Magnesium is an interesting anode battery material with many advantages suc
h as its high standard potential of (-2.37 V), low cost and good low-temper
ature performance due to an exothermic corrosion reaction during discharge.
Organic aromatic nitro compounds undergo multi-electron transfers of up to
18 during discharge, and hence, give high specific energies (up to 2 A h/g
) in comparison with conventional inorganic battery depolarizers such as Mn
O2, HgO, CuO and AgO. Thus, it is worthwhile fabricating and studying the p
erformance of a battery system combining magnesium and 2,4-dinitrophenol (D
NP) using aqueous halide electrolytes like MgCl2, MgBr2 and Mg(ClO4)(2). Th
is paper describes the preparation of DNP cathodes after standardization of
the cathode mixture. Mg/DNP cells (1 V, 1 A h) have been assembled using t
he above cathode in conjunction with magnesium alloy (AZ 31) anodes and dis
charged at different current densities (1.7, 3.3, 5, 6.6 mA/cm(2)) in 2 M M
gCl2, MgBr2 and Mg(ClO4)(2). Cyclic voltammograms of DNP have been recorded
in 2 M Mg(ClO2)(2) at various sweep rates and concentrations in order to u
nderstand the reduction behavior. The study suggests that DNP is a suitable
organic compound for use as a positive electrode material in magnesium res
erve batteries. (C) 2000 Elsevier Science S.A. All rights reserved.