Search Results - "Berlinger, Sarah A."

Inherent Acidity of Perfluorosulfonic Acid Ionomer Dispersions and Implications for Ink Aggregation by Berlinger, Sarah A, McCloskey, Bryan D, Weber, Adam Z

“…Perfluorosulfonic acid (PFSA) dispersions are used as components in a variety of electrochemical technologies, particularly in fuel-cell catalyst-layer inks…”
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A Two-Phase Model for Adsorption from Solution Using Quartz Crystal Microbalance with Dissipation by Berlinger, Sarah A., Chen, Xunkai, Yutkin, Maxim, Radke, Clayton J.

“…Quartz crystal microbalance with dissipation (QCM-D) conveniently monitors mass and mechanical property changes of thin films on solid substrates with…”
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Impact of Dispersion Solvent on Ionomer Thin Films and Membranes by Berlinger, Sarah A, Dudenas, Peter J, Bird, Ashley, Chen, Xunkai, Freychet, Guillaume, McCloskey, Bryan D, Kusoglu, Ahmet, Weber, Adam Z

“…Perfluorosulfonic acid (PFSA) ionomers are an important class of materials that many electrochemical devices rely on as their ion-conducting electrolyte…”
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Impact of Platinum Primary Particle Loading on Fuel Cell Performance: Insights from Catalyst/Ionomer Ink Interactions by Berlinger, Sarah A., Chowdhury, Anamika, Van Cleve, Tim, He, Aaron, Dagan, Nicholas, Neyerlin, Kenneth C., McCloskey, Bryan D., Radke, Clayton J., Weber, Adam Z.

“…A variety of electrochemical energy conversion technologies, including fuel cells, rely on solution-processing techniques (via inks) to form their catalyst…”
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Cation valency in water-in-salt electrolytes alters the short- and long-range structure of the electrical double layer by Berlinger, Sarah A, Küpers, Verena, Dudenas, Peter J, Schinski, Devin, Flagg, Lucas, Lamberty, Zachary D, McCloskey, Bryan D, Winter, Martin, Frechette, Joelle

“…Highly concentrated aqueous electrolytes (termed water-in-salt electrolytes, WiSEs) at solid-liquid interfaces are ubiquitous in myriad applications including…”
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Development of reactor configurations for an electrofuels platform utilizing genetically modified iron oxidizing bacteria for the reduction of CO2 to biochemicals by Guan, Jingyang, Berlinger, Sarah A., Li, Xiaozheng, Chao, Zhongmou, Sousa e Silva, Victor, Banta, Scott, West, Alan C.

“…•Demonstration of a continuous electrofuels process to convert CO2 to isobutyric acid.•New reactor design led to a three-fold increase in steady state cell…”
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Multicomponent, multiphase interactions in fuel-cell inks by Berlinger, Sarah A., Garg, Samay, Weber, Adam Z.

“…Fuel-cell catalyst layers (CLs) are porous electrodes that are fabricated from CL inks: colloidal dispersions of catalyst particles and ion-conducting polymer…”
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Probing Ionomer Interactions with Electrocatalyst Particles in Solution by Berlinger, Sarah A., McCloskey, Bryan D., Weber, Adam Z.

“…The interaction between ionomer (ion-conducting polymer) and catalyst particles in porous electrodes of electrochemical-energy-conversion devices is a critical…”
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Probing Ionomer Interactions with Electrocatalyst Particles in Solution by Berlinger, Sarah A., McCloskey, Bryan D., Weber, Adam Z.

“…The interaction between ionomer (ion-conducting polymer) and catalyst particles in porous electrodes of electrochemical-energy-conversion devices is a critical…”
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Iridium Surface Oxide Affects the Nafion Interface in Proton-Exchange-Membrane Water Electrolysis by Berlinger, Sarah A., Peng, Xiong, Luo, Xiaoyan, Dudenas, Peter J., Zeng, Guosong, Yu, Haoran, Cullen, David A., Weber, Adam Z., Danilovic, Nemanja, Kusoglu, Ahmet

“…Proton-exchange-membrane water electrolyzer (PEMWE) catalyst layers consist of aggregates of catalyst particles (typically iridium) and ionomer (typically…”
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The Governing Interactions in Fuel-Cell Catalyst-Layer Inks by Berlinger, Sarah A

“…It is increasingly and urgently obvious that the world needs to move toward green, renewable energy sources. Key in realizing this infrastructure are…”
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Development of reactor configurations for an electrofuels platform utilizing genetically modified iron oxidizing bacteria for the reduction of CO2 to biochemicals by Guan, Jingyang, Berlinger, Sarah A., Li, Xiaozheng, Chao, Zhongmou, Sousa e Silva, Victor, Banta, Scott, West, Alan C.

“…Not provided…”
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Development of reactor configurations for an electrofuels platform utilizing genetically modified iron oxidizing bacteria for the reduction of CO 2 to biochemicals by Guan, Jingyang, Berlinger, Sarah A, Li, Xiaozheng, Chao, Zhongmou, Sousa E Silva, Victor, Banta, Scott, West, Alan C

“…Electrofuels processes are potentially promising platforms for biochemical production from CO using renewable energy. When coupled to solar panels, this…”
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