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2015-08-22
Moghaddam, Reza B., Wang, Chao, Sorge, Jason B., Brett, Michael J., Bergens, Steven H.
Ir–Ni oxide nanoparticles were simply prepared by stirring IrCl3 and NiCl2 precursors in aqueous base under air. The activities of a series of IrNiyOx nanoparticles with different Ir-to-Ni ratios were measured toward water oxidation in 0.1 M H2SO4. The Ir-to-Ni ratio was 1:0.125 in the most...
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2015-08-22
Moghaddam, Reza B, Wang, Chao, Sorge, Jason B., Brett, Michael J., Bergens, Steven H.
Ir–Ni oxide nanoparticles were simply prepared by stirring IrCl3 and NiCl2 precursors in aqueous base under air. The activities of a series of IrNiyOx nanoparticles with different Ir-to-Ni ratios were measured toward water oxidation in 0.1 M H2SO4. The Ir-to-Ni ratio was 1:0.125 in the most...
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2015-08-22
Moghaddam, Reza B, Wang, Chao, Sorge, Jason B., Brett, Michael J., Bergens, Steven H.
Ir–Ni oxide nanoparticles were simply prepared by stirring IrCl3 and NiCl2 precursors in aqueous base under air. The activities of a series of IrNiyOx nanoparticles with different Ir-to-Ni ratios were measured toward water oxidation in 0.1 M H2SO4. The Ir-to-Ni ratio was 1:0.125 in the most...
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2015-08-22
Moghaddam, Reza B, Wang, Chao, Sorge, Jason B., Brett, Michael J., Bergens, Steven H.
Ir–Ni oxide nanoparticles were simply prepared by stirring IrCl3 and NiCl2 precursors in aqueous base under air. The activities of a series of IrNiyOx nanoparticles with different Ir-to-Ni ratios were measured toward water oxidation in 0.1 M H2SO4. The Ir-to-Ni ratio was 1:0.125 in the most...
-
2015-08-22
Moghaddam, Reza B, Wang, Chao, Sorge, Jason B., Brett, Michael J., Bergens, Steven H.
Ir–Ni oxide nanoparticles were simply prepared by stirring IrCl3 and NiCl2 precursors in aqueous base under air. The activities of a series of IrNiyOx nanoparticles with different Ir-to-Ni ratios were measured toward water oxidation in 0.1 M H2SO4. The Ir-to-Ni ratio was 1:0.125 in the most...
-
2015-08-22
Moghaddam, Reza B, Wang, Chao, Sorge, Jason B., Brett, Michael J., Bergens, Steven H.
Ir–Ni oxide nanoparticles were simply prepared by stirring IrCl3 and NiCl2 precursors in aqueous base under air. The activities of a series of IrNiyOx nanoparticles with different Ir-to-Ni ratios were measured toward water oxidation in 0.1 M H2SO4. The Ir-to-Ni ratio was 1:0.125 in the most...