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=12.7 4 (2024) 202400042

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=N/A 3 (2024) 874-882

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=4.2 128 (2024) 4969-4977

184. S.N. Bandarenka, A.S. Bandarenka. Modeling and interpretation of responses of concretes in four-probe impedance measurements // ChemElectroChem IF=4.0 11 (2024) e202300543

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=5.0 5 (2024) 2368-2376

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=15.0 146 (2024) 3883-3889

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=4.0 11 (2024) e202300476

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=N/A 4 (2024) e202300035

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=12.7 4 (2024) 2300241

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

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

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=9.9 (2024) accepted




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=8.5  42 (2023) 101386

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=3.9 170 (2023) 090544

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=4.0 10 (2023) 202300270

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=27.8 13 (2023) 2302039

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

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=13.7 13 (2023) 7587–7596

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=10.4 15 (2023) 23951-23962

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=4.2 127 (2023) 6321-6327

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

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=4.2 127 (2023) 2204-2214

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=7.5 5 (2023) 014016

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.




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=39.7 15 (2022) 5181-5191

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=4.6  922 (2022) 116750

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=N/A 1 (2022) 623-631

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=4.2 126 (2022) 11414-11420

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=4.2 126 (2022) 10900-10909

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=15.2 18 (2022) 2202410 (Inside Front Cover)

157. F. Haimerl, J.P. Sabawa, T.A. Dao, A.S. Bandarenka. Spatially resolved electrochemical impedance spectroscopy of automotive PEM fuel cells // ChemElectroChem IF=4.8 9 (2022) e202200069

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=10.4 14 (2022) 19604-19613

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=9.4 2 (2022) 657-659

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=10.4 14 (2022) 15811-15817

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=16.8 61 (2022) e202202744

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=16.8 61 (2022) e20221610

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=10.4 14 (2022) 3515-3525

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=4.8 9 (2022) e202101175


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=4.8 9 (2022) e202101476

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=4.8 9 (2022) 202101088

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=16.7 429 (2022) 132295.

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=8.5 32 (2022) 100882




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=11.2 118 (2021) e2024969118

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=7.3 391 (2021) 138969

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=4.8 8 (2021) 3433-3456

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=7.3 382 (2021) 138692.

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=32.1 33 (2021) 2103218.

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=5.0 27 (2021) 10016-10020.

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=3.9 23 (2021) 12926-12944.

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=7.3 382 (2021) 138285

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=3.9 23 (2021) 10051-10058

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=32.1 33 (2021) 2100585 (back cover)

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=4.2 125 (2021) 5020-5028

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=7.1 46 (2021) 15951-15964

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=8.0  396 (2021) 14-22

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=10.4 13 (2021) 5853-5860

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=4.8 8 (2021) 96-102

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=2.0 3 (2021) e12345

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=15.4 5 (2021) 2000710

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=10.2 14 (2021) 2762-2769




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=2.3 2 (2020) 100078

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=7.0 3 (2020) 9151-9157

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=4.8 7 (2020) 2784-2791

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=4.8 7 (2020) 3545-3568

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=4.2 124 (2020) 12442-12447

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=16.8 59 (2020) 10934-10938

121. B. Garlyyev, S. Xue, J. Fichtner, A.S. Bandarenka, C. Andronescu. Prospects of value-added chemicals and hydrogen via electrolysis // ChemSusChem IF=9.1 13 (2020) 2513-2521

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=6.9 11 (2020) 1773-1780

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=13.7 10 (2020) 3131-3142

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=16.8 59 (2020) 5837-5843

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=11.5 260 (2020) 114291




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=13.7 9 (2019) 9222-9230

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=4.8 14 (2019) 3474-3501

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=15.4 3 (2019) 1900445

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= 10.0 10 (2019) 8060-8075

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=10.5 3 (2019) 25

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=5.6 1 (2019) 2901-2909

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=16.8 58 (2019) 9596-9600

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=7.3 311 (2019) 21-29

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=16.4 141 (2019) 5926–5933

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=7.3 307 (2019) 157-163

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=10.4 11 (2019) 12476–12480

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=10.4 11 (2019) 5129-5135

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=39.7 12 (2019) 351-357

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=15.4 3 (2019) 1800387

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=8.5 14 (2019) 206-213




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=4.1 3 (2018) 15325–15331

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=13.7 8 (2018) 9456-9462

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=6.9 9 (2018) 4463–4468

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=7.0 1 (2018) 4196–4202

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=4.8 5 (2018) 2326-2329

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=10.4 10 (2018) 21688–21695

95. F. Calle-Vallejo, A.S. Bandarenka. Enabling generalized coordination numbers to describe strain effects // ChemSusChem IF=9.1 11 (2018) 1824-1828

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=4.1 3 (2018) 5111-5115

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=4.2 122 (2018) 8760–8768

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=6.9 9 (2018) 1927-1930

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=10.4 10 (2018) 14063–14069

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=5.0 8 (2018) 4933

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=16.8 57 (2018) 2800-2805 (VIP, Frontispiece)

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=5.4 88 (2018) 10-14

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=7.0 1 (2018) 123–128




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=9.1 10 (2017) 4812-4816

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=4.1 2 (2017) 8141-8147

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=6.7 1 (2017) 1700117

83. J.H.K. Pfisterer(1), Y. Liang(1), O. Schneider, A.S. Bandarenka. Direct instrumental identification of catalytically active surface sites // Nature IF=69.5 549 (2017) 74–77  (News and Views)

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=10.4 9 (2017) 20213-20222

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=13.7 7 (2017) 4355-4359

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=10.4 9 (2017) 8107-8112

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=5.0 7 (2017) 1246

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= 10.0 8 (2017) 2283-2289

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=18.0 11 (2017) 1026-1033




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=17.5 3 (2016) 1600211

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=13.7 6 (2016) 5378-5385

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=3.0 28 (2016) 2382-2388

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=6.6 262 (2016) 24-35

72. S. Watzele, A.S. Bandarenka. Quick determination of electroactive surface area of some oxide electrode materials // Electroanalysis IF=3.0 28 (2016) 2394-2399

71. J. Yun, J. Pfisterer, A.S. Bandarenka. How simple are the models of Na-intercalation in aqueous media? // Energy & Environmental Science IF=39.7 9 (2016) 955-961

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=17.7 7 (2016) 10990

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=13.7 6 (2016) 3017-3024

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

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

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=3.2 81 (2016) 49-57 (cover picture and author profiles).

65. F.K. Butt, A.S. Bandarenka. Microwave assisted synthesis of functional electrode materials for energy applications // J. Solid State Electrochem. IF=2.8 20 (2016) 2915-2928




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=63.7 350 (2015)  185-189 (News and Views)

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=7.3 179 (2015) 469-474

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=4.2 119 (2015) 1996–2003

61. V. Colic, J. Tymoczko, A. Maljusch, A. Ganassin, W. Schuhmann, A.S. Bandarenka. Experimental aspects in benchmarking of the electrocatalytic activity // ChemElectroChem IF=4.8 2 (2015) 143-149

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=6.6 244 (2015) 96-102

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=3.9 17 (2015) 8349-8355

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




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=13.7 4 (2014) 3772–3778

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=6.1 50 (2014) 3772–3778

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=5.2 139 (2014) 1274-1291

54. A.S. Bandarenka, A. Maljusch, V. Kuznetsov, K. Eckhard, W. Schuhmann. Localized impedance measurements for electrochemical surface science // J. Phys. Chem. C IF=4.2 118 (2014) 8952–8959

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=5.4 44 (2014) 38-41

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=3.9 16 (2014) 13625-13629

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=3.2 79 (2014) 348-358

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=4.8 1 (2014) 213-219

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

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=5.4 38 (2014) 142-145

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=4.0 4 (2014) 1532-1537




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=8.0 85 (2013) 2443-2448

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=4.0 3 (2013) 21648-21654

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=8.0 308 (2013) 11-24

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=3.9 15 (2013) 12998-13004

42. A.S. Bandarenka. Exploring the interfaces between metal electrodes and aqueous electrolytes with electrochemical impedance spectroscopy // Analyst IF=5.2 138 (2013) 5540-5554

41. M. Kokoschka, J.B. Henry, A.S. Bandarenka. Multiparametric characterisation of non-electroactive self-assembled monolayers during their formation // Langmuir IF=4.3 29 (2013) 9909–9917

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=3.9 15 (2013) 3196-3202

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=7.3 112 (2013) 887-893

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=2.4 35 (2013) 1349-1357

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=60.6 42 (2013) 5210-5230

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=5.4 27 (2013) 42-45

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




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=4.0 2 (2012) 10994-11006

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=16.8 51 (2012) 11845-11848 ; (inside cover picture)

32. A.S. Bondarenko. Analysis of large experimental datasets in electrochemical impedance spectroscopy // Analytica Chimica Acta IF=6.9 743 (2012) 41-50

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=5.4 23 (2012) 33-36

30. B.B. Berkes, J.B. Henry, M. Huang, A.S. Bondarenko. Electrochemical characterisation of copper thin film formation on polycrystalline platinum // ChemPhysChem IF=3.5 13 (2012) 3210-3217

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=13.7 2 (2012) 1457-1460

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=9.1 5 (2012) 1905-1911

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=4.2 116 (2012) 10995-11003

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=5.4 20 (2012) 92-96

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=7.3 82 (2012) 517-523

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=39.7 5 (2012) 6744-6762

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=5.4 16 (2012) 88-91

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=5.2 137 (2012) 631-640

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=5.5 4 (2012) 341-349

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




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=4.2 115 (2011) 9122–9130

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=4.3 27 (2011) 2058–2066

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=16.4 133 (2011) 5485–5491


2010 - 2003


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=3.9 12 (2010) 10536-10541

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=2.7 14 (2010) 531-542

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=23.2 1 (2009) 552-556

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=9.8 194 (2009) 843-846

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=7.3 53 (2008) 3879-3888

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=3.7 179 (2008) 380-384

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=5.4 8 (2006) 921-926

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=5.4 7 (2005) 631-636

8. A.S. Bondarenko, G.A. Ragoisha. Variable Mott-Schottky plots acquisition by potentiodynamic electrochemical impedance spectroscopy // J. Solid State Electrochem. IF=2.7 9 (2005) 845-849

7. G.A. Ragoisha, A.S. Bondarenko. Potentiodynamic electrochemical impedance spectroscopy // Electrochimica Acta IF=7.3 50 (2005) 1553-1563

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


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

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=4.6 565 (2004) 227-234

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

2. G.A. Ragoisha, A.S. Bondarenko. Potentiodynamic electrochemical impedance spectroscopy. Copper underpotential deposition on gold // Electrochem. Commun. IF=5.4 5 (2003) 392-395

1. G.A. Ragoisha, A.S. Bondarenko. Potentiodynamic electrochemical impedance spectroscopy for solid state chemistry // Solid State Phenomena. 90-91 (2003) 103-108