Gage Wright
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View article: Electrochemical Production of >1 M Acid and Base from Neutral Salt at High Current Density and Low Energy Demand
Electrochemical Production of >1 M Acid and Base from Neutral Salt at High Current Density and Low Energy Demand Open
The use of acid and base to drive chemical transformations underpins industrial hydrometallurgical processes and many proposed carbon management technologies. The production of the acid and base are key drivers of the energy demand, emissi…
View article: Membrane-Free Electrochemical Production of Acid and Base Solutions Capable of Processing Ultramafic Rocks
Membrane-Free Electrochemical Production of Acid and Base Solutions Capable of Processing Ultramafic Rocks Open
The electrochemical production of acid and base from water enables their use as regenerable reagents in closed-loop processes that drive chemical transformations by sequential acid and base addition. Such processes have attractive applicat…
View article: Membrane-Free Electrochemical Production of Acid and Base Solutions Capable of Processing Ultramafic Rocks
Membrane-Free Electrochemical Production of Acid and Base Solutions Capable of Processing Ultramafic Rocks Open
Chemical transformations that are effected by sequential addition of acid and base can be performed in closed-loop processes powered by electricity if the acid and base are produced electrochemically from water. Conventional methods of ele…
View article: Rapid prototyping of lab-scale electrolysis cells using stereolithography and electroless plating
Rapid prototyping of lab-scale electrolysis cells using stereolithography and electroless plating Open
Electrolysis research is typically conducted using commercially available cells with standard designs that are difficult to modify or custom-machined parts that are time-consuming to produce. Here, we describe a method to rapidly produce l…
View article: Rapid Prototyping of Lab-scale Electrolysis Cells Using Stereolithography and Electroless Plating
Rapid Prototyping of Lab-scale Electrolysis Cells Using Stereolithography and Electroless Plating Open
Electrolysis research is typically conducted using commercially available cells with standard designs that are difficult to modify or custom-machined parts that are time-consuming to produce. Herein, we describe a method to rapidly produce…
View article: Quantitative Detection of Cathepsin B Activity in Neutral pH Buffers Using Gold Microelectrode Arrays: Toward Direct Multiplex Analyses of Extracellular Proteases in Human Serum
Quantitative Detection of Cathepsin B Activity in Neutral pH Buffers Using Gold Microelectrode Arrays: Toward Direct Multiplex Analyses of Extracellular Proteases in Human Serum Open
Proteases are critical signaling molecules and prognostic biomarkers for many diseases including cancer. There is a strong demand for multiplex bioanalytical techniques that can rapidly detect the activity of extracellular proteases with h…
View article: Electrochemical Activity Assay for Protease Analysis Using Carbon Nanofiber Nanoelectrode Arrays
Electrochemical Activity Assay for Protease Analysis Using Carbon Nanofiber Nanoelectrode Arrays Open
There is a strong demand for bioanalytical techniques to rapidly detect protease activities with high sensitivity and high specificity. This study reports an activity-based electrochemical method toward this goal. Nanoelectrode arrays (NEA…