Publications
2024
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190. S. Hou, L. Xu, S. Mukherjee, J. Zhou, K.-T. Song, Z. Zhou, S. Zhang, X. Ma, J. Warnan, A.S. Bandarenka, R.A. Fischer. Impact of organic anions on metal hydroxide oxygen evolution catalysts // ACS Catalysis IF=11.3 (2024) accepted
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189. G. Yesilbas, D. Grieve, D. Rettmann, K. Gülderen, A.S. Bandarenka, J. Yun. Impedance spectroscopy of lithium intercalation into cathode materials in coin cells // ChemElectroChem IF=3.5 (2024) accepted
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188. R. Götz, E. Pugacheva, Z. Ahaliabadeh, P.S. Llanos, T. Kallio, A.S. Bandarenka. Characterization of the lithium/solid electrolyte interface in the presence of nanometer-thin TiOx layers for all-solid-state batteries // ChemSusChem IF=7.5 17 (2024) e202401026
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187. T.K. Sarpey(1), A.V. Himmelreich(1), K.-T. Song, E.L. Gubanova, A.S. Bandarenka. The electrocatalytic activity of Au electrodes changes significantly in various Na+/K+ supporting electrolyte mixtures // Small Science IF=11.1 4 (2024) 202400042
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186. R.L. Streng, S. Vagin, Y. Guo, B. Rieger, A.S. Bandarenka. Identifying the charge storage mechanism in polyimide anodes for Na-ion aqueous batteries by impedance spectroscopy // RSC Energy Advances IF=3.2 3 (2024) 874-882
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185. K.-T. Song, A. Zagalskaya, C.M. Schott, P.M. Schneider, B. Garlyyev, V. Alexandrov, A.S. Bandarenka. Influence of alkali metal cations on the oxygen reduction activity of Pt5Y and Pt5Gd alloys // J. Phys. Chem. C IF=3.3 128 (2024) 4969-4977
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184. S.N. Bandarenka, A.S. Bandarenka. Modeling and interpretation of responses of concretes in four-probe impedance measurements // ChemElectroChem IF=3.5 11 (2024) e202300543
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183. P.M. Schneider(1), C.M. Schott(1), D. Maier, S.A. Watzele, J. Michalička, J. Rodriguez-Pereira, L. Hromadko, J. Macak, V. Baran, A. Senyshyn, A. Viola, F. Maillard, E.L. Gubanova, A.S. Bandarenka. Top-down surfactant-free electrosynthesis of Magnéli phase Ti9O17 nanowires // Materials Advances IF=5.2 5 (2024) 2368-2376
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182. S. Xue(1), P. Chaudhary(1), M.R. Nouri(1), E. Gubanova, B. Garlyyev, V. Alexandrov, A.S. Bandarenka. Impact of Pt(hkl) electrode surface structure on the electrical double layer capacitance // J. American Chem. Soc. IF=14.4 146 (2024) 3883-3889
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181. P.M. Schneider(1), K.L. Kollmannsberger(1), C. Cesari, R. Khare, M. Boniface, B.R. Cuenya, T. Lunkenbein, M. Elsner, S. Zacchini, A.S. Bandarenka, J. Warnan, R.A. Fischer. Engineering ORR Electrocatalysts from Co8Pt4 Carbonyl Clusters via ZIF-8 Templating // ChemElectroChem IF=3.5 11 (2024) e202300476
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180. S.A. Watzele, R.M. Kluge, A. Maljusch, P. Borowski, A.S. Bandarenka. Impedance response analysis of anion exchange membrane electrolyzers for determination of the electrochemically active catalyst surface area // Chemistry-Methods IF=6.1 4 (2024) e202300035
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179. C.M. Schott, P.M. Schneider, K. Sadraoui, K.-T. Song, B. Garlyyev, S.A. Watzele, J. Michalička, J. Macak, A. Viola, F. Maillard, A. Senyshyn, J.A. Fischer, A.S. Bandarenka, E.L. Gubanova. A Top-Down Surfactant-Free Synthesis of Supported Palladium Nanostructured Catalysts // Small Science IF=11.1 4 (2024) 2300241
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178. T.K. Sarpey, E. Keles, E.L. Gubanova, A.S. Bandarenka. Probing the electrified solid-liquid interfaces with laser-induced transient techniques. In: Encyclopedia of Solid-Liquid Interfaces, K. Wandelt and G. Bussetti, Ed. Elsevier: Amsterdam, 2024, 43-58
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177. F. Haimerl,(1) S. Kumar,(1) M. Heerec, A.S. Bandarenka. Electrochemical impedance spectroscopy of PEM fuel cells at low hydrogen partial pressures. Efficient cell tests for mass production // RSC Industrial Chemistry & Materials IF=N/A 2 (2024) 132-140
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176. Y. Taji, A. Zagalskaya, I. Evazzade, S. Watzele, K.-T. Song, S. Xue, C. Schott, B. Garlyyev, V. Alexandrov, E. Gubanova, A.S. Bandarenka. Alkali metal cations change the hydrogen evolution reaction mechanisms at Pt electrodes in alkaline media // Nano Materials Science IF=12.6 (2024) accepted
2023
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175. H. Yu, C. Schott, T. Schmidt, P.M. Schneider, K.-T. Song, Q. Zhang, A. Capogrosso, L. Deville, E. Gubanova, A.S. Bandarenka. Investigation of active electrocatalytic centers under reaction conditions using operando microscopies // Current Opinion in Electrochemistry IF=7.9 42 (2023) 101386
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174. R. Tripathi,(1) G. Yesilbas,(1) X. Lamprecht, P. Gandharapu, A.S. Bandarenka, R.O. Dusane, A. Mukhopadhyay. Understanding the electrolyte chemistry induced enhanced stability of Si anodes in Li-ion batteries based on physico-chemical changes, impedance, and stress evolution during SEI formation // Journal of The Electrochemical Society IF=3.1 170 (2023) 090544
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173. G. Yesilbas, C.Y. Chou, A.S. Bandarenka. A physical impedance model of lithium intercalation into graphite electrodes for a coin-cell assembly // ChemElectroChem IF=3.5 10 (2023) 202300270
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172. T.O. Schmidt,(1) A. Wark,(1) R.W. Haid, R.M. Kluge, S. Suzuki, K. Kamiya, A.S. Bandarenka, J. Maruyama, E. Skúlason. Elucidating the active sites and synergies in water splitting on manganese oxide nanosheets on graphite support // Advanced Energy Materials IF=24.4 13 (2023) 2302039
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171. L. Katzenmeier,(1) M. Gößwein,(1) L. Carstensen, J. Sterzinger, M. Ederer, P. Müller-Buschbaum, A. Gagliardi, A.S. Bandarenka. Mass transport and charge transfer through an electrified interface between metallic lithium and solid-state electrolytes // Communications Chemistry IF=5.9 6 (2023) 124
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170. X. Ma, D. Zheng, S. Hou, S. Mukherjee, R. Khare, G. Gao, Q. Ai, B. Garlyyev, W. Li, M. Koch, J. Mink, Y. Shao-Horn, J. Warnan, A.S. Bandarenka, R. Fischer. Structure-activity relationships in Ni- carboxylate-type metal-organic frameworks’ metamorphosis for oxygen evolution reaction // ACS Catalysis IF=11.3 13 (2023) 7587–7596
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169. X. Lamprecht, P. Zellner, G. Yesilbas, L. Hromadko, P. Moser, P. Marzak, S. Hou, R. Haid, F. Steinberger, T. Steeger, J.M. Macak, A.S. Bandarenka. Fast charging capability of thin-film Prussian Blue Analog electrodes for aqueous sodium-ion batteries // ACS Applied Materials and Interfaces IF=8.3 15 (2023) 23951-23962
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168. M. Nouri, R. Kluge, R. Haid, J. Fortmann, A. Ludwig, A.S. Bandarenka, V. Alexandrov. Electron tunneling at electrocatalytic interfaces // J. Phys. Chem. C IF=3.3 127 (2023) 6321-6327
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167. T.O. Schmidt, R.W. Haid, E.L. Gubanova, R.M. Kluge, A.S. Bandarenka. Electrochemical scanning tunneling microscopy as a tool for the detection of active electrocatalytic sites // Topics in Catalysis IF=2.8 66 (2023) 1270-1279
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166. X. Lamprecht, I. Evazzade, I. Ungerer, L. Hromadko, J.M. Macak, A.S. Bandarenka, V. Alexandrov. Mechanisms of degradation of Na2Ni[Fe(CN)6] functional electrodes in aqueous media: a combined theoretical and experimental study // J. Phys. Chem. C IF=3.3 127 (2023) 2204-2214
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165. K.-T. Song(1), C.M. Schott(1), P.M. Schneider, S.A. Watzele, R.M. Kluge, E.L. Gubanova, A.S. Bandarenka. Combining impedance and hydrodynamic methods in electrocatalysis. Characterization of Pt(pc), Pt5Gd, and nanostructured Pd for the hydrogen evolution reaction // Journal of Physics: Energy IF=7.0 5 (2023) 014016
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164. S. Watzele, B. Garlyyev, E. Gubanova, A.S. Bandarenka. Structure-reactivity relations in electrocatalysis, a book chapter 6.19 in: Comprehensive Inorganic Chemistry III (3rd Ed.) / Eds. R.A. van Santen, E.J.M. Hensen, J. Reedijk - Elsevier, 2023, ISBN 9780124095472, 419-436.
2022
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163. R.M. Kluge(1), R.W. Haid(1), A. Riss, Y. Bao, K. Seufert, T.O. Schmidt, S.A. Watzele, J.V. Barth, F. Allegretti, W. Auwärter, F. Calle-Vallejo, A.S. Bandarenka. A trade-off between ligand and strain effects optimizes the oxygen reduction activity of Pt alloys // Energy & Environmental Science IF=32.4 15 (2022) 5181-5191
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162. L. Katzenmeier, M.M. Kaye, A.S. Bandarenka. Ionic Mott-Schottky formalism allows the assessment of mobile ion concentrations in Li+-conducting solid electrolytes // J. Electroanal. Chem. IF=4.1 922 (2022) 116750
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161. X. Lamprecht, P. Marzak, A. Wieczorek, N. Thomsen, J. Kim, B. Garlyyev, Y. Liang, A.S. Bandarenka, J. Yun. High voltage and superior cyclability of indium hexacyanoferrate cathodes for aqueous Na-ion batteries enabled by superconcentrated NaClO4 electrolytes // RSC Energy Advances IF=3.2 1 (2022) 623-631
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160. E. Gubanova, T.O. Schmidt, S. Watzele, V. Alexandrov, A.S. Bandarenka. Structure-dependent electrical double layer capacitances of the basal plane Pd(hkl) electrodes in HClO4 // J. Phys. Chem. C IF=3.3 126 (2022) 11414-11420
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159. L. Katzenmeier, M. Gößwein, A. Gagliardi, A.S. Bandarenka. Modeling of space-charge layers in solid-state electrolytes. A kinetic Monte-Carlo approach and its validation // J. Phys. Chem. C IF=3.3 126 (2022) 10900-10909
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158. T.O. Schmidt,(1) A. Ngoipala,(1) R.L. Arevalo, S.A. Watzele, R. Lipin, R.M. Kluge, S. Hou, R.W. Haid, A. Senyshyn, E.L. Gubanova, A.S. Bandarenka, M. Vandichel. Elucidation of structure-activity relations in proton electroreduction at Pd surfaces. Theoretical and experimental study // Small IF=13.0 18 (2022) 2202410 (Inside Front Cover)
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157. F. Haimerl, J.P. Sabawa, T.A. Dao, A.S. Bandarenka. Spatially resolved electrochemical impedance spectroscopy of automotive PEM fuel cells // ChemElectroChem IF=3.5 9 (2022) e202200069
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156. R.M. Kluge,(1) E. Psaltis,(1) R.W. Haid, S. Hou, T.O. Schmidt, O. Schneider, B. Garlyyev, F. Calle-Vallejo, A.S. Bandarenka. Revealing the nature of active sites on Pt-Gd and Pt-Pr alloys during the oxygen reduction reaction // ACS Applied Materials and Interfaces IF=8.3 14 (2022) 19604-19613
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155. R.W. Haid,(1) R.M. Kluge,(1) T.O. Schmidt, A.S. Bandarenka. Finding efficient catalyst designs: A high-precision method to reveal active sites // Chem Catalysis IF=11.5 2 (2022) 657-659
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154. L. Katzenmeier, L. Carstensen, A.S. Bandarenka. Li+ conductivity of space charge layers formed at electrified interfaces between a model solid-state electrolyte and blocking Au-electrodes // ACS Applied Materials and Interfaces IF=8.3 14 (2022) 15811-15817
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153. C.S. Santos, A. Botz, A.S. Bandarenka, E. Ventosa, W. Schuhmann. Correlative electrochemical microscopy for the elucidation of the local ionic and electronic properties of the solid electrolyte interphase in Li-ion batteries // Angewandte Chemie International Edition IF=16.1 61 (2022) e202202744
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152. S. Hou, L. Xu, X. Ding, R.M. Kluge, T.K. Sarpey, R.W. Haid, B. Garlyyev, S. Mukherjee, J. Warnan, M. Koch, S. Zhang, W. Li, A.S. Bandarenka, R.A. Fischer. Dual in-situ laser techniques underpin the role of cations in impacting electrocatalysts // Angewandte Chemie International Edition IF=16.1 61 (2022) e20221610
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151. X. Lamprecht, F. Speck, P. Marzak, S. Cherevko, A.S. Bandarenka. Electrolyte effects on the stabilization of Prussian blue analog electrodes in aqueous sodium-ion batteries // ACS Applied Materials and Interfaces IF=8.3 14 (2022) 3515-3525
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150. X. Ding(1), T.K. Sarpey(1), S. Hou, B. Garlyyev, W. Li, R.A. Fischer, A.S. Bandarenka. Prospects of using the laser-induced temperature jump techniques for characterisation of electrochemical systems // ChemElectroChem IF=3.5 9 (2022) e202101175
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149. S. Mukherjee, S. Hou, S.A. Watzele, B. Garlyyev, W. Li, A.S. Bandarenka, R.A. Fischer. Avoiding pyrolysis and calcination: advances in the benign routes leading to MOF-derived electrocatalysts // ChemElectroChem IF=3.5 9 (2022) e202101476
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148. X. Ding(1), D. Scieszka(1), S. Watzele, S. Xue, B. Garlyyev, R.W. Haid, A.S. Bandarenka. A systematic study of the influence of electrolyte ions on the electrode activity // ChemElectroChem IF=3.5 9 (2022) 202101088
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147. S. Tu(1), T. Tian(1), A.L. Oechsle, S. Yin, X. Jiang, W. Cao, N. Li, M.A. Scheel, L.K. Reb, S. Hou, A.S. Bandarenka, M. Schwartzkopf, S.V. Roth, P. Müller-Buschbaum. Improvement of the thermoelectric properties of PEDOT:PSS films via DMSO addition and DMSO/salt post-treatment resolved from a fundamental view // Chemical Engineering Journal IF=13.3 429 (2022) 132295.
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146. R. Haid(1), X. Ding(1), T.K. Sarpey, A.S. Bandarenka, B. Garlyyev. Exploration of the electrical double layer structure: influence of electrolyte components on the double layer capacitance and potential of maximum entropy // Current Opinion in Electrochemistry IF=7.9 32 (2022) 100882
2021
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145. J. Yun, R. Sagehashi, Y. Sato, T. Masuda, S. Hoshino, H.B. Rajendra, K. Okuno, A. Hosoe, A.S. Bandarenka, N. Yabuuchi. Nanosized and metastable molybdenum oxides as negative electrode materials for durable high-energy aqueous Li-ion batteries // Proceedings of the National Academy of Sciences of the United States of America IF=9.4 118 (2021) e2024969118
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144. S.A. Watzele,(1) L. Katzenmeier,(1) J.P. Sabawa, B. Garlyyev, A.S. Bandarenka. Temperature dependences of the double layer capacitance of some solid / liquid and solid / solid electrified interfaces. An experimental study // Electrochimica Acta IF=5.5 391 (2021) 138969
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143. S. Hou,(1) R.M. Kluge,(1) R.W. Haid,(1) E.L. Gubanova, S.A. Watzele, A.S. Bandarenka, B. Garlyyev. A review on experimental identification of active sites in model bifunctional electrocatalytic systems for oxygen reduction and evolution reactions // ChemElectroChem IF=3.5 8 (2021) 3433-3456
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142. M.H. Aufa,(1) S.A. Watzele,(1) S. Hou, R.W. Haid, R.M. Kluge, A.S. Bandarenka, B. Garlyyev. Fast and accurate determination of the electroactive surface area of MnOx // Electrochimica Acta IF=5.5 382 (2021) 138692.
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141. S. Hou, W. Li, S. Watzele, R.M. Kluge, S. Xue, S. Yin, X. Jiang, A. Welle, B. Garlyyev, P. Müller-Buschbaum, A.S. Bandarenka, R.A. Fischer. Metamorphosis of heterostructured surface-mounted metal-organic frameworks yielding record oxygen evolution mass activities // Advanced Materials IF=27.4 33 (2021) 2103218.
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140. X. Ding, B. Garlyyev, S.A. Watzele, T.K. Sarpey, A.S. Bandarenka. Spotlight on the effect of electrolyte composition on the potential of maximum entropy. Supporting electrolytes are not always inert // Chemistry—A European Journal IF=3.9 27 (2021) 10016-10020.
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139. R.R. Gaddam, L. Katzenmeier, X. Lamprecht, A.S. Bandarenka. Review on physical impedance models in modern battery research // Physical Chemistry Chemical Physics IF=2.9 23 (2021) 12926-12944.
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138. R.W. Haid(1), R.M. Kluge(1), T.O. Schmidt, A.S. Bandarenka. In-situ detection of active sites for carbon-based bifunctional oxygen reduction and evolution catalysis // Electrochimica Acta IF=5.5 382 (2021) 138285
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137. R.M. Kluge(1), R.W. Haid(1), I.E.L. Stephens, F. Calle-Vallejo, A.S. Bandarenka. Monitoring active sites for hydrogen evolution reaction at model carbon surfaces // Physical Chemistry Chemical Physics IF=2.9 23 (2021) 10051-10058
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136. L. Katzenmeier(1), L. Carstensen(1), S.J. Schaper(1), P. Müller-Buschbaum, A.S. Bandarenka. Characterization and quantification of depletion and accumulation layers in solid-state Li+-conducting electrolytes using in situ spectroscopic ellipsometry // Advanced Materials IF=27.4 33 (2021) 2100585 (back cover)
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135. A. Auer(1), X. Ding(1), A.S. Bandarenka, J. Kunze-Liebhäuser. The potential of zero charge and the electrochemical interface structure of Cu(111) in alkaline solutions // J. Phys. Chem. C IF=3.3 125 (2021) 5020-5028
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134. J.P. Sabawa, A.S. Bandarenka. Investigation of degradation mechanisms in PEM fuel cells caused by low-temperature cycles // International Journal of Hydrogen Energy IF=8.1 46 (2021) 15951-15964
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133. R. Kluge, R. Haid, A.S Bandarenka. Assessment of active areas for the oxygen evolution reaction on an amorphous iridium oxide surface // Journal of Catalysis IF=6.5 396 (2021) 14-22
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132. L. Katzenmeier, S. Helmer, S. Braxmeier, E. Knobbe, A.S. Bandarenka. Properties of the space charge layers formed in Li-Ion conducting glass ceramics // ACS Applied Materials and Interfaces IF=8.3 13 (2021) 5853-5860
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131. T. Lochner, M. Perchthaler, F. Hnyk, D. Sick, J.P. Sabawa, A.S. Bandarenka. Analysis of the capacitive behavior of polymer electrolyte membrane fuel cells during operation // ChemElectroChem IF=3.5 8 (2021) 96-102
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130. J.P. Sabawa, F. Haimerl, F. Riedmann, T. Lochner, A.S. Bandarenka. Dynamic and precise temperature control unit for PEMFC single-cell testing // Engineering Reports IF=1.8 3 (2021) e12345
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129. R.W. Haid(1), R.M. Kluge(1), Y. Liang, A.S. Bandarenka. In-situ quantification of the local electrocatalytic activity via electrochemical scanning tunneling microscopy // Small Methods IF=10.7 5 (2021) 2000710
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128. B. Garlyyev, S. Watzele, J. Fichtner, J. Michalička, A. Schökel, A. Senyshyn, A. Perego, D. Pan, H. El-Sayed, J.M. Macak, P. Atanassov, I.V. Zenyuk, A.S. Bandarenka. Electrochemical top-down synthesis of C-supported Pt nanoparticles with controllable shape and size: mechanistic insights and application // Nano Research IF=9.5 14 (2021) 2762-2769
2020
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127. J.P. Sabawa, A.S. Bandarenka. Applicability of double layer capacitance measurements to monitor local temperature changes at polymer electrolyte membrane fuel cell cathodes // Results in Chemistry IF=2.5 2 (2020) 100078
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126. T.C. Nagaiah, A. Tiwari, M. Kumar, D. Scieszka, A.S. Bandarenka. In-situ probing of Mn2O3 activation towards oxygen electroreduction by laser-induced current transient technique // ACS Applied Energy Materials IF=5.4 3 (2020) 9151-9157
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125. T. Lochner, M. Perchthaler, J.T. Binder, J.P. Sabawa, T.A. Dao, A.S. Bandarenka. Real-time impedance analysis for the on-road monitoring of automotive fuel cells (most accessed 2023) // ChemElectroChem IF=3.5 7 (2020) 2784-2791
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124. T. Lochner,(1) R.M. Kluge,(1) J. Fichtner,(1) H.A. El-Sayed, B. Garlyyev, A.S. Bandarenka. Temperature effects in polymer electrolyte membrane fuel cells // ChemElectroChem IF=3.5 7 (2020) 3545-3568
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123. S. Xue, B. Garlyyev, A. Auer, J. Kunze-Liebhäuser, A.S. Bandarenka. How the nature of the alkali metal cations influences the double layer capacitance of Cu, Au and Pt single crystal electrodes // J. Phys. Chem. C IF=3.3 124 (2020) 12442-12447
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122. S. Xue, R.W. Haid, R.M. Kluge, X. Ding, B. Garlyyev, J. Fichtner, S. Watzele, S. Hou, A.S. Bandarenka. Enhancing the hydrogen evolution reaction activity of platinum electrodes in alkaline media using Ni-Fe clusters // Angewandte Chemie International Edition IF=16.1 59 (2020) 10934-10938
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121. B. Garlyyev, S. Xue, J. Fichtner, A.S. Bandarenka, C. Andronescu. Prospects of value-added chemicals and hydrogen via electrolysis // ChemSusChem IF=7.5 13 (2020) 2513-2521
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120. M. Rück, B. Garlyyev, F. Mayr, A.S. Bandarenka, A. Gagliardi. Oxygen reduction activities of strained Platinum core-shell electrocatalysts predicted by machine learning // The Journal of Physical Chemistry Letters IF=4.8 11 (2020) 1773-1780
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119. J. Fichtner, S. Watzele, B. Garlyyev, R. Kluge, F. Haimerl, H. El-Sayed, W.-J. Li, F. Maillard, L. Dubau, R. Chattot, J. Michalicka, J. Macak, W. Wang, D. Wang, T. Gigl, C. Hugenschmidt, A.S. Bandarenka. Tailoring the oxygen reduction activity of Pt nanoparticles through surface defects: a simple top-down approach // ACS Catalysis IF=11.3 10 (2020) 3131-3142
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118. W.-J. Li, S. Xue, S. Watzele, S. Hou, J. Fichtner, A.L. Semrau, L. Zhou, A. Welle, A.S. Bandarenka, R.A. Fischer. Advanced bifunctional oxygen reduction and evolution electrocatalyst derived from surface-mounted metal-organic frameworks // Angewandte Chemie International Edition IF=16.1 59 (2020) 5837-5843
![](/fileadmin/w00bya/energy/pics/117.png)
117. T. Lochner, L. Hallitzky, M. Perchthaler, M. Obermaier, J. Sabawa, S. Enz, A.S. Bandarenka. Local degradation effects in automotive size membrane electrode assemblies under realistic operating conditions // Applied Energy IF=10.1 260 (2020) 114291
2019
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116. S. Watzele, P. Hauenstein, Y. Liang, S. Xue, J. Fichtner, B. Garlyyev, D. Scieszka, F. Claudel, F. Maillard, A.S. Bandarenka. Determination of electroactive surface area of Ni-, Co-, Fe-, and Ir-based oxide electrocatalysts // ACS Catalysis IF=11.3 9 (2019) 9222-9230
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115. J. Liu,(1) S. Hou,(1) W. Li, A.S. Bandarenka, R.A. Fischer. Recent approaches to design electrocatalysts based on metal-organic frameworks and their derivatives // Chemistry - An Asian Journal IF=3.5 14 (2019) 3474-3501
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114. P. Marzak,(1) P. Moser,(1) S. Schreier, D. Scieszka, J. Yun, O. Schneider, A.S. Bandarenka. A cell for controllable formation and in-operando electrochemical characterization of intercalation materials for aqueous metal-ion batteries // Small Methods IF=10.7 3 (2019) 1900445
![](/fileadmin/w00bya/energy/pics/113.png)
113. B. Garlyyev, J. Fichtner, O. Piqué, O. Schneider, A.S. Bandarenka, F. Calle-Vallejo. Revealing the nature of active sites in electrocatalysis // Chemical Science IF= 7.6 10 (2019) 8060-8075
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112. E. Mitterreiter,(1) Y. Liang,(1) M. Golibrzuch, D. McLaughlin, C. Csoklich, J.D. Bartl, A. Holleitner, U. Wurstbauer, A.S. Bandarenka. In-situ visualization of hydrogen evolution sites on helium ion treated molybdenum dichalcogenides under reaction conditions // NPJ 2D Materials and Applications IF=9.1 3 (2019) 25
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111. M. Rück, A.S. Bandarenka, F. Calle-Vallejo, A. Gagliardi. Fast identification of optimal pure platinum nanoparticle shapes and sizes for efficient oxygen electroreduction // Nanoscale Advances IF=4.6 1 (2019) 2901-2909
![](/fileadmin/w00bya/energy/pics/110.png)
110. B. Garlyyev,(1) K. Kratzl,(1) M. Rück,(1) J. Michalička, J. Fichtner, J. Macak, T. Kratky, S. Günther, M. Cokoja, A.S. Bandarenka, A. Gagliardi, R. Fischer. Optimizing the size of platinum nanoparticles for enhanced oxygen electro-reduction mass activity // Angewandte Chemie International Edition IF=16.1 58 (2019) 9596-9600
![](/fileadmin/w00bya/energy/pics/109.png)
109. J. Sabawa, A.S. Bandarenka. Degradation mechanisms in polymer electrolyte membrane fuel cells caused by freeze-cycles: investigation using electrochemical impedance spectroscopy // Electrochimica Acta IF=5.5 311 (2019) 21-29
![](/fileadmin/w00bya/energy/pics/108.png)
108. W. Li, S. Watzele, H.A. El-Sayed, Y. Liang, G. Kieslich, A.S. Bandarenka, K. Rodewald, B. Rieger, R.A. Fischer. Unprecedented high oxygen evolution activity of electrocatalysts derived from surface-mounted metal-organic frameworks // J. American Chem. Soc. IF=14.4 141 (2019) 5926–5933
![](/fileadmin/w00bya/energy/pics/107.png)
107. P. Marzak, M. Kosian, J. Yun, A.S. Bandarenka. Intercalation of Mg2+ into electrodeposited Prusian Blue Analogue thin films from aqueous electrolytes // Electrochimica Acta IF=5.5 307 (2019) 157-163
![](/fileadmin/w00bya/energy/pics/106.png)
106. Y. Liang,(1) C. Csoklich,(1) D. McLaughlin, O. Schneider, A.S. Bandarenka. Revealing active sites for hydrogen evolution at Pt and Pd atomic layers on Au surfaces // ACS Applied Materials and Interfaces IF=8.3 11 (2019) 12476–12480
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105. J. Fichtner,(1) B. Garlyyev,(1) S. Watzele, H. A El-sayed, J. Schwaemmlein, W. Li, F. Maillard, L. Dubau, J. Michalicka, J. Macak, A.W. Holleitner, A.S. Bandarenka. Top-Down Synthesis of Nanostructured Platinum-Lanthanide Alloy Oxygen Reduction Reaction Catalysts: PtxPr/C as an Example // ACS Applied Materials and Interfaces IF=8.3 11 (2019) 5129-5135
![](/fileadmin/w00bya/energy/pics/104.png)
104. Y. Liang,(1) D. Mclaughlin,(1) C. Csoklich, O. Schneider, A.S. Bandarenka. The nature of active centers catalyzing oxygen electro-reduction at platinum surfaces in alkaline media // Energy & Environmental Science IF=32.4 12 (2019) 351-357
![](/fileadmin/w00bya/energy/pics/103.png)
103. Y. Liang, J.H.K. Pfisterer, D. Mclaughlin, C. Csoklich, L. Seidl, A.S. Bandarenka, O. Schneider. Electrochemical scanning probe microscopies in electrocatalysis // Small Methods IF=10.7 3 (2019) 1800387
![](/fileadmin/w00bya/energy/pics/102.png)
102. B. Garlyyev, Y. Liang, S. Xue, S. Watzele, J. Fichtner, W.J. Li, X. Ding, A.S. Bandarenka. Theoretical and experimental identification of active electrocatalytic surface sites // Current Opinion in Electrochemistry IF=7.9 14 (2019) 206-213
2018
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101. B. Garlyyev,(1) S. Xue,(1) M.D. Pohl, D. Reinisch, A.S. Bandarenka. Oxygen electroreduction at high-index Pt electrodes in alkaline electrolytes: a decisive role of the alkali metal cations // ACS Omega IF=3.7 3 (2018) 15325–15331
![](/fileadmin/w00bya/energy/pics/100.png)
100. S. Watzele, J. Fichtner, B. Garlyyev, J.N. Schwämmlein, A.S. Bandarenka. On the dominating mechanism of the hydrogen evolution reaction at polycrystalline Pt-electrodes in acidic media // ACS Catalysis IF=11.3 8 (2018) 9456-9462
![](/fileadmin/w00bya/energy/pics/99.png)
99. M. Rück, A.S. Bandarenka, F. Calle-Vallejo, A. Gagliardi. Oxygen reduction reaction: rapid prediction of mass activity of nanostructured platinum electrocatalysts // The Journal of Physical Chemistry Letters IF=4.8 9 (2018) 4463–4468
![](/fileadmin/w00bya/energy/pics/98.png)
98. S. Watzele, Y. Liang, A.S. Bandarenka. Intrinsic activity of some oxygen and hydrogen evolution reaction electrocatalysts under industrially relevant conditions // ACS Applied Energy Materials IF=5.4 1 (2018) 4196–4202
![](/fileadmin/w00bya/energy/pics/97.png)
97. S. Xue, B. Garlyyev, S. Watzele, Y. Liang, J. Fichtner, M.D. Pohl, A.S. Bandarenka. Influence of alkali metal cations on the hydrogen evolution reaction activity of Pt, Ir, Au and Ag electrodes in alkaline electrolytes // ChemElectroChem IF=3.5 5 (2018) 2326-2329
![](/fileadmin/w00bya/energy/pics/96.png)
96. D. Scieszka,(1) C. Sohr,(1) P. Scheibenbogen, P. Marzak, J. Yun, Y. Liang, J. Fichtner, A.S. Bandarenka. Multiple potentials of maximum entropy of a Na2Co[Fe(CN)6] battery electrode material: does the electrolyte composition control the interface? // ACS Applied Materials and Interfaces IF=8.3 10 (2018) 21688–21695
![](/fileadmin/w00bya/energy/pics/95.png)
95. F. Calle-Vallejo, A.S. Bandarenka. Enabling generalized coordination numbers to describe strain effects // ChemSusChem IF=7.5 11 (2018) 1824-1828
![](/fileadmin/w00bya/energy/pics/94.png)
94. R. Bors, J. Yun, P. Marzak, J. Fichtner, D. Scieszka, A.S. Bandarenka. Chromium(II) hexacyanoferrate-based thin films as a material for aqueous alkali metal cation batteries // ACS Omega IF=3.7 3 (2018) 5111-5115
![](/fileadmin/w00bya/energy/pics/93.png)
93. P. Marzak, J. Yun, A. Dorsel, A. Kriele, R. Gilles, O. Schneider, A.S. Bandarenka. Electrodeposited Na2Ni[Fe(CN)6] thin film cathodes exposed to simulated aqueous Na-Ion battery conditions // J. Phys. Chem. C IF=3.3 122 (2018) 8760–8768
![](/fileadmin/w00bya/energy/pics/92.png)
92. B. Garlyyev, S. Xue, S. Watzele, D. Scieszka, A.S. Bandarenka. Influence of the nature of the alkali metal cations on the electrical double layer capacitance of model Pt(111) and Au(111) electrodes // The Journal of Physical Chemistry Letters IF=4.8 9 (2018) 1927-1930
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91. F. Dinkelacker,(1) P. Marzak,(1) J. Yun, Y. Liang, A.S. Bandarenka. A multistage mechanism of lithium intercalation into graphite anodes in presence of the solid electrolyte interface // ACS Applied Materials and Interfaces IF=8.3 10 (2018) 14063–14069
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90. M. Obermaier, A.S. Bandarenka, C. Lohri-Tymozhynsky. A comprehensive physical impedance model of polymer electrolyte fuel cell cathodes in oxygen-free atmosphere // Scientific Reports IF=3.8 8 (2018) 4933
![](/fileadmin/w00bya/energy/pics/89.png)
89. K.D. Jensen, J. Tymoczko, J. Rossmeisl, A.S. Bandarenka, I. Chorkendorff, M. Escudero-Escribano, I.E.L. Stephens. Elucidation of the oxygen reduction volcano in alkaline media using a copper-platinum(111) alloy // Angewandte Chemie International Edition IF=16.1 57 (2018) 2800-2805 (VIP, Frontispiece)
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88. B. Garlyyev(1), M. Pohl(1), V. Čolić, Y. Liang, F.K. Butt, A. Holleitner, A.S. Bandarenka. High oxygen reduction reaction activity of Pt5Pr electrodes in acidic media // Electrochemistry Communications IF=4.7 88 (2018) 10-14
![](/fileadmin/w00bya/energy/pics/87.png)
87. J. Yun(1), F. Schiegg(1), Y. Liang, D. Scieszka, B. Garlyyev, A. Kwiatkowski, T. Wagner, A.S. Bandarenka. Electrochemically formed NaxMn[Mn(CN)6] thin film anodes demonstrate sodium intercalation and de-intercalation at extremely negative electrode potentials in aqueous media // ACS Applied Energy Materials IF=5.4 1 (2018) 123–128
2017
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86. S. Xue(1), S. Watzele(1), V. Čolić, K. Brandl, B. Garlyyev, A.S. Bandarenka. Reconsidering water electrolysis: producing H2 at cathodes together with valuable chemicals at anodes. Selective anodic oxidation of n-butylamine to n-butyronitrile as an example (Cover Feature) // ChemSusChem IF=7.5 10 (2017) 4812-4816
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85. M.D. Pohl, S. Watzele, F. Calle-Vallejo, A.S. Bandarenka. Nature of highly active electrocatalytic sites for the hydrogen evolution reaction at Pt electrodes in acidic media // ACS Omega IF=3.7 2 (2017) 8141-8147
![](/fileadmin/w00bya/energy/pics/84.png)
84. B. Garlyyev, Y. Liang, F.K. Butt, A.S. Bandarenka. Engineering of highly active silver nanoparticles for oxygen electroreduction via simultaneous control over their shape and size // Advanced Sustainable Systems IF=6.5 1 (2017) 1700117
![](/fileadmin/w00bya/energy/pics/83.png)
83. J.H.K. Pfisterer(1), Y. Liang(1), O. Schneider, A.S. Bandarenka. Direct instrumental identification of catalytically active surface sites // Nature IF=50.5 549 (2017) 74–77 (News and Views)
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82. D. Scieszka(1), J. Yun(1), A.S. Bandarenka. What do laser induced transient techniques reveal for batteries? Na- and K- intercalation from aqueous electrolytes as an example // ACS Applied Materials and Interfaces IF=8.3 9 (2017) 20213-20222
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81. F. Calle-Vallejo, M. Pohl, A.S. Bandarenka. Quantitative coordination-activity relations for the design of enhanced Pt catalysts for CO electro-oxidation // ACS Catalysis IF=11.3 7 (2017) 4355-4359
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80. B. Paulitsch, J. Yun, A.S. Bandarenka. Electrodeposited Na2VOx[Fe(CN)6] films as a cathode material for aqueous Na-ion batteries // ACS Applied Materials and Interfaces IF=8.3 9 (2017) 8107-8112
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79. A. Ganassin, P. Sebastián, V. Climent, W. Schuhmann, A.S. Bandarenka, J. Feliu. On the pH dependence of the potential of maximum entropy of Ir(111) electrodes // Scientific Reports IF=3.8 7 (2017) 1246
![](/fileadmin/w00bya/energy/pics/78.png)
78. F. Calle-Vallejo, M. Pohl, D. Reinisch, D. Loffreda, P. Sautet, A.S. Bandarenka. Why conclusions from platinum model surfaces do not necessarily lead to enhanced nanoparticle catalysts for the oxygen reduction reaction // Chemical Science IF= 7.6 8 (2017) 2283-2289
![](/fileadmin/w00bya/energy/pics/77.png)
77. D. Pham-Cong, J.H. Choi, J. Yun, A.S. Bandarenka, J. Kim, P. Braun, S.-Y. Jeong, C.-R. Cho. Synergistically enhanced electrochemical performance of hierarchical MoS2/TiNb2O7 hetero-nanostructures as anode materials for Li-ion batteries // ACS Nano IF=15.8 11 (2017) 1026-1033
2016
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76. E. Ventosa, B. Paulitsch, P. Marzak, J. Yun, F. Schiegg, T. Quast, A.S. Bandarenka. The mechanism of the interfacial charge and mass transfer during intercalation of alkali metal cations // Advanced Science IF=14.3 3 (2016) 1600211
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75. V. Colic, A.S. Bandarenka. Pt-Alloy Electrocatalysts for the oxygen reduction reaction: from model surfaces to nanostructured systems (a perspective) // ACS Catalysis IF=11.3 6 (2016) 5378-5385
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74. A.S. Bandarenka, R. Williams, N. Plumeré. Anodic desorption monitored by voltammetric and gravimetric measurements for fast estimation of surface coverage of complex organic molecules on Au electrodes // Electroanalysis IF=2.7 28 (2016) 2382-2388
![](/fileadmin/w00bya/energy/pics/73.png)
73. V. Colic, M. Pohl, D. Scieszka, A.S. Bandarenka. Influence of the electrolyte composition on the activity and selectivity of electrocatalytic centers // Catalysis Today IF=5.2 262 (2016) 24-35
![](/fileadmin/w00bya/energy/pics/72.png)
72. S. Watzele, A.S. Bandarenka. Quick determination of electroactive surface area of some oxide electrode materials // Electroanalysis IF=2.7 28 (2016) 2394-2399
![](/fileadmin/w00bya/energy/pics/71.png)
71. J. Yun, J. Pfisterer, A.S. Bandarenka. How simple are the models of Na-intercalation in aqueous media? // Energy & Environmental Science IF=32.4 9 (2016) 955-961
![](/fileadmin/w00bya/energy/pics/70.png)
70. J. Tymoczko, F. Calle-Vallejo, W. Schuhmann, A.S. Bandarenka. Making the hydrogen evolution reaction in polymer electrolyte membrane electrolysers even faster // Nature Communications IF=14.7 7 (2016) 10990
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69. A. Ganassin, A. Maljusch, V. Colic, L. Spanier, K. Brandl, W. Schuhmann, A.S. Bandarenka. Benchmarking the performance of thin film oxide electrocatalysts for gas evolution reactions at high current densities // ACS Catalysis IF=11.3 6 (2016) 3017-3024
![](/fileadmin/w00bya/energy/pics/68.png)
68. M.D. Pohl, V. Colic, D. Scieszka, A.S. Bandarenka. Elucidation of adsorption processes at the surface of Pt(331) model electrocatalysts in acidic aqueous media // Physical Chemistry Chemical Physics IF=3.9 18 (2016) 10792-10799
![](/fileadmin/w00bya/energy/pics/67.png)
67. A. Estrada-Vargas, A.S. Bandarenka, V. Kuznetsov, W. Schuhmann. In-situ characterization of ultrathin films by scanning electrochemical impedance microscopy // Analytical Chemistry IF=8.0 88 (2016) 3354-3362
![](/fileadmin/w00bya/energy/pics/66.png)
66. V. Kuznetsov, A. Estrada-Vargas, A. Maljusch, B.B. Berkes, A.S. Bandarenka, R.M. Souto, W. Schuhmann. Kinetic passivation effect of localized differential aeration on brass // ChemPlusChem IF=3.0 81 (2016) 49-57 (cover picture and author profiles).
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65. F.K. Butt, A.S. Bandarenka. Microwave assisted synthesis of functional electrode materials for energy applications // J. Solid State Electrochem. IF=2.6 20 (2016) 2915-2928
2015
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64. F. Calle-Vallejo,(1) J. Tymoczko,(1) V. Colic, Q.H. Vu, M.D. Pohl, K. Morgenstern, D. Loffreda, P. Sautet, W. Schuhmann, A.S. Bandarenka. Finding optimal surface sites on heterogeneous catalysts by counting nearest neighbors // Science IF=44.7 350 (2015) 185-189 (News and Views)
![](/fileadmin/w00bya/energy/pics/63.png)
63. J. Tymoczko, F. Calle-Vallejo, V. Colic, W. Schuhmann, A.S. Bandarenka. Evaluation of the electrochemical stability of model Cu-Pt(111) near-surface alloy catalysts // Electrochimica Acta IF=5.5 179 (2015) 469-474
![](/fileadmin/w00bya/energy/pics/62.png)
62. B.B. Berkes, A.S. Bandarenka, G. Inzelt. Electropolymerization: further insight into the formation of conducting polyindole thin films // J. Phys. Chem. C IF=3.3 119 (2015) 1996–2003
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61. V. Colic, J. Tymoczko, A. Maljusch, A. Ganassin, W. Schuhmann, A.S. Bandarenka. Experimental aspects in benchmarking of the electrocatalytic activity // ChemElectroChem IF=3.5 2 (2015) 143-149
![](/fileadmin/w00bya/energy/pics/60.png)
60. J. Tymoczko, V. Colic, A. Ganassin, W. Schuhmann, A.S. Bandarenka. Influence of the alkali metal cations on the activity of Pt(111) towards model electrocatalytic reactions in acidic sulfuric media // Catalysis Today IF=5.2 244 (2015) 96-102
![](/fileadmin/w00bya/energy/pics/59.png)
59. A. Ganassin, V. Colic, J. Tymoczko, A.S. Bandarenka, W. Schuhmann. Non-covalent interactions in water electrolysis: influence on the activity of Pt(111) and iridium oxide catalysts in acidic media // Physical Chemistry Chemical Physics IF=2.9 17 (2015) 8349-8355
![](/fileadmin/w00bya/energy/pics/58.png)
58. J. Tymoczko, V. Colic, A.S. Bandarenka, W. Schuhmann. Detection of 2D phase transitions at the electrode/electrolyte interface using electrochemical impedance spectroscopy // Surface Science IF=2.1 631 (2015) 81-87
2014
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57. J. Tymoczko, F. Calle-Vallejo, V. Colic, M.T.M. Koper, W. Schuhmann, A.S. Bandarenka. Oxygen reduction at a Cu modified Pt(111) model electrocatalyst in contact with NAFION polymer // ACS Catalysis IF=11.3 4 (2014) 3772–3778
![](/fileadmin/w00bya/energy/pics/56.png)
56. X. Chen, A. Maljusch, R.A. Rincón, A. Battistel, A.S. Bandarenka, W. Schuhmann. Local visualization of catalytic activity at gas evolving electrodes using frequency-dependent scanning electrochemical microscopy // Chemical Communications IF=4.3 50 (2014) 3772–3778
![](/fileadmin/w00bya/energy/pics/55.png)
55. A.S. Bandarenka, E. Ventosa, A. Maljusch, J. Masa, W. Schuhmann. Techniques and methodologies in modern electrocatalysis: evaluation of activity, selectivity and stability of catalytic materials // Analyst IF=3.6 139 (2014) 1274-1291
![](/fileadmin/w00bya/energy/pics/54.png)
54. A.S. Bandarenka, A. Maljusch, V. Kuznetsov, K. Eckhard, W. Schuhmann. Localized impedance measurements for electrochemical surface science // J. Phys. Chem. C IF=3.3 118 (2014) 8952–8959
![](/fileadmin/w00bya/energy/pics/53.png)
53. V. Kuznetsov, A. Maljusch, R. Souto, A.S. Bandarenka, W. Schuhmann. Characterisation of localised corrosion processes using scanning electrochemical iImpedance microscopy // Electrochem. Commun. IF=4.7 44 (2014) 38-41
![](/fileadmin/w00bya/energy/pics/52.png)
52. A.S. Bandarenka, H.A. Hansen, J. Rossmeisl, I.E.L. Stephens. Elucidating the activity of stepped Pt single crystals for oxygen reduction // Physical Chemistry Chemical Physics IF=2.9 16 (2014) 13625-13629
![](/fileadmin/w00bya/energy/pics/51.png)
51. B.B. Berkes, M. Huang, J.B. Henry, M. Kokoschka, A.S. Bandarenka. Characterisation of complex electrode processes using simultaneous impedance spectroscopy and electrochemical nanogravimetric measurements (a minireview) // ChemPlusChem IF=3.0 79 (2014) 348-358
![](/fileadmin/w00bya/energy/pics/50.png)
50. J. Tymoczko, W. Schuhmann, A.S. Bandarenka. Position of Cu atoms at the Pt(111) electrode surfaces controls electrosorption of (bi)sulfate anions from H2SO4 electrolytes // ChemElectroChem IF=3.5 1 (2014) 213-219
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49. T.P. Johansson, E.T. Ulrikkeholm, P. Hernandez-Fernandez, P. Malacrida, H.A. Hansen, A.S. Bandarenka, J.K. Norskov, J. Rossmeisl, I.E.L. Stephens, I. Chorkendorff. Pt skin versus Pt skeleton structures of Pt3Sc as electrocatalysts for oxygen reduction // Topics in Catalysis IF=2.8 57 (2014) 245-254
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48. A. Maljusch, E. Ventosa, R.A. Rincón, A.S. Bandarenka, W. Schuhmann. Revealing onset potentials using electrochemical microscopy to assess the catalytic activity of gas-evolving electrodes // Electrochem. Commun. IF=4.7 38 (2014) 142-145
![](/fileadmin/w00bya/energy/pics/47.png)
47. A. Maljusch, J.B. Henry, J. Tymoczko, A.S. Bandarenka, W. Schuhmann. Characterisation of non-uniform functional surfaces: towards linking basic surface properties with electrocatalytic activity // RSC Advances IF=3.9 4 (2014) 1532-1537
2013
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46. A.S. Bandarenka, K. Eckhard, A. Maljusch, W. Schuhmann. Localized electrochemical impedance spectroscopy: visualization of spatial distributions of the key parameters describing solid / liquid interfaces // Analytical Chemistry IF=6.7 85 (2013) 2443-2448
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45. M. Huang, A. Maljusch, F. Calle-Vallejo, J.B. Henry, M.T.M. Koper, W. Schuhmann, A.S. Bandarenka. Electrochemical formation and surface characterisation of Cu2-xTe thin films with adjustable content of Cu // RSC Advances IF=3.9 3 (2013) 21648-21654
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44. A.S. Bandarenka, M.T.M. Koper. Structural and electronic effects in heterogeneous electrocatalysis: towards a rational design of electrocatalysts // Journal of Catalysis IF=6.5 308 (2013) 11-24
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43. J. Tymoczko, W. Schuhmann, A.S. Bandarenka. A versatile electrochemical cell for the preparation and characterisation of model electrocatalytic systems // Physical Chemistry Chemical Physics IF=2.9 15 (2013) 12998-13004
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42. A.S. Bandarenka. Exploring the interfaces between metal electrodes and aqueous electrolytes with electrochemical impedance spectroscopy // Analyst IF=3.6 138 (2013) 5540-5554
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41. M. Kokoschka, J.B. Henry, A.S. Bandarenka. Multiparametric characterisation of non-electroactive self-assembled monolayers during their formation // Langmuir IF=3.7 29 (2013) 9909–9917
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40. F. Calle-Vallejo,(1) M. Huang,(1) J.B. Henry, M.T.M. Koper, A.S. Bandarenka. Theoretical design and experimental implementation of Ag/Au electrodes for the electrochemical reduction of nitrate // Physical Chemistry Chemical Physics IF=2.9 15 (2013) 3196-3202
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39. J.B. Henry, A. Maljusch, J. Tymoczko, W. Schuhmann, A.S. Bandarenka. Preparation of thin film Cu-Pt(111) near-surface alloys: one small step towards up-scaling model single crystal surfaces // Electrochimica Acta IF=5.5 112 (2013) 887-893
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38. B. Sanchez, A.S. Bandarenka, G. Vandersten, J. Schoukens, R. Bragos. Novel approach for processing electrical bioimpedance spectra using differential impedance analysis // Medical Engineering & Physics IF=1.7 35 (2013) 1349-1357
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37. F. Calle-Vallejo, M.T.M. Koper, A.S. Bandarenka. Tailoring the catalytic activity of electrodes with monolayer amounts of foreign metals // Chemical Society Reviews IF=40.4 42 (2013) 5210-5230
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36. J. Tymoczko, W. Schuhmann, A.S. Bandarenka. The constant phase element reveals 2D phase transitions in adsorbate layers at the electrode / electrolyte interfaces // Electrochem. Commun. IF=4.7 27 (2013) 42-45
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35. A.S. Bandarenka. Development of hybrid algorithms for EIS data fitting, a book chapter in: Lecture Notes on Impedance Spectroscopy. Measurement, Modeling and Applications, Volume 4 / Ed. Kanoun, O. -CRC Press, Tailor and Francis Group, London, 2013, pp. 29-36
2012
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34. M. Huang(1), J.B. Henry(1), P. Fortgang, J. Henig, N. Plumeré, A.S. Bandarenka. In depth analysis of complex interfacial processes: in situ electrochemical characterisation of deposition of atomic layers of Cu, Pb and Te on Pd electrodes // RSC Advances IF=3.9 2 (2012) 10994-11006
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33. A.S. Bandarenka, A.S. Varela, M. Karamad, F. Calle-Vallejo, L. Bech, F.J. Perez-Alonso, J. Rossmeisl, I.E.L. Stephens, I. Chorkendorff. The design of an active site towards optimal electrocatalysis: overlayers, surface alloys and near-surface alloys of Cu/Pt(111) // Angewandte Chemie International Edition IF=16.1 51 (2012) 11845-11848 ; (inside cover picture)
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32. A.S. Bondarenko. Analysis of large experimental datasets in electrochemical impedance spectroscopy // Analytica Chimica Acta IF=5.7 743 (2012) 41-50
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31. A.S. Bondarenko, I.E.L. Stephens, I. Chorkendorff. A cell for the controllable thermal treatment and electrochemical characterisation of single crystal alloy electrodes // Electrochem. Commun. IF=4.7 23 (2012) 33-36
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30. B.B. Berkes, J.B. Henry, M. Huang, A.S. Bondarenko. Electrochemical characterisation of copper thin film formation on polycrystalline platinum // ChemPhysChem IF=2.3 13 (2012) 3210-3217
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29. J.B. Henry, A. Maljusch, M. Huang, W. Schuhmann, A.S. Bondarenko. Thin-film Cu-Pt(111) near-surface alloys: active electrocatalysts for the oxygen reduction reaction // ACS Catalysis IF=11.3 2 (2012) 1457-1460
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28. A.R. Zeradjanin, E. Ventosa, A.S. Bondarenko, W. Schuhmann. Evaluation of catalytic performance of gas evolving electrodes using local electrochemical noise measurements // ChemSusChem IF=7.5 5 (2012) 1905-1911
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27. B.B. Berkes, G. Inzelt, W. Schuhmann, A.S. Bondarenko. Influence of Cs+ and Na+ on specific adsorption of *OH, *O and *H at platinum in acidic sulfuric media // J. Phys. Chem. C IF=3.3 116 (2012) 10995-11003
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26. M. Huang, A. Maljusch, J.B. Henry, W. Schuhmann, A.S. Bondarenko. Probing electrode | electrolyte interface during intercalation of Cu into Te // Electrochem. Commun. IF=4.7 20 (2012) 92-96
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25. A.S. Bondarenko, I.E.L. Stephens, L. Bech, I. Chorkendorff. Probing adsorption phenomena on a single crystal Pt-alloy surface under oxygen reduction reaction conditions // Electrochimica Acta IF=5.5 82 (2012) 517-523
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24. I.E.L. Stephens, A.S. Bondarenko, U. Grønbjerg, J. Rossmeisl, I. Chorkendorff. Understanding the electrocatalysis of oxygen reduction on platinum and its alloys (Review) // Energy & Environmental Science IF=32.4 5 (2012) 6744-6762
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23. A. Maljusch(1), J. Henry(1), W. Schuhmann, A.S. Bondarenko. A quick method for the preparation of Pt(111)-like thin films // Electrochem. Commun. IF=4.7 16 (2012) 88-91
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22. M. Huang(1), J.B. Henry(1), B.B. Berkes, A. Maljusch, W. Schuhmann, A.S. Bondarenko. Towards a detailed in situ characterization of non-stationary electrocatalytic systems // Analyst IF=3.6 137 (2012) 631-640
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21. I.E.L. Stephens, A.S. Bondarenko, L. Bech, I. Chorkendorff. Oxygen electroreduction activity and X-ray photoelectron spectroscopy of alloys of platinum and early transition metals // ChemCatChem IF=3.8 4 (2012) 341-349
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20. M. Huang, J.B. Henry, B.B. Berkes, A. Maljusch, W. Schuhmann, A.S. Bondarenko. Acquisition of impedance and gravimetric data for the characterization of the electrode | electrolyte interfaces, a book chapter in: Lecture Notes on Impedance Spectroscopy. Measurement, Modeling and Applications, Volume 3 / Ed. Kanoun, O. -CRC Press, Tailor and Francis Group, London, 2012, pp. 35-41
2011
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19. B.B. Berkes, A. Maljusch, W. Schuhmann, A.S. Bondarenko. Simultaneous acquisition of impedance and gravimetric data in a cyclic potential scan for the characterization of non-stationary electrode/electrolyte interfaces // J. Phys. Chem. C IF=3.3 115 (2011) 9122–9130
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18. A.S. Bondarenko, I.E.L. Stephens, H.A. Hansen, F.J. Perez-Alonso, V. Tripkovic, T.P. Johansson, J. Rossmeisl, J.K. Nørskov, I. Chorkendorff. The Pt(111)/electrolyte interface under oxygen reduction reaction conditions: an electrochemical impedance spectroscopy study // Langmuir IF=3.7 27 (2011) 2058–2066
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17. I.E.L. Stephens, A.S. Bondarenko, F.J. Perez-Alonso, F. Calle-Vallejo, L. Bech, T.P. Johansson, A.K. Jepsen, R. Frydendal, B.P. Knudsen, J. Rossmeisl, I. Chorkendorff. Tuning the activity of Pt(111) for oxygen electroreduction by subsurface alloying // J. Am. Chem. Soc. IF=14.4 133 (2011) 5485–5491
2010 - 2003
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16. M.E. Björketun, A.S. Bondarenko, B.L. Abrams, I. Chorkendorff, J. Rossmeisl. Screening of electrocatalytic materials for hydrogen evolution // Phys. Chem. Chem. Phys. IF=2.9 12 (2010) 10536-10541
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15. G.A. Ragoisha, N.P. Osipovich, A.S. Bondarenko, J. Zhang, S. Kocha, A. Iiyama. Characterisation of the electrochemical redox behaviour of Pt electrodes by potentiodynamic electrochemical impedance spectroscopy // J. Solid State Electrochem. IF=2.6 14 (2010) 531-542
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14. J. Greeley, I.E.L. Stephens, A.S. Bondarenko, T.P. Johansson, H.A. Hansen, T.F. Jaramillo, J. Rossmeisl, I. Chorkendorff, J.K. Nørskov. Alloys of platinum and early transition metals as oxygen reduction electrocatalysts// Nature Chem. IF=19.2 1 (2009) 552-556
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13. A.S. Bondarenko, W. Zhou, H.J.M. Bouwmeester. Superprotonic KH(PO3H)–SiO2 composite electrolyte for intermediate temperature fuel cells // J. Power Sources IF=8.1 194 (2009) 843-846
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12. G.A. Ragoisha, A.S. Bondarenko, N.P. Osipovich, S.M. Rabchynski, E.A. Streltsov. Multiparametric characterisation of metal-chalcogen atomic multilayer assembly by potentiodynamic electrochemical impedance spectroscopy // Electrochimica Acta IF=5.5 53 (2008) 3879-3888
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11. W. Zhou, A.S. Bondarenko, B.A. Boukamp, H.J.M. Bouwmeester. Superprotonic conductivity in MH(PO3H) (M = Li+, Na+, K+, Rb+, Cs+, NH4+) // Solid State Ionics IF=3.0 179 (2008) 380-384
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10. A.S. Bondarenko, G.A. Ragoisha, N.P. Osipovich, E.A. Streltsov. Multiparametric electrochemical characterisation of Te-Cu-Pb atomic three-layer structure deposition on polycrystalline gold // Electrochem. Commun. IF=4.7 8 (2006) 921-926
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9. A.S. Bondarenko, G.A. Ragoisha, N.P. Osipovich, E.A. Streltsov. Potentiodynamic electrochemical impedance spectroscopy of lead upd on polycrystalline gold and on selenium atomic underlayer // Electrochem. Commun. IF=4.7 7 (2005) 631-636
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8. A.S. Bondarenko, G.A. Ragoisha. Variable Mott-Schottky plots acquisition by potentiodynamic electrochemical impedance spectroscopy // J. Solid State Electrochem. IF=2.6 9 (2005) 845-849
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7. G.A. Ragoisha, A.S. Bondarenko. Potentiodynamic electrochemical impedance spectroscopy // Electrochimica Acta IF=5.5 50 (2005) 1553-1563
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6. G.A. Ragoisha, A.S. Bondarenko. Potentiodynamic electrochemical impedance spectroscopy, a book chapter in: Electrochemistry: New Research / Ed. Magdalena Nunez - Nova Science Publishers; New York, 2005. - P. 51-75
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5. A.S. Bondarenko, G.A. Ragoisha. Inverse problem in potentiodynamic electrochemical impedance spectroscopy, a book chapter in: Progress in Chemometrics Research / Ed. Pomerantsev A.L. - Nova Science Publishers; New York, 2005. - P. 89-102
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4. G.A. Ragoisha, A.S. Bondarenko, N.P. Osipovich, E.A. Streltsov. Potentiodynamic electrochemical impedance spectroscopy: lead underpotential deposition on tellurium // J. Electroanal. Chem. IF=4.1 565 (2004) 227-234
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3. G.A. Ragoisha, A.S. Bondarenko. Potentiodynamic electrochemical impedance spectroscopy of silver on platinum in underpotential and overpotential deposition // Surface Science IF=2.1 566-568 (2004) 315-320
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2. G.A. Ragoisha, A.S. Bondarenko. Potentiodynamic electrochemical impedance spectroscopy. Copper underpotential deposition on gold // Electrochem. Commun. IF=4.7 5 (2003) 392-395
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1. G.A. Ragoisha, A.S. Bondarenko. Potentiodynamic electrochemical impedance spectroscopy for solid state chemistry // Solid State Phenomena. 90-91 (2003) 103-108