Publications


2021


141. Operando stability studies of ultrathin single-crystalline IrO2(110) films under acidic oxygen evolution reaction conditions


T. Weber, V. Vonk, D. Escalera-López, G. Abbondanza, A. Larsson V. Koller, M. J.S. Abb, Z. Hegedüs, T. Bäcker, U. Lienert, G. Harlow, A. Stierle, S. Cherevko, E. Lundgren, H. Over*

ACS Catalysis

Accepted

(2021)


140. Sacrificial Cu layer mediated formation of active and stable supported iridium oxygen evolution reaction electrocatalyst


A. Lončar, D. Escalera-López, F. Ruiz-Zepeda, A. Hrnjić, M. Šala, P. Jovanovič, M. Bele, S. Cherevko, N. Hodnik

ACS Catalysis

Accepted

(2021)


139. Essentials of high performance water electrolyzers – from catalyst layer materials to electrode engineering


C.V. Pham*, D. Escalera-López, K. Mayrhofer, S. Cherevko, and S. Thiele*

Advanced Energy Materials

Accepted

(2021)


138. Reduction of oxide layers on Au(111): The interplay between reduction rate, dissolution and restructuring


C. Stumm, S. Grau, F. Speck, F. Hilpert, V. Briega Martos, K.J.J. Mayrhofer, S. Cherevko, O. Brummel, J. Libuda

The Journal of Physical Chemistry: C

Accepted

(2021)


137. Size and composition dependence of oxygen reduction reaction catalytic activities of Mo-doped PtNi/C octahedral nanocrystals


S. Polani, K.E. MacArthur, M. Klingenhof, X. Wang, P. Paciok, L. Pan, Q. Feng, A. Kormanyos, S. Cherevko, M. Heggen, and P. Strasser

ACS Catalysis

11

(2021)

11407-11415


136. An interplay between dealloying, Ostwald ripening and coalescence in PtxNi100-x bimetallic alloys under fuel cell related conditions


M. Bogar, Y. Yakovlev, D.J.S. Sandbeck, S. Cherevko, I.Matolínová, H. Amenitsch*, I. Khalakhan*

ACS Catalysis

11

(2021)

11360-11370


135. CrOx-mediated stability and performance enhancement of Ni/NiO-Mg:SrTiO3 in photocatalytic water splitting


K. Han, D.M. Haiber, J. Knöppel, C. Lievens, S. Cherevko, P. Crozier, G. Mull, B. Mei

ACS Catalysis

Accepted

(2021)


134. Limitations of aqueous model systems in the stability assessment of electrocatalysts for oxygen reactions in fuel cell and electrolysers


K. Ehelebe, D. Escalera-López, S. Cherevko

Current Opinion in Electrochemistry

29

(2021)

100832


133. Accessing in-situ photocorrosion under realistic light conditions: Photoelectrochemical scanning flow cell coupled to on-line ICP-MS


K. Jenewein*, A. Kormányos, J. Knöppel, K.J.J. Mayrhofer, S. Cherevko*

ACS Measurement Science Au

Accepted

(2021)


132. Increased Ir-Ir interaction in iridium oxide during the oxygen evolution reaction at high potentials probed by operando spectroscopy


S. Czioska, A. Boubnov*, D. Escalera-Lopez, J. Geppert, A. Zagalskaya, P. Röse, E. Saraci, V. Alexandrov, U. Krewer, S. Cherevko* , and J.-D. Grunwaldt*

ACS Catalysis

11(15)

(2021)

10043-10057


131. Phase and surface composition-dependent electrochemical stability of Ir-Ru nanoparticles during oxygen evolution reaction


D. Escalera-López,* S. Czioska, J. Geppert, A. Boubnov, P. Röse, E. Saraci, U. Krewer , J.-D. Grunwaldt, S. Cherevko*

ACS Catalysis

11(15)

(2021)

9300–9316


130. Model electrocatalysts for the oxidation of rechargeable electrofuels - carbon Supported Pt nanoparticles prepared in UHV


C. Stumm, M. Kastenmeier, F. Waidhas, M. Bertram, D.J.S. Sandbeck, S. Bochmann, K.J.J. Mayrhofer, J. Bachmann, S. Cherevko, O. Brummel, Jörg Libuda

Electrochimica Acta

389

(2021)

138716


129. Single-atom catalysts – A perspective towards application in electrochemical energy conversion


F.D. Speck, J.H. Kim, G.Bae, S.H. Joo, K.J.J. Mayrhofer, C.H. Choi,* S. Cherevko*

JACS Au

1(8)

(2021)

1086–1100


128. On the effect of anion exchange ionomer binders in bipolar electrode membrane interface water electrolysis


B. Mayerhöfer, K. Ehelebe, F.D. Speck, M. Bierling, J. Bender, J.A. Kerres, K.J.J. Mayrhofer, S. Cherevko, R. Peach, S. Thiele

Journal of Materials Chemistry A

9

(2021)

14285-14295


127. Photocorrosion of WO3 photoanodes in different electrolytes


J. Knöppel,* A. Kormányos, B. Mayerhöfer, A. Hofer, M. Bierling, J. Bachmann, S. Thiele, S. Cherevko*

ACS Physical Chemistry Au

(2021)

Accepted


126. Tuning anodic and cathodic dissolution of gold by varying the surface roughness


C. Jeyabharathi,* O. Kasian, D. Amuthan, V. Saranyan, K.J.J. Mayrhofer, S. Cherevko,* and F. Scholz

ChemElectroChem

8(8)

(2021)

1524-1530


125. Periodicity in the electrochemical dissolution of transition metals


F.D. Speck*, A. Zagalskaya, V. Alexandrov, S. Cherevko*

Angewandte Chemie International Edition

133(24)

(2021)

13455-13461


124. On the limitations in assessing stability of oxygen evolution catalysts using aqueous model electrochemical cells


J. Knöppel, M. Möckl, D. Escalera-López, K. Stojanovski, M. Bierling, T. Böhm, S. Thiele, M. Rzepka, S. Cherevko

Nature Communications

12

(2021)

2231


123. Electrocatalytic oxidation of 2-propanol on PtxIr100-x bifunctional electrocatalysts - a thin-film materials library study


A. Kormányos,* A. Savan, A. Ludwig, F.D. Speck, K.J.J. Mayrhofer, S. Cherevko*

Journal of Catalysis

396

(2021)

387-394


122. Platinum dissolution in realistic fuel cell catalyst layers


K. Ehelebe∗, J. Knöppel, M. Bierling, B. Mayerhöfer, T. Böhm, N. Kulyk, S. Thiele, K.J.J. Mayrhofer, S. Cherevko∗

Angewandte Chemie International Edition

60(16)

(2021)

8882-8888


121. Structural dynamics of ultrathin cobalt oxide nanoislands under potential control


C. Stumm, M. Bertram, M. Kastenmeier, F.D. Speck, Z. Sun, J. Rodríguez-Fernández, J. V. Lauritsen, K. Mayrhofer, S. Cherevko, O. Brummel*, J. Libuda

Advanced Functional Materials

31(13)

(2021)

2009923



2020


120. The dissolution dilemma for low Pt loading polymer electrolyte membrane fuel cell catalysts


D.J.S. Sandbeck*, N.M. Secher, M. Inaba, J. Quinson, J.E. Sørensen, J. Kibsgaard, A. Zana, F. Bizzotto, F.D. Speck, M.T.Y. Paul, A. Dworzak, C. Dosche, M. Oezaslan, I. Chorkendorff, M. Arenz, S. Cherevko*

Journal of The Electrochemical Society

167

(2020)

164501


119. Different photostability of BiVO4 in near-pH-neutral electrolytes


S. Zhang, I. Ahmet,S.-H. Kim, O. Kasian, A.M. Mingers, P. Schnell, M. Kölbach, J. Lim, A. Fischer, K.J.J. Mayrhofer, S. Cherevko, B. Gault, R. van de Krol*, C. Scheu*

ACS Applied Energy Materials

3(10)

(2020)

9523–9527


118. Anisotropy of Pt nanoparticles on carbon- and oxide-support and their structural response to electrochemical oxidation probed by in situ techniques


H. Schmies, A. Bergmann, E. Hornberger, J. Drnec, G. Wang, F. Dionigi, S. Kühl, D.J.S. Sandbeck, K.J.J. Mayrhofer, V. Ramani, S. Cherevko, P. Strasser*

Physical Chemistry Chemical Physics

22

(2020)

22260-22270


117. Cobalt oxide-supported Pt electrocatalysts: Intimate correlation between particle size, electronic metal-support interaction and stability


M. Bertram, C. Prössl, M. Ronovský, J. Knöppel , P. Matvija, L. Fusek, T. Skála, N. Tsud, M. Kastenmeier, K.C. Prince, V. Matolín, K. Mayrhofer, V. Johánek, J. Mysliveček, S. Cherevko, Y. Lykhach, O. Brummel*, J. Libuda

The Journal of Physical Chemistry Letters

11

(2020)

8365-8371


116. High performance FeNC and Mn-oxide/FeNC layers for AEMFC cathodes


P.G. Santori, F.D. Speck, S. Cherevko, H.A. Firouzjaie, X. Peng, W.E. Mustain*, F. Jaouen*

Journal of The Electrochemical Society

167

(2020)

134505


115. Improved hydrogen oxidation reaction activity and stability of buried metal-oxide electrocatalyst interfaces


F.D. Speck*, F.S.M. Ali, M.T.Y. Paul, R.K. Singh, T. Böhm, A. Hofer, O. Kasian, S. Thiele, J. Bachmann, D.R. Dekel, T. Kallio, S. Cherevko*

Chemistry of Materials

32(18)

(2020)

7716-7724


114. Fabrication of a robust PEM water electrolyzer based on non-noble metal cathode catalyst: [Mo3S13]2- clusters anchored to N-doped carbon nanotubes


P.K.R. Holzapfel, M. Bühler, D. Escalera-López, M. Bierling, F.D. Speck, K.J.J. Mayrhofer, S. Cherevko, C. van Pham* and S. Thiele*

Small

16(37)

(2020)

2003161


113. Influence of fuels and pH on the dissolution stability of bifunctional PtRu/C alloy electrocatalysts


A. Kormanyos*, F.D. Speck, K.J.J. Mayrhofer, S. Cherevko*

ACS Catalysis

10

(2020)

10858-10870


112. Atomistic insights into the stability of Pt single atom electrocatalysts


F.D. Speck, M.T.Y. Paul*, F. Ruiz-Zepeda, M. Gatalo, H. Kim, H.C. Kwon, K.J.J. Mayrhofer, M. Choi, C.H. Choi, N. Hodnik, S. Cherevko*

Journal of the American Chemical Society

142(36)

(2020)

15496-15504


111. Structure-dependence of the atomic-scale mechanisms of Pt electrooxidation and dissolution


T. Fuchs, J. Drnec, F. Calle-Vallejo, N. Stubb, D.J.S. Sandbeck, M. Ruge, S. Cherevko, D.A. Harrington, O.M. Magnussen*

Nature Catalysis

3

(2020)

754-761


110. Electrochemical oxidation of isopropanol on bimetallic platinum-ruthenium nanoparticles studied with unique time-resolved product and dissolution analytics


P. Khanipour,* F.D. Speck, I. Mangoufis-Giasin, K.J.J. Mayrhofer, S. Cherevko, I. Katsounaros*

ACS Applied Materials & Interfaces

12(30)

(2020)

33670-33678


109. Fuel cell catalyst layer evaluation using a gas diffusion electrode half-cell: Oxygen reduction reaction on Fe-N-C in alkaline media


K. Ehelebe*, T. Ashraf, S. Hager, D. Seeberger, S. Thiele, S. Cherevko*

Electrochemistry Communications

116

(2020)

106761


108. The particle size effect on platinum dissolution: Practical considerations for fuel cells


D.J.S. Sandbeck*, M. Inaba, J. Quinson, J. Bucher, A. Zana, M. Arenz, S. Cherevko*

ACS Applied Materials & Interfaces

12(23)

(2020)

25718-25727


107. The particle size effect on platinum dissolution: Considerations for accelerated stability testing of fuel cell catalysts


D.J.S. Sandbeck*, N.M. Secher, F.D. Speck, J.E. Sørensen, J. Kibsgaard, I. Chorkendorff, S. Cherevko*

ACS Catalysis

10(11)

(2020)

6281-6290


106. Oxygen evolution reaction on tin oxides supported iridium catalysts: Do we need dopants?


G.C. da Silva,* S.I. Venturini, S. Zhang, M. Löffler, C. Scheu, K.J.J. Mayrhofer, E.A. Ticianelli, S. Cherevko*

ChemElectroChem

7(10)

(2020)

2330-2339


105. Electrochemical copper dissolution: A benchmark for stable CO2 reduction on copper electrocatalysts


F.D. Speck* and S. Cherevko*

Electrochemistry Communications

115

(2020)

106739


104. Evolution of the PtNi bimetallic alloy fuel cell catalyst under simulated operational conditions


I. Khalakhan,* M. Bogar, M. Vorokhta, P. Kúš, Y. Yakovlev, M. Dopita, D.J.S. Sandbeck, S. Cherevko, I. Matolínová, H. Amenitsch*

ACS Applied Materials & Interfaces

12(15)

(2020)

17602-17610


103. IrO2 coated TiO2 core-shell microparticles advance performance of low loading proton exchange membrane water electrolyzers


C.V. Pham,* M. Bühler, J. Knöppel, M. Bierling, D. Seeberger, D. Escalera-López, K.J.J. Mayrhofer, S. Cherevko, S. Thiele*

Applied Catalysis B: Environmental

269

(2020)

118762


102. Insight into the mechanisms of high activity and stability of iridium supported on antimony-doped tin oxide aerogel for anodes of proton exchange membrane water electrolysers


V.A. Saveleva,* L. Wang, O. Kasian, M. Batuk, J. Hadermann, J.-J. Gallet, F. Bournel, N. Alonso-Vante, G. Ozouf, C. Beauger, K.J.J. Mayrhofer, S. Cherevko, A.S. Gago, K.A. Friedrich, S. Zafeiratos and E.R. Savinova

ACS Catalysis

10

(2020)

2508-2516


101. Visualizing potential-induced pitting corrosion of ultrathin single-crystalline IrO2(110) films on RuO2(110)/Ru(0001) under electrochemical water splitting conditions


T. Weber, T. Ortmann, D. Escalera-López, M.J.S. Abba, B. Mogwitz, S. Cherevko, M. Rohnke, H. Over*

ChemCatChem

12(3)

(2020)

855-866


100. Compositionally tuned magnetron co-sputtered PtxNi100-x alloy as a cathode catalyst for proton exchange membrane fuel cells


I. Khalakhan,* L. Supik, M. Vorokhta, Y. Yakovlev, M. Dopita, D.J.S. Sandbeck, S. Cherevko, K. Veltruská, I. Matolínová

Applied Surface Science

511

(2020)

145486



2019


99. Degradation of iridium oxides via oxygen evolution from the lattice: correlating atomic scale structure with reaction mechanisms


O. Kasian,* S. Geiger, T. Li, J.-P. Grote, K. Schweinar, S. Zhang, C. Scheu, D. Raabe, S. Cherevko, B. Gault* and K.J.J. Mayrhofer*

Energy & Environmental Science

12

(2019)

3548-3555


98. On the time resolution of electrochemical scanning flow cell coupled to downstream analysis


V. Shkirskiy,* F.D. Speck, N. Kulyk, S. Cherevko*

Journal of The Electrochemical Society

166(16)

(2019)

H866-H870


97. Dissolution of platinum single crystals in acidic medium. Invited. Special Issue: Electrocatalysis.


D.J.S. Sandbeck,* O. Brummel, K.J.J. Mayrhofer, J. Libuda, I. Katsounaros, S. Cherevko*

ChemPhysChem

20(22)

(2019)

2997-3003


96. Evaluating electrocatalysts at relevant currents in a half-cell: The impact of Pt loading on oxygen reduction reaction


K. Ehelebe,* D. Seeberger, M.T.Y. Paul, S. Thiele, K.J.J. Mayrhofer, S. Cherevko*

Journal of The Electrochemical Society

166(16)

(2019)

F1259-F1268


95. Electrochemical on-line ICP-MS in electrocatalysis research


O. Kasian, S. Geiger, K.J.J. Mayrhofer, S. Cherevko*

The Chemical Record

19(10)

(2019)

2130-2142


94. Mechanisms of manganese oxide electrocatalysts degradation during oxygen reduction and oxygen evolution reactions


F.D. Speck,* P.G. Santori, F. Jaouen, S. Cherevko*

The Journal Of Physical Chemistry C

123(41)

(2019)

25267-25277


93. Dissolution of BiVO4 photoanodes revealed by time-resolved measurements under photoelectrochemical conditions


S. Zhang,* M. Rohloff, O. Kasian, A.M. Mingers, K.J.J. Mayrhofer, A. Fischer, C. Scheu, S. Cherevko*

The Journal Of Physical Chemistry C

123(38)

(2019)

23410-23418


92. The effect of ionic liquid modification on the ORR performance and degradation mechanism of trimetallic PtNiMo/C catalysts


M. George, G.-R. Zhang,* N. Schmitt, K. Brunnengräber, D.J.S. Sandbeck, K.J.J. Mayrhofer, S. Cherevko, and B.J.M. Etzold*

ACS Catalysis

9

(2019)

8682-8692


91. Selectivity trends between oxygen evolution and chlorine evolution on iridium-based double perovskites in acidic media


J.G. Vos, Z. Liu, F.D. Speck, N. Perini, W. Fu, S. Cherevko, M.T.M. Koper*

ACS Catalysis

9

(2019)

8561-8574


90. Towards maximized utilization of iridium for the acidic oxygen evolution reaction


M. Ledendecker,* S. Geiger, K. Hengge, J. Lima, S. Cherevko, A.M. Mingers, D. Göhl, G.V. Fortunato, D. Jalalpoor, F. Schüth, C. Scheu, K.J.J. Mayrhofer*

Nano Research

12(9)

(2019)

2275-2280


89. Stability limits of Ni-based hydrogen oxidation electrocatalysts for anion exchange membrane fuel cells


E.S. Davydova,* F.D. Speck, M.T.Y. Paul, D.R. Dekel,* S. Cherevko*

ACS Catalysis

9

(2019)

6837-6845


88. Spot the difference at the nanoscale: Identical location electron microscopy in electrocatalysis


N. Hodnik* and S. Cherevko*

Current Opinion in Electrochemistry

15

(2019)

73-82


87. Effect of pyrolysis atmosphere and electrolyte pH on the oxygen reduction activity, stability and spectroscopic signature of FeNx moieties in Fe-N-C catalysts


P.G. Santori, F.D. Speck, J.Li, A.Zitolo, Q.Jia, S. Mukerjee, S. Cherevko,* and Frédéric Jaouen*

Journal of the Electrochemical Society

166(7)

(2019)

F3311-F3320


86. The degradation of Pt/IrOx oxygen bifunctional catalysts


G.C. da Silva,* K.J.J. Mayrhofer, E.A. Ticianelli, S. Cherevko*

Electrochimica Acta

308(10)

(2019)

400-409



2018


85. Dissolution stability: the major challenge in the regenerative fuel cells bifunctional catalysis


G.C. da Silva,* K.J.J. Mayrhofer, E.A. Ticianelli, S. Cherevko*

Journal of The Electrochemical Society

165(16)

(2018)

F1376-F1384


84. Time-resolved analysis of dissolution phenomena in photoelectrochemistry - A case study of WO3 photocorrosion


J. Knöppel,* S. Zhang, F.D. Speck, K.J.J. Mayrhofer, C. Scheu, S. Cherevko*

Electrochemistry Communications

96

(2018)

53-56


83. In situ stability studies of platinum nanoparticles supported on mixed ruthenium and titanium oxides (RTO) for fuel cell cathodes


E. Hornberger, A. Bergmann, H. Schmies, S. Kühl, G. Wang, J. Drnec, D.J.S. Sandbeck, V. Ramani, S. Cherevko, K.J.J. Mayrhofer, P. Strasser*

ACS Catalysis

8

(2018)

9675-9683


82. Tuning the electrocatalytic performance of ionic liquid modified Pt catalysts for oxygen reduction reaction via cationic chain engineering


G.-R. Zhang, T. Wolker, D.J.S. Sandbeck, M. Munoz, K.J.J. Mayrhofer, S. Cherevko, and B.J.M. Etzold*

ACS Catalysis

8

(2018)

8244-8254


81. Stability and dissolution of electrocatalysts: Building the bridge between model and "real world" systems


S. Cherevko*

Current Opinion in Electrochemistry

8

(2018)

118-125


80. The impact of palladium loading and interparticle distance on the selectivity for the oxygen reduction reaction towards hydrogen peroxide


G.V. Fortunato, E. Pizzutilo, A.M. Mingers, O. Kasian, S. Cherevko, E.S.F. Cardoso, K.J.J. Mayrhofer, G. Maiaa, M. Ledendecker*

Journal of Physical Chemistry C

122(28)

(2018)

15878-15885


79. The Stability-number as a metric for electrocatalyst stability benchmarking


S. Geiger,* O. Kasian, M. Ledendecker, E. Pizzutilo, A. Mingers, W.T. Fu, O. Diaz-Morales, Z. Li, T. Oellers, L. Fruchter, A. Ludwig, K.J.J Mayrhofer, M. Koper, and S. Cherevko*

Nature Catalysis

1

(2018)

508-515


78. Electrifying model catalysts for understanding electrocatalytic reactions in liquid electrolytes


F. Faisal, C. Stumm, M. Bertram, F. Waidhas, Y. Lykhach, S. Cherevko, F. Xiang, M. Ammon, M. Vorokhta, B. Šmíd, T. Skala, N. Tsud, A. Neitzel, K. Beranova, K. Prince, S. Geiger, O. Kasian, T. Wähler, R. Schuster, M. Schneider, V. Matolin, K.J.J Mayrhofer,

Nature Materials

17

(2018)

592-598


77. Atomically-defined Co3O4(111) thin films prepared in ultrahigh vacuum: stability under electrochemical conditions


F. Faisal, M. Bertram, C. Stumm, S. Cherevko, S. Geiger, O. Kasian, Y. Lykhach, O. Lytken, K.J.J. Mayrhofer, O. Brummel,* J. Libuda

Journal of Physical Chemistry C

122(13)

(2018)

7236-7248


76. Atomic-scale insights into surface species of electrocatalysts in three dimensions


T. Li, O. Kasian, S. Cherevko, S. Zhang, S. Geiger, C. Scheu, P. Felfer, D. Raabe, B. Gault,* K.J.J. Mayrhofer*

Nature Catalysis

1(4)

(2018)

300-305


75. Electrochemical stability of hexagonal tungsten carbide in the potential window of fuel cells and water electrolyzers


D. Göhl, S. Geiger, M. Schalenbach, S. Cherevko, J. Knossalla, D. Jalalpoor, F. Schüth, K.J. J. Mayrhofer, M. Ledendecker*

Electrochimica Acta

270

(2018)

70-76


74. The common intermediates of oxygen evolution and dissolution reactions during water electrolysis on iridium


O. Kasian,* J.-P. Grote, S. Geiger, S. Cherevko, K.J.J. Mayrhofer*

Angewandte Chemie

57(9)

(2018)

2488–2491


73. The electrochemical dissolution of noble metals in alkaline media


M. Schalenbach,* O. Kasian, M. Ledendecker, F.D. Speck, A. Mingers, K.J.J. Mayrhofer, S. Cherevko*

Electrocatalysis

9

(2018)

153-161


72. Using instability of a non-stoichiometric mixed oxide oxygen evolution catalyst as a tool to improve its electrocatalytic performance


O. Kasian,* S. Geiger, M. Schalenbach, A. Mingers, A. Savan, A. Ludwig, S. Cherevko, K.J.J. Mayrhofer*

Electrocatalysis

9

(2018)

139-145


71. A perspective on low-temperature water electrolysis: challenges in alkaline and acidic technology revised


M. Schalenbach,* A.R. Zeradjanin, O. Kasian, S. Cherevko, K.J.J. Mayrhofer*

Int. J. Electrochem. Sci.

13

(2018)

1173-1226


70. Nickel-molybdenum alloy catalysts for the hydrogen evolution reaction: Activity and stability revised


M. Schalenbach,* F.D. Speck, M. Ledendecker, O. Kasian, D. Goehl, A. Mingers, B. Breitbachd, H. Springer, S. Cherevko, K.J.J. Mayrhofer*

Electrochimica Acta

259

(2018)

1154-1161


69. Unravelling degradation pathways of oxide-supported Pt fuel cell nanocatalysts under in situ operating conditions


H. Schmies, A. Bergmann, J. Drnec, G. Wang, D. Teschner, S. Kühl, D. Sandbeck, S. Cherevko, M. Gocyla, M. Shviro, M. Heggen, V. Ramani, R. Dunin-Borkowski, K.J.J. Mayrhofer, P. Strasser*

Advanced Energy Materials

8(4)

(2018)

1701663(1-13)



2017


68. Catalyst stability benchmarking for the oxygen evolution reaction: the importance of backing electrode material and dissolution in accelerated aging studies


S. Geiger,* O.Kasian, A. Mingers, S.S. Nicley, K. Haenen, K.J.J. Mayrhofer, S. Cherevko*

ChemSusChem

10

(2017)

4140 - 4143


67. Gold-palladium bimetallic catalyst stability: consequences for hydrogen peroxide selectivity


E. Pizzutilo,* S. J. Freakley, S. Cherevko, S. Venkatesan, G.J. Hutchings, C. Liebscher, G. Dehm, K.J.J. Mayrhofer*

ACS Catalysis

7

(2017)

5699-5705


66. The space confinement approach as a tool to unveil activity and stability of Pt-Co@HGS nanocatalyst for PEMFC


E. Pizzutilo,* J. Knossalla, S. Geiger, J.P. Grote, G. Polymeros, S. Mezzavilla, M. Ledendecker, A. Mingers, S. Cherevko, F. Schüth, K.J.J. Mayrhofer*

Advanced Energy Materials

1700835

(2017)

43840


65. Stability and activity of non-noble based catalysts toward the hydrogen evolution reaction - feasible electrocatalysts in acidic medium?


M. Ledendecker,* J.S. Mondschein, O. Kasian, S. Geiger, D. Göhl, M. Schalenbach, A. Zeradjanin, S. Cherevko, R.E. Schaak, K.J.J. Mayrhofer*

Angewandte Chemie

56(33)

(2017)

9767-9771


64. Stability limits of tin-based electrocatalyst supports


S. Geiger,* O.Kasian, A. Mingers, K.J.J. Mayrhofer, S. Cherevko*

Scientific Reports

7

(2017)

4595


63. Electrocatalytic synthesis of hydrogen peroxide on Au-Pd nanoparticles: from fundamentals to continuous production - extitInvited


E. Pizzutilo,* O. Kasian, C.H. Choi, S. Cherevko, G.J. Hutchings, K.J.J. Mayrhofer, S.J. Freakley*

Chemical Physics Letters

683

(2017)

436-442


62. Addressing stability challenges of using bimetallic electrocatalysts: the case of gold-palladium nanoalloys


E. Pizzutilo,* S.J. Freakley, S. Geiger, C. Baldizzone, A. Mingers, G.J. Hutchings, K.J.J. Mayrhofer, S. Cherevko*

Catalysis Science & Technology

7

(2017)

1848-1856


61. Palladium electrodissolution from model surfaces and nanoparticles


E. Pizzutilo,* S. Geiger, S.J. Freakley, A. Mingers, S. Cherevko, G.J. Hutchings, K.J.J. Mayrhofer*

Electrochimica Acta

229

(2017)

467-477


60. Highly active nanostructured palladium-ceria electrocatalysts for the hydrogen oxidation reaction in alkaline medium


H.A. Miller,* F.Vizza,* M.Marelli, A.Zadick, L.Dubau, M.Chatenet, S.Geiger, S. Cherevko, H.Doan, R.K. Pavlicek, S.Mukerjee, D.R. Dekel*

Nano Energy

33

(2017)

293-305


59. Electrochemical dissolution of noble metals native oxides


S. Cherevko*

Journal of Electroanalytical Chemistry

787

(2017)

11–13



2016


58. Electrochemical dissolution of gold in presence of chloride and bromide traces studied by on-line electrochemical inductively coupled plasma mass spectrometry


O. Kasian,* N. Kulyk, A. Mingers, A. Zeradjanin, K.J.J. Mayrhofer, S. Cherevko*

Electrochimica Acta

222

(2016)

1056-1063


57. Durability of platinum-based fuel cell electrocatalysts: Dissolution of bulk and nanoscale platinum


S. Cherevko*, N. Kulyk, K.J.J. Mayrhofer*

Nano Energy

26

(2016)

275-298


56. On the need of improved accelerated degradation protocols (ADPs): examination of platinum dissolution and carbon corrosion in half-cell tests


E. Pizzutilo,* S. Geiger, J.-P. Grote, A. Mingers, K.J.J. Mayrhofer, M. Arenz, S. Cherevko*

Journal of The Electrochemical Society

163(14)

(2016)

F1510-F1514


55. Platinum recycling going green via induced surface potential alteration enabling fast and efficient dissolution


N. Hodnik,* C. Baldizzone, G. Polymeros, S. Geiger, J-P. Grote, S. Cherevko, A. Mingers, A. Zeradjanin, K.J.J. Mayrhofer*

Nature Communications

7

(2016)

13164


54. Activity and stability of electrochemically and thermally treated iridium for the oxygen evolution reaction


S. Geiger,* O.Kasian, B.R. Shrestha, A. Mingers, K.J.J. Mayrhofer, S. Cherevko*

Journal of The Electrochemical Society

163(11)

(2016)

F3132-F3138


53. On the origin of the improved ruthenium stability in RuO2-IrO2 mixed oxides


O.Kasian,* S. Geiger, P. Stock, G. Polymeros, B. Breitbach, A. Savan, A. Ludwig, S. Cherevko, and K.J.J. Mayrhofer*

Journal of The Electrochemical Society

163(11)

(2016)

F3099-F3104


52. High temperature stability study of carbon supported high surface area catalysts – Expanding the boundaries of ex-situ diagnostics


G. Polymeros,* C. Baldizzone, S. Geiger, J-P Grote, S. Mezzavilla, G. P. Keeley, S. Cherevko, A.R. Zeradjanin, F. Schüth, K.J.J. Mayrhofer*

Electrochimica Acta

211

(2016)

744-753


51. Experimental methodologies to understand the degradation of nanostructured electrocatalysts for PEM fuel cells: advances and opportunities


S. Mezzavilla,* S. Cherevko, C. Baldizzone, E. Pizzutilo, G. Polymeros, K.J.J. Mayrhofer*

ChemElectroChem

3(10)

(2016)

1524-1536


50. Oxygen evolution activity and stability of iridium in acidic media. Part 2. Electrochemically Grown Hydrous Iridium Oxide


S. Cherevko*, S. Geiger, O. Kasian, A. Mingers, K.J.J. Mayrhofer*

Journal of Electroanalytical Chemistry

774

(2016)

102-110


49. Oxygen evolution activity and stability of iridium in acidic media. Part 1. Metallic iridium


S. Cherevko*, S. Geiger, O. Kasian, A. Mingers, K.J.J. Mayrhofer*

Journal of Electroanalytical Chemistry

773

(2016)

69-78


48. Screening of material libraries for electrochemical CO2 reduction catalysts - Improving selectivity of Cu by mixing with Co


J.P. Grote,* A.R. Zeradjanin, S. Cherevko, A. Savan, B. Breitbach, A. Ludwig, K.J.J. Mayrhofer*

Journal of Catalysis

343

(2016)

248-256


47. The stability challenge on the pathway to low and ultra-low platinum loading for oxygen reduction in fuel cells


G.P. Keeley,* S. Cherevko, K.J.J. Mayrhofer*

ChemElectroChem

3(1)

(2016)

51-54


46. Pt sub-monolayer on Au: System stability and insights into platinum electrochemical dissolution


S. Cherevko*, G.P. Keeley, N. Kulyk, K.J.J. Mayrhofer*

Journal of The Electrochemical Society

163(3)

(2016)

H228-H233


45. Oxygen and hydrogen evolution reactions on Ru, RuO2, Ir, and IrO2 thin film electrodes in acidic and alkaline electrolytes: A comparative study on activity and stability


S. Cherevko*, S. Geiger, O. Kasian, N. Kulyk, J.P. Grote, A. Savan, B.R. Shrestha, S. Merzlikin, B. Breitbach, A. Ludwig, K.J.J. Mayrhofer*

Catalysis Today

262

(2016)

170-180



2015


44. MAXNET Energy: Focusing Research in Chemical Energy Conversion on the Electrocatlytic Oxygen Evolution


A.A. Auer,* S. Cap, M. Antonietti, S. Cherevko, et al.,

Green

5(1-6)

(2015)

44033


43. Molecular insight in structure and activity of highly efficient, low-Ir Ir-Ni oxide catalysts for electrochemical water splitting


T. Reier, Z. Pawolek, S. Cherevko, M. Bruns, T. Jones, D. Teschner, S. Selve, A. Bergmann, H.N. Nong, K.J.J. Mayrhofer, P. Strasser*

Journal of the American Chemical Society

137

(2015)

13031-13040


42. Numerical simulation of an electrochemical flow cell with V-shape channel geometry


N. Kulyk,* S. Cherevko, M. Auinger, C. Laska, K.J.J. Mayrhofer*

Journal of The Electrochemical Society

162(12)

(2015)

H860-H866


41. Dissolution of platinum in the operational range of fuel cells


S. Cherevko*, G.P. Keeley, S. Geiger, A.R. Zeradjanin, N. Hodnik, N. Kulyk, K.J.J. Mayrhofer*

ChemElectroChem

2

(2015)

1471-1478


40. The effect of the voltage scan rate on the oxygen reduction activity


N. Hodnik,* C. Baldizzone, S. Cherevko, A.R. Zeradjanin, K.J.J. Mayrhofer*

Electrocatalysis

6

(2015)

237-241


39. Dissolution of platinum in presence of chloride traces


S. Geiger,* S. Cherevko, K.J.J. Mayrhofer*

Electrochimica Acta

179

(2015)

24-31



2014


38. Coupling of a scanning flow cell with online electrochemical mass spectrometry for screening of reaction selectivity


J-P. Grote,* A.R. Zeradjanin, S. Cherevko, K.J.J. Mayrhofer*

Review of Scientific Instruments

85

(2014)

104101-1-10401-5


37. A comparative study on gold and platinum dissolution in acidic and alkaline media


S. Cherevko*, A.R. Zeradjanin, G.P. Keeley, K.J.J. Mayrhofer*

Journal of The Electrochemical Society

161(12)

(2014)

H822-H830


36. Stability of nanostructured iridium oxide electrocatalysts during oxygen evolution reaction in acidic environment


S. Cherevko*, T. Reier, A.R. Zeradjanin, Z. Pawolek, P. Strasser, K.J.J. Mayrhofer*

Electrochemistry Communications

48

(2014)

81-85


35. Sustainable generation of hydrogen using chemicals with regional oversupply - feasibility of the electrolysis in acido-alkaline reactor


A.R. Zeradjanin,* A.A. Topalov, S. Cherevko, G.P. Keeley

International Journal of Hydrogen Energy

39(29)

(2014)

16275–16281


34. Hierarchical nanoporous films obtained by surface cracking on Cu-Au and ethanethiol on Au(001)


G.N. Ankah, A. Pareek, S. Cherevko, J. Zegenhagen, F.U. Renner*

Electrochimica Acta

140

(2014)

352-358


33. Effect of temperature on gold dissolution in acidic media


S. Cherevko*, A.R. Zeradjanin, A.A. Topalov, G.P. Keeley, K.J.J. Mayrhofer*

Journal of The Electrochemical Society

161(9)

(2014)

H501-H507


32. Dissolution of noble metals during oxygen evolution in acidic media


S. Cherevko*, A.R. Zeradjanin, A.A. Topalov, N. Kulyk, I. Katsounaros, K.J.J. Mayrhofer*

ChemCatChem

6

(2014)

2219-2223


31. Temperature-dependent dissolution of polycrystalline platinum in sulfuric acid electrolyte


S. Cherevko*, A.A. Topalov, A.R. Zeradjanin, G.P. Keeley, K.J.J. Mayrhofer*

Electrocatalysis

5(3)

(2014)

235-240


30. Rational design of the electrode morphology for oxygen evolution - enhancing the performance for catalytic water oxidation


A.R. Zeradjanin,* A.A. Topalov, Q. Van Overmeere, S. Cherevko, X.X. Chen, E. Ventosa, W. Schuhmann, K.J.J. Mayrhofer*

RSC Advances

4

(2014)

9579-9587


29. The impact of dissolved reactive gases on platinum dissolution in acidic media


A.A. Topalov,* A.R. Zeradjanin, S. Cherevko, K.J.J. Mayrhofer*

Electrochemistry Communications

40

(2014)

49-53


28. Towards a comprehensive understanding of platinum dissolution in acidic media


A.A. Topalov,* S. Cherevko, A.R. Zeradjanin, J.C. Meier, I. Katsounarosa, K.J.J. Mayrhofer*

Chemical Science

5

(2014)

631-638


27. Oxygen electrochemistry as a cornerstone for sustainable energy conversion


I. Katsounaros,* S. Cherevko, A.R. Zeradjanin, K.J.J. Mayrhofer*

Angewandte Chemie International Edition

53(1)

(2014)

102-121



2013


26. Gold dissolution: towards understanding of noble metal corrosion


S. Cherevko*, A.A. Topalov, A.R. Zeradjanin, I. Katsounaros, K.J.J. Mayrhofer*

RSC Advances

3

(2013)

16516-16527


25. Facile preparation of three-dimensional porous hydrous ruthenium oxide electrode for supercapacitors


M.-G. Jeong, K. Zhuo, S. Cherevko, W.-J. Kim, C.-H. Chung*

Journal of Power Sources

244

(2013)

806-811


24. Effect of thiol self-assembled monolayers and plasma-polymer films on dealloying


A. Pareek, G. N. Ankah, S. Cherevko, P. Ebbinghaus, K. J.J. Mayrhofer, A. Erbe, F. U. Renner*

RSC Advances

3

(2013)

6586-6595


23. Electrochemical dissolution of gold in acidic medium


S. Cherevko*, A.A. Topalov, I. Katsounaros, K.J.J. Mayrhofer*

Electrochemistry Communications

28

(2013)

44-46



2012


22. Dissolution of platinum - limits for the deployment of electrochemical energy conversion?


A.A. Topalov,* I. Katsounaros, M. Auinger, S. Cherevko, J.C. Meier, S.O. Klemm, K.J.J. Mayrhofer*

Angewandte Chemie International Edition

51

(2012)

12613-12615


21. Formation of nanoporous nickel oxides for supercapacitors prepared by electrodeposition with hydrogen evolution reaction and electrochemical dealloying


M.-G. Jeong, K. Zhuo, S. Cherevko, and C.-H. Chung*

Korean Journal of Chemical Engineering

29(12)

(2012)

1802-1805


20. The influence of halides on the initial selective dissolution of Cu3Au (1 1 1)


G.N. Ankah, A. Pareek, S. Cherevko, A.A. Topalov, M. Rohwerder, F.U. Renner*

Electrochimica Acta

85

(2012)

384-392


19. alpha-MoO3 nanowire-based amperometric biosensor for L-lactate detection


I. Shakir, M. Shahid, H.W. Yang, S. Cherevko, C.-H. Chung and D.J. Kang*

Journal of Solid State Electrochemistry

16(6)

(2012)

2197-2201





15. Nanoporous palladium with sub-10 nm dendrites by electrodeposition for ethanol and ethylene glycol oxidation


S. Cherevko*, N. Kulyk, and C.-H. Chung*

Nanoscale

4(1)

(2012)

103-105


14. Copper electroless plating in weekly-alkaline electrolytes using DMAB as a reduction agent for metallisation of PET films


N. Kulyk, S. Cherevko, and C.-H. Chung*

Electrochimica Acta

59

(2012)

179-185



2011


13. Ultrahigh-energy and stable supercapacitors based on intertwined porous MoO3 - MWCNT nanocomposites


I. Shakir, M. Shahid, S. Cherevko, C.-H. Chung, D. J. Kang*

Electrochimica Acta

58

(2011)

76-80


12. Pt and Pd decorated Au nanowires: Extremely high activity of ethanol oxidation in alkaline media


S. Cherevko*, X. Xing, and C.-H. Chung*

Electrochimica Acta

56

(2011)

5771-5775


11. Hydrogen template assisted electrodeposition of sub-micrometer wires composing honeycomb-like porous Pb films


S. Cherevko*, X. Xing, and C.-H. Chung*

Applied Surface Science

257

(2011)

8054-8061


10. Porous Pd films as effective ethanol oxidation electrocatalysts in alkaline medium


X. Xing, S. Cherevko, and C.-H. Chung,

Materials Chemistry and Physics

126

(2011)

36-40


9. Direct electrodeposition of nanoporous gold with controlled multimodal pore size distribution


S. Cherevko, and C.-H. Chung,

Electrochemistry Communications

13

(2011)

16-19



2010


8. Impact of key deposition parameters on the morphology of silver foams prepared by dynamic hydrogen template deposition


S. Cherevko, and C.-H. Chung*

Electrochimica Acta

55(22)

(2010)

6383-6390


7. Electrodeposition of three-dimensional porous silver foams


S. Cherevko, X. Xing, and C.-H. Chung*

Electrochemistry Communications

12(3)

(2010)

467-470




2009


5. Gold nanowire array electrode for non-enzymatic voltammetric and amperometric glucose detection


S. Cherevko, and C.-H. Chung*

Sensors and Actuators B: Chemical

142

(2009)

216-223


4. Characterization of FePt film electrodeposited with a ferric electrolyte


S. Cherevko, J. Fu, K.Y. Song, C.-H. Chung*

Korean Journal of Chemical Engineering

26(6)

(2009)

1766-1769


3. Hydrogen sensing performance of electrodeposited conoidal palladium nanowire and nanotube arrays


S. Cherevko, N. Kulyk, J. Fu, and C.-H. Chung*

Sensors and Actuators B: Chemical

136

(2009)

388-391


2. Electrodeposition mechanism of palladium nanotube and nanowire arrays


S. Cherevko, J. Fu, N. Kulyk, S.M. Cho, S. Haam, and C.-H. Chung*

Journal of Nanoscience and Nanotechnololy

9

(2009)

3154-3159



2008


1. Electroplating of metal nanotubes and nanowires in a high aspect-ratio nanotemplate


J. Fu, S. Cherevko, and C.-H. Chung*

Electrochemistry Communications

10

(2008)

514-518