Guided evolution of bulk metallic glass nanostructures: A platform for designing three-dimensional electrocatalytic surfaces

Precise control over catalyst surface composition and structure is necessary to improve the function of electrochemical systems. To that end, bulk metallic glass (BMG) alloys with atomically dispersed elements provide a highly processable, nanoscale platform for electrocatalysis and surface modifica...

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Veröffentlicht in:	Advanced materials (Weinheim) 2015-12
Hauptverfasser:	Doubek, Gustavo, Sekol, Ryan C., Li, Jinyang, Ryu, Won -Hee, Gittleson, Forrest S., Nejati, Siamak, Moy, Eric, Reid, Candy, Carmo, Marcelo, Linardi, Marcelo, Bordeenithikasem, Punnathat, Kinser, Emily, Liu, Yanhui, Tong, Xiao, Osuji, Chinedum, Schroers, Jan, Mukherjee, Sundeep, Taylor, Andre D.
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Sprache:	eng
Schlagworte:	MATERIALS SCIENCE
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creator	Doubek, Gustavo Sekol, Ryan C. Li, Jinyang Ryu, Won -Hee Gittleson, Forrest S. Nejati, Siamak Moy, Eric Reid, Candy Carmo, Marcelo Linardi, Marcelo Bordeenithikasem, Punnathat Kinser, Emily Liu, Yanhui Tong, Xiao Osuji, Chinedum Schroers, Jan Mukherjee, Sundeep Taylor, Andre D.
description	Precise control over catalyst surface composition and structure is necessary to improve the function of electrochemical systems. To that end, bulk metallic glass (BMG) alloys with atomically dispersed elements provide a highly processable, nanoscale platform for electrocatalysis and surface modification. Here we report on nanostructures of Pt-based BMGs that are modified with various subtractive and additive processes to improve their electrochemical performance.
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title	Guided evolution of bulk metallic glass nanostructures: A platform for designing three-dimensional electrocatalytic surfaces
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