8  Biannual Conference on Chemistry - CHEM 08
                                 th

                          Urea Electrooxidation on PbO2-Ni/C and Bi2O3-Ni/C

                                   Nanocomposites in Alkaline Medium
                                      Hanaa. B. Hassan and Reham H. Tammam
                       Chemistry Department, Faculty of Science, Cairo University, Cairo 12613,
                                                        Egypt.

                                                     ABSTRACT
                    Development of efficient catalysts for urea electrooxidation is a current issue due
                    to its ability to generate H2 and its use as fuel for low-temperature fuel cells. In
                    this work, non-precious Ni and Ni-metal oxide (PbO2 and Bi2O3) nanocomposites
                    were  prepared  by  electrodeposition  technique  and  used  as  anodes  for  urea
                    electrooxidation in NaOH solution. The surface characterizations were carried
                    out  by  scanning  electron  microscope  (SEM),  energy  dispersive  X-ray
                    spectroscopy  (EDX),X-ray  diffraction  (XRD)  and  X-ray  photoelectron
                    spectroscopy (XPS) techniques. The electrocatalytic activity was investigated by
                    applying  different  electrochemical  techniques.  Remarkable  catalytic  activities
                    and stabilities toward urea electrooxidation were recorded for PbO2-Ni/C and
                    Bi2O3-Ni/C nanocomposites more than that of Ni/C. The recorded oxidation peak
                    current densities on PbO2-Ni/C, Bi2O3-Ni/C and Ni/C are (80 mA cm  at +570
                                                                                         −2
                    mV), (27 mA cm  at +460 mV), and (18.5 mA cm  at +440 mV), respectively. The
                                                                   −2
                                    −2
                    onset potentials of the oxidation processes shifted to lower potentials by values
                    of +40 mV and +150 mV on Bi2O3-Ni/C and PbO2-Ni/C, respectively compared to
                    that  on  Ni/C.  Electrochemical  impedance  spectroscopy  (EIS)  showed  charge
                    transfer resistance values of 6.8, 28.9 and 42.2 Ω cm  for PbO2-Ni/C, Bi2O3-Ni/C
                                                                       2
                    and  Ni/C,  respectively  in  urea  solution  at  +356  mV.  Higher  catalytic  activity,
                    exchange current density, diffusion coefficient, electron transfer rate and lower
                    charge transfer resistance toward urea electrooxidation were recorded for Bi2O3-
                    Ni/C  and  PbO2-Ni/C  nanocomposites.  The  electrocatalytic  performance  was
                    found  in  the  order  of  PbO2-Ni/C  >  Bi2O3-Ni/C  >  Ni/C.  Application  of  these
                    nanocomposites in applications related to H2 production, direct urea fuel cells,
                    and water treatments is possible.


















                   BOOK OF ABSTRACTS                CHEM 08 (2020)                          Page 85