Nader Akbari
Institute for Advanced Studies in Basic Sciences
18 Papers
7 Citations
Nader Akbari is an academic researcher from Institute for Advanced Studies in Basic Sciences. The author has contributed to research in topics: Chemistry & Catalysis. The author has an hindex of 2, co-authored 3 publications.
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Papers
Oxygen-Evolution Reaction by a Palladium Foil in the Presence of Iron.
TL;DR: In this paper, the authors investigated the oxygen-evolution reaction (OER) and electrochemistry of a Pd foil in the presence of iron under alkaline conditions (pH ≈ 13).
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Nanostructured manganese oxide on fullerene soot for water oxidation under neutral conditions
Saeideh Salimi,Nader Akbari,Zahra Zand,Małgorzata Hołyńska,Pavlo Aleshkevych,Suleyman I. Allakhverdiev,Mohammad Mahdi Najafpour +6 more
TL;DR: In this article , the Mn oxide/fullerene soot (MnOx/FS) composite was investigated as an oxygen-evolution reaction (OER) catalyst under neutral conditions.
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Decoding Natural Strategy: Oxygen-Evolution Reaction on the Surface of Nickel Oxyhydroxide at Extremely Low Overpotential.
TL;DR: Nickel oxyhydroxide exhibits oxygen-evolution reaction activity at low overpotential (90-120 mV) and high Faraday efficiency (80%) in alkaline conditions, facilitated by charge accumulation and a proposed mechanism involving Ni(II) to Ni(III) oxidation.
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Application of a Nickel Complex for Water Oxidation under Neutral and Acidic Conditions
Shima Kalantarifard,Nader Akbari,Pavlo Aleshkevych,Subhajit Nandy,Keun Hwa Chae,Mohammad Mahdi Najafpour +5 more
TL;DR: In this article , a tetranuclear Ni complex with di(2-pyridyl) ketone (compound 1) has been synthesized, which is characterized by Raman spectroscopy and electron paramagnetic resonance.
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Unveiling the Oxygen Evolution Mechanism with FeNi (Hydr)oxide under Neutral Conditions.
TL;DR: The OER mechanism with FeNi (Hydr)oxide under neutral conditions is investigated using in situ surface-enhanced Raman spectroscopy. The acidic media limits the process and affects phosphate ion protonation and overall catalysis effectiveness. FeNi hydroxides serve as true catalysts, while phosphate species remain crucial for proton transfer and water molecule adsorption.
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