LOW COST AIR ELECTRODES

Systems and methods of the various embodiments may provide low cost bifunctional air electrodes. Various embodiments may provide a bifunctional air electrode, including a metal substrate and particles of metal and/or metal oxide catalyst and/or metal nitride catalyst coated on the metal substrate. V...

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Hauptverfasser:	HARTMAN, Katherine, CHAKRABORTY, Rupak, GOULET, Marc-Antoni, RUOFF, Erick, CHIANG, Yet-Ming, JARAMILLO, Mateo Cristian, WILEY, Theodore Alan, MILSHTEIN, Jarrod David, WEBER, Eric, GIBSON, Michael Andrew, JARAMILLO, Thomas, THOMPSON, Annelise Christine, WOODFORD, William Henry, SU, Liang, CARLISLE, Kristen, PERKINS, Nicholas Reed, NEWHOUSE, Joycelyn, MILESON, Bradley, LIOTTA, Andrew Haynes, FERRARA, Marco
Format:	Patent
Sprache:	eng
Schlagworte:	BASIC ELECTRIC ELEMENTS ELECTRICITY PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSIONOF CHEMICAL INTO ELECTRICAL ENERGY
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creator	HARTMAN, Katherine CHAKRABORTY, Rupak GOULET, Marc-Antoni RUOFF, Erick CHIANG, Yet-Ming JARAMILLO, Mateo Cristian WILEY, Theodore Alan MILSHTEIN, Jarrod David WEBER, Eric GIBSON, Michael Andrew JARAMILLO, Thomas THOMPSON, Annelise Christine WOODFORD, William Henry SU, Liang CARLISLE, Kristen PERKINS, Nicholas Reed NEWHOUSE, Joycelyn MILESON, Bradley LIOTTA, Andrew Haynes FERRARA, Marco
description	Systems and methods of the various embodiments may provide low cost bifunctional air electrodes. Various embodiments may provide a bifunctional air electrode, including a metal substrate and particles of metal and/or metal oxide catalyst and/or metal nitride catalyst coated on the metal substrate. Various embodiments may provide a bifunctional air electrode, including a first portion configured to engage an oxygen reduction reaction (ORR) in a discharge mode and a second portion configured to engage an oxygen evolution reaction (OER) in a charge mode. Various embodiments may provide a method for making an air electrode including coating a metal substrate with particles of metal and/or metal oxide catalyst and/or metal nitride catalyst. Various embodiments may provide batteries including air electrodes.
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Various embodiments may provide a bifunctional air electrode, including a metal substrate and particles of metal and/or metal oxide catalyst and/or metal nitride catalyst coated on the metal substrate. Various embodiments may provide a bifunctional air electrode, including a first portion configured to engage an oxygen reduction reaction (ORR) in a discharge mode and a second portion configured to engage an oxygen evolution reaction (OER) in a charge mode. Various embodiments may provide a method for making an air electrode including coating a metal substrate with particles of metal and/or metal oxide catalyst and/or metal nitride catalyst. 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Various embodiments may provide a bifunctional air electrode, including a metal substrate and particles of metal and/or metal oxide catalyst and/or metal nitride catalyst coated on the metal substrate. Various embodiments may provide a bifunctional air electrode, including a first portion configured to engage an oxygen reduction reaction (ORR) in a discharge mode and a second portion configured to engage an oxygen evolution reaction (OER) in a charge mode. Various embodiments may provide a method for making an air electrode including coating a metal substrate with particles of metal and/or metal oxide catalyst and/or metal nitride catalyst. Various embodiments may provide batteries including air electrodes.</abstract><oa>free_for_read</oa></addata></record>
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subjects	BASIC ELECTRIC ELEMENTS ELECTRICITY PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSIONOF CHEMICAL INTO ELECTRICAL ENERGY
title	LOW COST AIR ELECTRODES
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