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dc.contributor.authorBusch, Michael
dc.date.accessioned2012-05-14T13:43:21Z
dc.date.available2012-05-14T13:43:21Z
dc.date.issued2012-05-14
dc.identifier.isbn978-91-628-8480-2
dc.identifier.urihttp://hdl.handle.net/2077/29099
dc.description.abstractA binuclear mechanism was proposed and evaluated by means of Density Functional Theory calculations. The central reaction steps were found to be the oxidation of the transition metal TM-OH moieties to TM=O and the subsequent intramolecular O-O bond formation between two TM=O groups. These step were employed as descriptors for the performance of a set of 3d transition metal oxides studied in a MgOx(OH)y test rig embedding. Two classes of oxygen evolution reaction (OER) catalysts were found to emerge at the TyrOH/TyrO reference potential. The first class, referred to as [+/-], which contains Mn(III-V), Co(II-IV) and Ni(II-IV), shows an endothermic oxidation step combined with exothermic O-O bond formation. The members of this class were argued to be active towards the (OER), i.e. the oxy moieties desorb spontaneously as O2 at the expense of high overpotentials. The second class, called [-/+], comprising V(III-V), Cr(III-V) and Fe(II-IV), was found to show opposite behavior. Thus, poor performance is expected due to a highly unfavorable O-O bond formation step. Improved performance was predicted by mixing [+/-] with [-/+] transition metal oxides. Intermediate behavior, meaning oxidation of the TM-OH moiety to TM=O at the TyrOH/TyrO potential combined with a thermoneutral O-O bond formation, is found for Ir(III-V) and Mn(II-IV). While the former displays high activity towards the water oxidation reaction the latter is argued to be inactive due to unfavorable kinetics. The idea of mixing transition metal oxides was generalized for mixed oxidation state systems and evaluated for a Mn(II-IV) Mn(III-V) system. Improved performance was found suggesting, that this reaction path is relevant for the (OER). The generality of the mechanism was shown by direct comparison with experimental findings on iridium oxide and RuO2.sv
dc.language.isoengsv
dc.relation.haspartPaper I: Switching on the Electrocatalytic Ethene Epoxidation on Nanocrystalline RuO2 J. S. Jirkovský, M. Busch, E. Ahlberg, I. Panas and P. Krtil, J. Am. Chem. Soc., 133 (2011), p.5882-5892 ::doi::10.1021/ja109955wsv
dc.relation.haspartPaper II: Activation Energies in Computational Chemistry - A Case Study M. Busch, E. Ahlberg and I. Panas, in Rate Constant Calculation of Thermal Reactions: Methods and Applications, John Wiley & Sons, 2012, p.93-111sv
dc.relation.haspartPaper III: Electrocatalytic oxygen evolution from water on a Mn(III-V) dimer model catalyst - A DFT perspective M. Busch, E. Ahlberg and I. Panas, Phys. Chem. Chem. Phys., 13 (2011), p.15069-15076 ::doi::10.1039/c0cp02132fsv
dc.relation.haspartPaper IV: Hydroxide oxidation and peroxide formation at embedded binuclear transition metal sites; TM = Cr, Mn, Fe, Co M. Busch, E. Ahlberg and I. Panas, Phys. Chem. Chem. Phys., 13 (2011), p.15062-15068 ::doi::10.1039/C1CP20487Dsv
dc.relation.haspartPaper V: Validation of binuclear descriptor for Mixed Transition Metal Oxide supported Electrocatalytic Water Oxidation M. Busch, E. Ahlberg and I. Panas, submittedsv
dc.relation.haspartPaper VI: Water Oxidation on MnOx and IrOx - Why Similar Performance? M. Busch, E. Ahlberg and I. Panas, submittedsv
dc.relation.haspartElectrodeposited Hydrous Iridium Oxide Films: Experiments and DFT Calculations P. Steegstra, M. Busch, I. Panas, E. Ahlberg, in Manuscriptsv
dc.subjectwater oxidationsv
dc.subjectdensity functional theorysv
dc.subjectelectrochemistrysv
dc.subjectwater splittingsv
dc.subjectcatalysissv
dc.titleMechanistic Insights into Transition Metal Oxide Catalyzed Water Oxidationsv
dc.typeTextswe
dc.type.svepDoctoral thesiseng
dc.gup.mailmichael.busch@chem.gu.sesv
dc.type.degreeDoctor of Philosophysv
dc.gup.originUniversity of Gothenburg. Faculty of Sciencesv
dc.gup.departmentDepartment of Chemistry ; Institutionen för kemisv
dc.gup.defenceplaceTuesday 5th June 2012, 10.15, lecture hall KB, Kemigården 4, Campus Johanneberg (Chalmers)sv
dc.gup.defencedate2012-06-05
dc.gup.dissdb-fakultetMNF


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