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3716697 
Journal Article 
Nanostructured dimagnesium manganese oxide (Spinel): Control of size, shape and their magnetic and electro catalytic properties 
Garg, N; Menaka; Ramanujachary, KV; Lofland, SE; Ganguli, AK 
2013 
Yes 
Journal of Solid State Chemistry
ISSN: 0022-4596
EISSN: 1095-726X 
197 
392-397 
WOS:000312281000055 
Tetravalent Mn based ternary oxides are of interest as they are important electrode materials. Dimagnesium manganate (Mg2MnO4) is one Mn(IV) containing oxide which has been of interest. Nanostructures of the above oxide (spinel) have been obtained by the thermal decomposition of nanostructured metal oxalate precursor at 500 degrees C. The size and anisotropy of the oxide nanostructures was controlled by choosing appropriate decomposition temperature of the oxalate precursor. Mg2MnO4 nanorods were obtained at low temperature (500 degrees C), formed by aligned nanoparticles of size similar to 8-10 nm. These nanoparticles show Curie-Weiss behavior with Weiss constant (14 K). Below similar to 50 K there is a small deviation resulting in a negative Weiss constant (-736 K) indicating exchange cross over (from ferromagnetic like interactions to antiferromagnetic interactions). The high temperature magnetic moment corresponds to Mn (IV). Electrochemical experiments show that nanostructured Mg2MnO4 is an efficient anode material for oxygen evolution reaction with a current density of 14 mA/cm(2). The stability of the anode over several cycles of oxidation and reduction is highly encouraging. (C) 2012 Elsevier Inc. All rights reserved. 
Anisotropic nanostructures; Manganate; Electron microscopy; Electrocatalyst