Open AccessMembraneless H2O2 Fuel Cells Driven by Metallophthalocyanine Electrocatalysts
Author(s) -
B. C. Nguyen,
Neal Kuperman,
Gary Goncher,
Raj Solanki
Publication year - 2020
Publication title -
ecs journal of solid state science and technology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.488
H-Index - 51
eISSN - 2162-8777
pISSN - 2162-8769
DOI - 10.1149/2162-8777/aba1fd
Subject(s) - materials science , anode , linear sweep voltammetry , fuel cells , cathode , phthalocyanine , cyclic voltammetry , analytical chemistry (journal) , catalysis , hydrogen peroxide , nitride , current density , electrochemistry , nanotechnology , electrode , chemistry , chemical engineering , layer (electronics) , organic chemistry , physics , quantum mechanics , engineering
One-compartment hydrogen peroxide fuel cells with Co, Cu, and Fe phthalocyanine (PC) and iron nitride (Fe x N) as cathodes and Ni anode have been investigated as sustainable energy sources. The cells were operated under acidic conditions and at room temperature. The potentials for onset of the catalytic currents in these cells were determined via cyclic voltammograms. The reduction current onset potentials of FePC, CoPC, CuPC and Fe x N were 0.56 V, 0.42 V, 0.51 V and 0.57 V, respectively. Potential-current linear sweep voltammetry was utilized to determine the open circuit potentials (OCP) and the power densities the fuel cells. The OCPs for Co, Cu, and Fe phthalocyanines and Fe x N were 0.47 V, 0.57 V, 0.56 V and 0.58 V, respectively. The maximum output power densities of FePC and CoPC, CuPC, and Fe x N were 3.41 mW cm −2 , 0.39 mW cm −2 , 0.39 mW cm −2 and 0.76 mW cm −2 , respectively. These power densities are suitable for powering micro-devices.
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