

I&EC Research special issue for the 2017 Class of Influential Researchers

54.

J. D. Milshtein, J. L. Barton, T. J. Carney, J. A. Kowalski, R. M. Darling, and F. R. Brushett

Towards Low Resistance Nonaqueous Redox Flow Batteries

Journal of The Electrochemical Society, 2017

164(12), A2487-A2499

53.

S. Liu, M. Kok, Y. Kim, J. L. Barton, F. R. Brushett, and J. Gostick

Evaluation of Electrospun Fibrous Mats Targeted for Use as Flow Battery Electrodes

Journal of The Electrochemical Society, 2017

164(9), A2038-A2048

52.

J. D. Milshtein, K. M. Tenny, J. L. Barton, J. Drake, R. M. Darling, and F. R. Brushett

Quantifying Mass Transfer Rates in Redox Flow Batteries

Journal of The Electrochemical Society, 2017

164(11), E3265-E3275

JES Focus Issue on Mathematical Modeling of Electrochemical Systems at Multiple Scales in Honor of John Newman

One of the most downloaded in Q1 & Q2 2018!

51.

L. Su, M. Ferrandon, J. L. Barton, N. Upia de la Rosa, J. T. Vaughey, and F. R. Brushett

An investigation of 2,5-di-tertbutyl-1,4-bis(methoxyethoxy)benzene in ether-based electrolytes

Electrochimica Acta, 2017

246, 251-258

50.

B. Yan, N. M. Concannon, J. D. Milshtein, F. R. Brushett, and Y. Surendranath

A Membrane-Free Neutral pH Formate Fuel Cell Enabled by a Selective Nickel Sulfide Oxygen Reduction Catalyst

Angewandte Chemie International Edition, 2017

56(26), 7496-7499

Listed as a Very Important Paper in Angewandte Chemie International Edition

49.

T. J. Carney, S. J. Collins, J. S. Moore, and F. R. Brushett
Concentration-Dependent Dimerization of Anthraquinone Disulfonic Acid
and Its Impact on Charge Storage
Chemistry of Materials, 2017

29(11), 4801-4810

48.

W. Duan, J. Huang, J. A. Kowalski, I. A. Shkrob, M. Vijayakumar, E. Walter, B. Pan, Z. Yang, J. D. Milshtein, B. Li, C. Liao, Z. Zhang, W. Wang, J. Liu, J. S. Moore, F. R. Brushett, L. Zhang, and X. Wei

“Wine-Dark Sea” in an Organic Flow Battery: Storing Negative Charge in 2,1,3-Benzothiadiazole Radicals Leads to Improved Cyclability

ACS Energy Letters, 2017

2, 1156-1161

47.

D. D. Nevers, F. R. Brushett, and D. R. Wheeler

Engineering radical polymer electrodes for electrochemical energy storage

Journal of Power Sources, 2017

352, 226-244

46.

T. Salih, S. M. Brown, C. Kim, K. Carroll, F. R. Brushett, and A. Bumajdad

Cost Effective and Scalable Synthesis of Supported Au Nanoparticles for the Electroreduction of CO2 to CO

Science of Advanced Materials, 2017

9(6), 888-895

45.

J. D. Milshtein, S. L. Fisher, T. M. Breault, L. T. Thompson, and F. R. Brushett

Feasibility of a supporting salt free non-aqueous redox flow battery utilizing ionic active materials

ChemSusChem, 2017

10, 2080-2088

44.

S. Sen, B. Skinn, T. Hall, M. Inman, E. J. Taylor, and F. R. Brushett

Pulsed Electrodeposition of Tin Electrocatalysts onto Gas Diffusion Layers for Carbon Dioxide Reduction to Formate

MRS Advances, 2017

2(8), 451-458

2016

43.

J. D. Milshtein, A. P. Kaur, M. D. Casselman, J. A. Kowalski, S. Modekrutti, P. Zhang, N. H. Attanayake, C. F. Elliott, S. R. Parkin, C. Risko, F. R. Brushett, and S. A. Odom

High current density, long duration cycling of soluble organic active species for non-aqueous redox flow batteries

Energy & Environmental Science, 2016

9, 3531-3543

2016

R. Dmello, J. D. Milshtein, F. R. Brushett, and K. C. Smith

Cost-Driven Materials Selection Criteria for Redox Flow Battery Electrolytes

Journal of Power Sources, 2016, 330, 261-272.

42.

42.

R. Dmello, J. D. Milshtein, F. R. Brushett, and K. C. Smith

Cost-Driven Materials Selection Criteria for Redox Flow Battery Electrolytes

Journal of Power Sources, 2016, 330, 261-272.

42.

R. Dmello, J. D. Milshtein, F. R. Brushett, and K. C. Smith

Cost-Driven Materials Selection Criteria for Redox Flow Battery Electrolytes

Journal of Power Sources, 2016

330, 261-272

41.

P. Bai, J. Li, F. R. Brushett, and M. Z. Bazant

Transition of lithium growth mechanisms in liquid electrolytes

Energy & Environmental Science, 2016

9, 3221-3229

40.

J. A. Kowalski, L. Su, J. D. Milshtein, and F. R. Brushett

Recent advances in molecular engineering of redox active organic molecules for nonaqueous flow batteries

Current Opinion in Chemical Engineering, 2016

13, 45-52

Invited Review

39.

J. Huang, B. Pan, W. Duan, X. Wei, R. S. Assary, L. Su, F. R. Brushett, L. Cheng, C. Liao, M. S. Ferrandon, W. Wang, Z. Zhang, A. K. Burrell, L. A. Curtiss, I. A. Shkrob, J. S. Moore, and L. Zhang

The lightest organic radical cation for charge storage in redox flow batteries

Scientific Reports, 2016

6, 32102