Overview publications (update December 2023)

Statistics (from Scopus, 23 Dec 2023):

·       225 articles in peer reviewed journals, cited 14087 times (average 63 times/article)

·       h-index=62,  6% self-citations

·       For 50% of the 20 most cited papers I am first or last author, 

·       There is a slight deviation in the number of papers below and in Scopus; Scopus 

includes some conference abstracts as papers, they are not included in the list below.

 

List of publications Petra de Jongh (totaal 225) – 15 in 2023

215. Influence of Ag particle size and Ag: Al₂O₃ surface ratio in catalysts for the chloride-promoted ethylene epoxidation, C.J. Keijzer, L.C.J. Smulders, D. Wezendonk, J.W. de Rijk, P.E. de Jongh, Catal. Today 428 (2024) 114447.

214. Oxide-derived Silver Nanowires for CO₂ Electrocatalytic Reduction to CO, F. Mattarozzi, N. van der Willige, V. Gulino, C. Keijzer, R.C.J. van de Poll, E.J.M. Hensen,  P. Ngene, P.E. de Jongh, ChemCatChem 15 (2023), 202300792.

213. Influence of particle size in Pd-catalysed selective hydrogenation of 1,3-butadiene, O.E. Brandt Corstius, J.E.S. van der Hoeven, G.J. Sunley, P.E. de Jongh, J. Catal. 427 (2023), 115103.

212. Alkylamine-Functionalized Carbon Supports to Enhance the Silver Nanoparticles Electrocatalytic Reduction of CO₂ to CO, F. Mattarozzi, K. van den Akker, M.L.J. Peerlings, M.E.T. Vink-van Ittersum, N.L. Visser, R.C.J. van de Poll, E.J.M. Hensen, P. Ngene, P.E. de Jongh, ChemElectroChem 10 (2023), e202300295.

211. Surface-Modified Carbon Materials for CO₂ Electroreduction, F. Mattarozzi, M.T. Rosales, R.C.J. van de Poll, E.J.M. Hensen, P. Ngene, P.E. de Jongh, Eur. J. Inorg. Chem. 26 (2023), e202300152.

210. Carbon Nanofiber Growth Rates on NiCu Catalysts: Quantitative Coupling of Macroscopic and Nanoscale In Situ Studies, T.A.J. Welling, S.E. Schoemaker, K.P. de Jong, P.E. de Jongh, J. Phys. Chem. C, 12 (2023), 15766, 

209. Direct Observation of Ni Nanoparticle Growth in Carbon-Supported Nickel under Carbon Dioxide Hydrogenation Atmosphere, N.L.  Visser, S.J. Turner, J.A. Stewart, B.D. Vandegehuchte, J.E.S. van der Hoeven, P.E. de Jongh, ACS Nano 17 (2023), 14963.

208. Silver Catalysts Supported on High Surface Area α-Alumina: Effect of Carbohydrate Template Size and Heat Treatment on Phase Purity, C.J. Keijzer, R. Dalebout, J.W. de Rijk, J.R. Lockemeyer, T.L. Lohr, P. van den Brink, P.E. de Jongh, ChemCatChem 15 (2023) e202300513.

207. Carbon nanofiber growth from methane over carbon-supported NiCu catalysts: Two temperature regimes, S.E. Schoemaker, T.A.J. Welling, D.F.L. Wezendonk, B.H. Reesink, A.P. van Bavel, P.E. de Jongh, Catal. Today 418 (2023), 114110.

206. Influence of carbon support surface modification on the performance of nickel catalysts in carbon dioxide hydrogenation, N. L. Visser, J.C. Verschoor, L.C.J. Smulders, F. Mattarozzi, D.J. Morgan, J.D. Meeldijk, J.E.S. van der Hoeven, J.A. Stewart, B.D. Vandegehuchte, P.E. de Jongh, Catal. Today 418 (2023), 114071.

205. Synthesis and Characterization of Supported Mixed MoW Carbide Catalysts, M. Führer, T. van Haasterecht, E.J.J. de Boed, P.E. de Jongh, J.H. Bitter, J. Phys. Chem. C, 127 (2023), 7792.

204. Improving the Cycle Life of Solid-State Batteries by Addition of Oxide Nanoparticles to a Complex Hydride Solid Electrolyte, L. de Kort, P. Ngene, M. Baricco, P.E. de Jongh, V. Gulino. J. Phys, Chem. C 127 (2023), 3988.

203. Steering the Metal Precursor Location in Pd/Zeotype Catalysts and Its Implications for Catalysis, L.C.J. Smulders, J.H. van de Minkelis, J.D. Meeldijk, M. Tang, A. Liutkova, K. Cheng, S.T. Roberts, G.J. Sunley, E.M.J. Hensen, Chemistry 5 (2023) 348.

203. Thermal Polymorphism in CsCB_­11H₁₂. R. Cerný, M. Brighi, H. Wu, W. Zhou, M. Dimitrievska, F. Murgia, V. Gulino, P.E. de Jongh, B.A. Trump, T.J. Udovic, Molecules 28 (2023) 2296.

202. In Situ Transmission Electron Microscopy to Study the Location and Distribution Effect of Pt on the Reduction of Co₃O₄-SiO₂, M. Tang,, P.E.de Jongh, K.P. de Jongh, Small (2023).

201. Hydrogen storage in liquid hydrogen carriers: recent activities and new trends T.H. Ulucan, S.A. Akhade, A. Ambalakatte, … P.E. de Jongh…. P. Ngene, et al., Progress in Energy 5 (2023) 012004.

200. Ligand-Free Silver Nanoparticles for CO₂ Electrocatalytic Reduction to CO, F. Mattarozzi, N. Visser, J.W. de Rijk, P. Ngene, P.E. de Jongh, Eur. J. Inorg. Chem. 29 2022(29),e202200365.

199. Electric Potential of Ions in Electrode Micropores Deduced from Calorimetry, J.E. Vos, D. Inder Maur, H.P. Rodenburg, L. Van Den Hoven, S. Schoemaker, P.E. de Jongh, B.H. Erné, Phys. Rev. Lett. 129 (2022),186001 

198. Particle Size Effects of Carbon Supported Nickel Nanoparticles for High Pressure CO₂ Methanation, N.L. Visser, O. Daoura, P.N. L. Smulders, J.W. de Rijk, J.A. Stewart, B. Vandengehuchte, F. Studt, J.E.S. van der Hoeven, P.E. de Jongh, ChemCatChem, 14 (2022), e202200665.

197. Metallic and complex hydride-based electrochemical storage of energy, F. Cuevas, M.B. Amdisen, M. Baricco, C.E. Buckley, Y.W. Cho, P.E. de Jongh, et al., Prog. Energy 4 (2022), 032001.

196. Hydrogen storage in complex hydrides: past activities and new Trends, E.M. Dematteis, M.B, Amdisen, … P.E. de Jongh, … Prog. Energy 4 (2022), 032009.

195. Cu-Co/ZnAl₂O₄ Catalysts for CO Conversion to Higher Alcohols Synthesized from Co-Precipitated Hydrotalcite Precursors, B. Mockenhaupt, F. Ozcan, R. Dalebout, S. Mangelsen, T. Machowski, P.E. de Jongh, M. Behrens, CHEMIE INGENIEUW TECHNIK 94 (2022), 1784-1797.

194. Particle Size Effects in the Selective Hydrogenation of Alkadienes over Supported Cu Nanoparticles, G. Totarella, J.W. de Rijk, L. Delannoy, P. E. de Jongh, ChemCatChem 14 (2022), e202200348.

193. Competition between reverse water gas shift reaction and methanol synthesis from CO₂: influence of copper particle size, L. Barberis, A.H. Hakimioun, P. N. Plessow, N.L. Visser, J.A. Stewart, B. Vandegehuchte,F. Studt, P. E. de Jongh, Nanoscale 14 (2022), 13551-13560.

192. Manganese Oxide as a Promoter for Copper Catalysts in CO₂ and CO Hydrogenation, R. Dalebout/L Barberis, N.L. Visser, J.E.S. van der Hoeven, A.M.J van der Eerden, J.A. Stewart, F. Meirer, K.P. de Jong, P.E. de Jongh, ChemCatChem 14 (2022) e202200451.

191. Maximizing nobel metal utilization in solid catalyst by control of nanoparticle location, K. Cheng, L.C.J. Smulders, L.I. van der Wal, … P.E. de Jongh, K.P. de Jong, Science, 377 (2022), 204-208, 

190. Silica-Coated Gold Nanorod Supraparticles: A Tunable Platform for Surface Enhanced Raman Spectroscopy, J.E.S. van der Hoeven, H. Gurunarayanan, M. Bransen, …, P.E. de Jongh, A. van Blaaderen, Adv. Funct. Mater. 32 (2022), 2200148

189. Insight into the Nature of the ZnOx Promoter during Methanol Synthesis, R.Dalebout, L. Barberis, G. Totarella, S.J. Turner, C. Lafontaine, F.M. de Groot, X. Carrier, A.M.J. van der Eerden, F. Meirer, P.E. de Jongh, ACS Catal. 12 (2022), 6628-2239

188. Ionic conductivity in complex metal hydride-based nanocomposite, L.M. de Kort, V. Gulino, P.E. de Jongh, P. Ngene, J. Alloys Comp. 7 (2022), 163474

187. Utilization of Silver Silicate for the Formation of Highly Dispersed Silver on Silica Catalysts 

P.H. Keijzer, P.E.de Jongh, K.P. de Jong, ChemCatChem, 14 (2022), e202101702

 

186. Potassium hydride-intercalated graphite as an efficient heterogenous catalyst for ammonia synthesis 

F. Chang, J. Tezsevin, J.W. de Rijk, …, P. Ngene, P.E. de Jongh

Nature Catal. 5 (2022), 222-230.

 

185. Influence of the Support on Propene Oxidation over Gold Catalysts 

E.J. de Boed, B.J. Folmer, M. Tang, B. Donoeva, P.E.de Jongh

Catalysts, 12 (2022), 327.

 

184. Influence of atmosphere, interparticle distance and support on the stability of silver on α-alumina for ethylene epoxidation 

P.H. Keijzer, J.E. van der Reijen, K.P. de Jong, P.E. de Jongh

J. Catal. 405 (2022), 534-544.

 

183. Enhanced Room Temperature Ionic Conductivity of NaCB11H12 via High-Energy Mechanical Milling 

F. Murgia, M. Brighi, L. Piveteau, …. P.E. de Jongh, R. Cerny

ACS App. Mater. Interf. 13 (2021), 61346-61356.

 

182. Room-Temperature Solid-State Lithium-Ion Battery Using a LiBH4−MgO Composite Electrolyte

Valerio Gulino, Matteo Brighi, Fabrizio Murgia, Peter Ngene, Petra de Jongh, Radovan C?erny´, and Marcello Baricco

ACS Appl. Energy Mater. 4 (2021), 1228−1236

 

181. Unlocking synergy in bimetallic catalysts by core-shell design

J.E.S. van der Hoeven, J. Jelic, L.A. Olthof, G. Totarella, R.J.A. van Dijk-Moes, J.-M. Kraft, C. Louis, F. Studt, A. van Blaaderen, P.E. de Jongh

Nature Mater. 20 (2021), 1216-1220.

 

180. Supported silver catalysts prepated via melt infiltration: Synthesis, characterization and performance in selective hydrogenation

P.H. de Keijzer, B. Donoeva, K.P. de Jong, P.E.de Jongh

Catal. Today, 375 (2021), 393-400.

 

179. Steering the Selectivity in Gold-Titanium-Catalyzed Propene Oxidation by Controlling the Surface Acidity 

E.J.J. de Boed, J.W. de Rijk, P.E. de Jongh, B. Donoeva

J. Phys. Chem. C 125 (2021), 16557-16568.

 

178. Conductor-Insulator Interfaces in Solid Electrolytes: A Design Strategy to Enhance Li-Ion Dynamics in Nanoconfined LiBH4/Al2O3

R. Zettl, K. Hogrefe, B. Gadermaier, I. Hanzu, P. Ngene, P.E. de Jongh, H.M.R. Wilkening

J. Phys. Chem. C 125 (2021), 15052-15060.

 

177. Synthesis and Formation Mechanism of Colloidal Janus-Type Cu2-xCuInS2 Heteronanorods via Seeded Injection 

C. Xia, C.H.M. van Oversteeg, V.C.L. Bogaards, T.H.M. Spanjersberg, N.L. Visser, A.C. Berends, J.D. Meeldijk, P.E. de Jongh, C. De Mello Donega

ACS Nano 15 (2021), 9987-999.

 

176. Structural Control over Bimetallic Core-Shell Nanorods for Surface-Enhanced Raman Spectroscopy

J.E.S. van der Hoeven, T.-S. Deng, W. Albrecht, A.O. Yalcin, F.D. Tichelaar, P.E. de Jongh, M.A. van Huis, A. van Blaaderen,

ACS Omega 6 (2021), 7034-7046; https://doi.org/10.1021/acsomega.0c06321

 

175. Supported Cu Nanoparticles as Selective and Stable Catalysts for the Gas Phase Hydrogenation of 1,3-Butadiene in Alkene-Rich Feeds

G. Totarella, R. Beerthuis, N. Masoud, C. Louis, L. Delannoy, P.E. de Jongh 

J. Phys. Chem. C 125 (2021), 366-375. Catal. 388 (2020), 30-37.

 

174. Structure Dependent Product Selectivity for CO2 Electroreduction on ZnO Derived Catalysts

K. Han, P. Ngene, P.E. de Jongh , ChemCatChem 13 (2021), 1998-2004.

 

173. Room-Temperature Solid-State Lithium-Ion Battery Using a LiBH4-MgO Composite Electrolyte

V. Gulino, M. Brighi, F. Murgia, P. Ngene, P.E. de Jongh, R. Cerný, M. Baricco

AC Applied Energy Materials 2 (2021), 1228-1236.

 

172. Copper sulfide derived nanoparticles supported on carbon for the electrochemical reduction of carbon dioxide

C.H.M. van Oversteeg, M. Tapia Rosales, K.H. Helfferich, M. Ghiasi, J.D. Meeldijk, N.J. Firet, P. Ngene, C. de Mello Donega, P.E. de Jongh

Catal. Today 377 (2021), 157-165.

 

171. Conversion of synthesis has to aromatics at medium temperature with a Fischer Tropsch and ZSM-5 dual catalyst bed

J.L. Weber, D. Martínez del Monte, R. Beerthuis, J. Dufour, C. Martos, K.P. de Jong, P.E. de Jongh, Catal. Today (2020).

 

170. Manganese oxide promoter effects in the copper-catalyzed hydrogenation of ethyl acetate

R. Beerthuis, N.L. Visser, J.E.S. van der Hoeven, P. Ngene, J.M.S. Deeley, G.J. Sunley, K.P. de Jong, P.E. de Jongh

J. Catal. 394 (2021), 307-315.

 

169. Interplay between carbon dioxide enrichment and zinc oxide promotion of copper catalysts in methanol synthesis

R. Dalebout, N.L. Visser, C.E.L. Pompe, K.P. de Jong, P.E. de Jongh

J. Catal. 392 (2021), 150-158.

 

168. The effect of nanoscaffold porosity and surface chemistry on the Li-ion conductivity of LiBH4-LiBH2/metal oxide nanocomposites

L.M. de Kort, J. Harmel, P.E. de Jongh, P. Ngene

J. Mat. Chem. A 8 (2020), 20687-20697.

 

167. Bifunctional molybdenum oxide/acid catalysts for hydroisomerization of n-heptane

J. Harmel, T. Roberts, Z. Zhang, G. Sunley, P.E. de Jongh, K.P. de Jong

J. Catal. 390 (2020), 161-169.

 

166. Li-Ion Diffusion in Nanoconfined LiBH4-LiI/Al2O3: From 2D Bulk Transport to 3D Long-Range Interfacial Dynamics

R. Zettl, M. Gombotz, D. Clarkson, S.G. Greenbaum, P. Ngene, P.E.de Jongh, H.M.R. Wilkening, ACS Appl. Mater. Int. 12 (2020), 38570-38583.

 

165. Cobal-Nickel Nanoparticles Supported on Reducible Oxides as Fischer-Tropsch Catalysts

C. Hernández Mejía, J.E.S. van der Hoeven, P.E. de Jongh, K.P. de Jong

ACS Catal. 10 (2020), 7343-7354.

 

164. Enhancing Li-Ion Conductivity in LiBH4-Based Solid Electrolytes by Adding Various Nanosized Oxides

V. Gulino, L. Barberis, P. Ngene, M. Baricco, P.E. de Jongh

ACS Appl. En. Mater. 3 (2020), 4941-4948.

 

163. Particle size effects in copper-catalyzed hydrogenation of ethyl acetate

R. Beerthuis, J.W. de Rijk, J.M.S. Deeley, G.J. Sunley, K.P. de Jongh, P.E. de Jongh

J. Catal. 388 (2020), 30-37.

 

162. Influence of intimacy for metal-mesoporous solid acid catalysts for n-alkanes hydro-conversion

J. Harmel, L.I. van der Wal, J. Zecevic, P.E.de Jongh, K.P. de Jong

Cat. Sc. Techn. 10 (2020), 2111-2119.

161. Supported silver catalysts prepared via melt infiltration: Synthesis, characterization and performance in selective hydrogenation

P.H. Keijzer, B. Donoeva, K.P. de Jong, P.E. de Jongh

Cat. Today (2020), in press

160. Towards atomically precise supported catalysts from monolayer-protected clusters: the critical role of the support

A. Longo, E.J.J. de Boed, N. Mammen, M. van der Linden, K. Honkala, H. Hakkinen, P.E.de Jongh, B. Donoeva

Chem. A – Eur. J. (2020

159. Materials for hydrogen-based energy storage – past, recent progress and future outlook

M. Hirscher, V.A. Yartys, M. Baricco, J. Bellosta von Colbe, D. Blanchard. R.C. Bowman, D.P. Broom, C.E. Buckley, F. Chang, P. Chen, Y.W. Cho, J.-C. Crivello, F. Cuevas, W.I.F. David, P.E. de Jongh, R.V. Denys, M. Dornheim, M. Felderhoff, Y. Filinchuk, G.E. Froudakis, D.M. Grant, E. Mac Gray, B.C. Hauback, T. He, T.D. Humphries, T.R. Jensen, S. Kim, Y. Kojima, M. Latroche, H.-W. Li, M.V. Lototskyy, J.W. Makepeace, K.T. Møller, L. Naheed, P. Ngene, D. Noreus, M.M. Nygård, S.-I. Orimo, M. Paskevicius, L. Pasquini, D.B. Ravnsbæk, M.V. Sofianos, T.J. Udovic, T. Vegge, G.S. Walker, C.J. Webb, C.Weidenthaler, C. Zlotea, J. Alloys Comp. 827 (2020) 153548

https://doi.org/10.1016/j.jallcom.2019.153548

158. Combined effects of anion substitution and nanoconfinement on the ionic conductivity of Li-based complex hydrides

R. Zettl, L. de Kort, M. Gombotz, M.H Wilkening, P.E. de Jongh, P. Ngene

J. Phys. Chem. C (2020)

https://doi.org/10.1021/acs.jpcc.9b10607

157. Effect of proximity and support material on deactivation of bifunctional catalysts for the conversion of synthesis gas to olefins and aromatics

J.L. Weber, N. Krans, J.P. Hofmann, E.J.M. Hensen, J. Zecevic, P.E.de Jongh, K.P. de Jong, Cat. Today 342 (2020), 161-166.

https://doi.org/ https://doi.org/10.1016/j.cattod.2019.02.002

156. Influence of promotion on the growth of anchored colloidal iron oxide nanoparticles during synthesis gas conversion

N.A. Krans, J.L. Weber, W. van den Bosch, J. Zecevic, P.E.deJongh, K.P. de Jong

ACS Catal. (2020), 1913-1922.

https://doi.org/ https://doi.org/10.1021/acscatal.9b04380

155. From qualitative to quantitative understanding of support effects on the selectivity in silver catalyzed ethylene epoxidation

J.E. van der Reijen, W.C. Versluijs, S. Kanungo, M.F. d’Angelo, K.P. de Jong, P.E. de Jongh, Cat Today 338 (2019), 31-39.

https://doi.org/ https://doi.org/10.1016/j.cattod.2019.04.049

154. Effect of Pore Confinement of NaNH2 and KNH2 on Hydrogen Generation from Ammonia

F. Chang, H. Wu, R. van der Pluijm, J. Guo, P. Ngene, P.E. De Jongh

J. Phys. Chem. C 123 (2019), 21487-21496.

https://doi.org/ https://doi.org/10.1002/cctc.201901187

153. Meet the Women of Catalysis

P.E. de Jongh, D.E. Fogg, L.-Z. Wu, S. González, Gallardo

ChemCatChem 11 (2019), 3557-3574.

https://doi.org/ https://doi.org/10.1002/cctc.201901187

152. Stability of mesocellular foam supported copper catalysts for methanol synthesis

C.E. Pompe, D.L. van Uunen, L.I. van der Wal, J.E.S. van der Hoeven, K.P. de Jong, P.E. de Jongh, Cat. Today 334 (2019), 79-89.

https://doi.org/10.1007/s13404-019-00259-9

151. Thermal stability of oxide-supported gold nanoparticles

N. Masoud, T. Partsch, K.P. de Jong, P.E. de Jongh, Gold Bull. 52 (2019), 105-114.

https://doi.org/10.1007/s13404-019-00259-9

150. Reversible ammonia-based and liquid organic hydrogen carriers for high-density hydrogen storage: Recent progress

J.W. Makepeace, T. He, C. Weidenthaler, T.R. Jensen, F. Chang, T. Vegge, P. Ngene, Y. Kojima, P.E.de Jongh, P. Chen, W.I.F. David, Int. J. Hydr. Ener. 44 (2019), 7746-7767. 10.1016/j.ijhydene.2019.01.144;

149. Bridging the Gap: 3D Real-Space Characterization of Colloidal Assemblies via FIB-SEM Tomography

J. van der Hoeven, E. van der Wee, M. de Winter, M. Hermes, Y. Liu, J. Fokkema, M. Bransen, M. van Huis, H.C. Gerritsen, P.E. de Jongh, A. van Blaaderen, Nanoscale 11 (2019), 5304-5316. DOI: 10.1039/C8NR09753D

148. Full-cell hydride-based solid-state Li batteries for energy storage

M. Latroche, D. Blanchard, F. Cuevas, A. El Kharbachi, B.C. Hauback, T.R. Jensen,P.E. de Jongh, S. Kim, N.S. Nazer, P. Ngene, S-I. Orimo, D.B. Ravnsbæk, V.A. Yartys, Int. J. Hydr. Ener. 44 (2019), 7875-7887, 10.1016/j.ijhydene.2018.12.200

https://www.sciencedirect.com/science/article/pii/S0360319918342046?dgcid=coauthor

147. Stability of Mesocellular Foam Supported Copper Catalysts for Methanol Synthesis

C.E.Pompe, D.L.van Uunen, L.I.van der Wal, J.E.S.van der Hoeven, K.P.de Jong, P.E.de Jongh, Cat. Today xx (2019), xx. 10.1016/j.cattod.2019.01.053

146. Effect of proximity and support material on deactivation of bifunctional catalysts for the conversion of synthesis gas to olefins and aromatics

J.L.Weber, N.A.Krans, J.P.Hofmann, E.J.M.Hensen, J.Zecevic, P.E.de Jongh, K.P.de Jong, Cat. Today. xx (2019), doi.org/10.1016/j.cattod.2019.02.002

145. Complex hydrides for energy storage

C. Milanese, T.R. Jensen, B.C. Hauback, C. Pistidda, M. Dornheim, H. Yang, L. Lombardo, A. Zuettel, Y. Filinchuk, P. Ngene, P.E. de Jongh, C.E. Buckley, E.M. Dematteis, M. Baricco, Int. J. Hydr. Ener. 44 (2019), 7860-7874. 10.1016/j.ijhydene.2018.11.208

https://authors.elsevier.com/c/1YjDA1HxM4lFAM

144. Magnesium based materials for hydrogen based energy storage: Past, present and future

V.A.Yartys, M.V.Lototskyy, E.Akiba, R.Albert, V.E.Antonov, J.R.Ares, M.Baricco, N.Bourgeois, C.E.Buckley, J.M.Bellosta von Colbe, J.-C.Crivello, F.Cuevas, R.V.Denys, M.Dornheim, M.Felderhoff, D.M.Grant, B.C.Hauback, T.D.Humphries, …M. Zhu

Int. J. Hydr. Ener. 44 (2019), 7809-7859. https://doi.org/10.1016/j.ijhydene.2018.12.212

143. Water-dispersible Copper Sulfide Nanocrystals via Ligand Exchange of 1-dodecanethiol

C. van Oversteeg, F. Oropeza, J.P. Hofmann, E. Hensen, P.E. de Jongh, C.M. de Mello-Donega, Chem. Mater. 31 (2019), 541-552. 10.1021/acs.chemmater.8b04614

142. Phase behaviour and Ion dynamics of nanoconfined LiBH4 in silica

S. Lambregts, E.R.H. van Eck, Suwarno, P. Ngene, P.E. de Jongh, A.P.M. Kentgens

J. Phys. Chem. C 123 (2019), 25559-25569.

141. The influence of silica surface groups on the Li ion conductivity of LiBH4/SiO2 nanocomposites

N. Ngene, S. Lambregts, D. Blanchard, T. Vegge, M. Sharma, H. Hagemann, P.E.de Jongh, PCCP 21 (2019), 22456-22466.

140. Pore structure stabilization during the preparation of single phase ordered macroporous α-alumina

J.E. van der Reijen, P.H. Keijzer, P.E. de Jongh

Materialia, 4 (2018), 423-430, 1016/j.mtla.2018.10.016

139. In Situ Observation of Atomic Redistribution in Alloying Gold-Silver Nanorods

J. van der Hoeven, Jessi; T. Welling, T. Silva, J.R. van den Reijen, C. a Fontaine, X. Carrier, C. Louis, A. van Blaaderen, P.E. de Jongh

ACS Nano 12, (2018), 8467-8476. acsnano.8b03978

138. Stability of Gold Nanocatalysts Supported on Mesoporous Silica for the Oxidation of 5-Hydroxymethyl furfural to Furan-2,5-dicarboxylic acid

N. Masoud, B. Donoeva, P.E. de Jongh,

Appl. Catal. A 561 (2018), 150-157.  10.1016/j.apcata.2018.05.027

137. Impact of the Electron Beam on the Thermal Stability of Gold Nanorods Studied by Environmental Transmission Electron Microscopy

J. Zecevic, W. Albrecht, A. van de Glind, H. Yoshida, Y. Isozaki, A. Imhof, A. van Blaaderen, P.E de Jongh, K.P. de Jong, S. Takeda, Ultramicroscopy (2018) accepted for publication.

136. Impact of heterogeneities in silica-supported copper catalysts on their stability for methanol synthesis

C.E. Pompe, M. Slagter, P.E de Jongh, K.P de Jong, J. Catal. (2018) accepted for publication

135. Colloidal Au Catalyst Preparation: Selective Removal of Polyvinylpyrrolidone from Active Au Sites

B. Donoeva, P.E. de Jongh, ChemCatChem 10 (2018), 989-997; DOI: 10.1002/cctc.201701760

134. Bifunctional Catalysis for the Conversion of Synthesis Gas to Olefins and Aromatics

J.L. Weber, I. Dugulan, P.E. de Jongh, K.P. de Jong, ChemCatChem 10 (2018), 1107-1112; DOI: 10.1002/cctc.201701667

133. Origin and Abatement of Heterogeneity at the Support Granule Scale of Silver on Silica Catalysts

E. Plessers, J.E. van den Reijen, P.E. de Jongh, K.P. de Jong, M.B.J. Roeffaers, ChemCatChem 9 (2017), 4562-4569; DOI: 10.1002/cctc.201700752

132. Preparation and particle size effets of Ag/α-Al2O3 catalysts for ethylene epoxidation

J. van den Reijen, S. Kanungo, T.A.J. Welling, M. Versluijs-Helder, T.A. Nijhuis, K.P. de Jong, P.E. de Jongh, J. Catal. 356 (2017), 65-74; DOI: 10.1016/j.jcat.2017.10.001

131. Superior Stability of Au/SiO2 Compared to Au/TiO2 Catalysts for the Selective Hydrogenation of Butadiene

N. Masoud, L. Delannoy, H. Schaink, A. van der Eerden, J.W. de Rijk, T.A.G. Silva, D. Banerjee, J.D. Meeldijk, K.P. de Jong, C. Louis, P.E. de Jongh, ACS Catal. 7 (2017), 5594-5603; DOI: 10.1021/acscatal.7b01424

130. Carbon Support surface effects in the gold-catalyzed oxidation of 5-hydroxymethylfurfural

B. Donoeva, N. Masoud, P.E. de Jongh, ACS Catal. 7 (2017), 4581-4591; DOI: 10.1021/acscatal.7b00829

129. Carbon Support surface effects in the gold-catalyzed oxidation of 5-hydroxymethylfurfural

B. Donoeva, N. Masoud, P.E. de Jongh, ACS Catal. 7 (2017), 4581-4591 10.1021/acscatal.7b00829

128. Silica-supported Au-Ag catalysts for the selective hydrogenation of butadiene

N. Masoud, L. Delannoy, C. Calers, J-J. Gallet, F. Bournel, K.P. de Jong, C. Louis, P.E. de Jongh, ChemCatChem (2017), 9, 1-9, DOI:10.1002/cctc.201700127

127. Confinement Effects for Lithium Borohydride: Comparing Silica and Carbon Scaffolds

Suwarno, P. Ngene, A. Nale, T.M. Eggenhuisen, M. Oschatz, J.P. Embs, A. Remhof, P.E. de Jongh, J. Phys. Chem. C 121 (2017), 4197-4205. DOI: 10.1021/acs.jpcc.6b13094

126. Fully alloyed metal nanorods with highly tunable properties

W. Abrecht, J.E.S. van Hoeven, T.S. Deng, P.E.de Jongh, A. van Blaaderen, Nanoscale 9 (2017), 2845-2851. DOI: 10.1039/C6NR08484B

125. Miniature Structures Meticulously replicated in Carbon

P.E.de Jongh, NPG Asia Materials, 9 (2017), e399;doi:10.1038/am.2016.188

124. Scale-dependent diffusion  anisotropy in nanoporous silicon 

D. Kondrashova, A. Lauerer, D. Mehlhorn, H. Jobic, A. Feldhoff, M. Thommes, D. Chakraborty, C. Gomes, J. Zecevic, P.E. de Jongh, A. Bunde, J. Karger, R. Valiullin, Science Reports 7 (2017) 40207. Doi:10.1038/srep40207.

123. Effect of Pore Confinement of LiNH2 for ammonia decomposition catalysis and the Storage of Hydrogen and Ammonia

P.L. Bramwell, S. Lentink, P. Ngene, P.E. de Jongh, J. Phys. Chem. C. 120 (2016), 27212-27220. http://dx.doi.org/10.1021/acs.jpcc.6b10688

122. Carbon supported lithium hydride nanoparticles: Impact of preparation conditions on particle size and hydrogen sorption 

P.L. Bramwell, P. Ngene, P.E. de Jongh, Int. J. Hydr. Ener. 42 (2016), 5188. http://dx.doi.org/10.1016/j.ijhydene.2016.10.062

121. A transition-metal-free hydrogenation catalyst: Pore-confined sodium alanate for the hydrogenation of alkynes and alkenes 

P.L. Bramwell, J. Gao, B. de Waal, K.P. de Jong, R.J.M. Klein Gebbink, P.E. de Jongh, J. Catal. 344 (2016), 129-135 http://dx.doi.org/10.1016/j.jcat.2016.09.024

120. Structure sensitivity of Cu and CuZn catalysts relevant to  industrial methanol synthesis

R. van den Berg, G.  Prieto, G. Korpershoek, L. van der Wal, A.J. van Bunningen, S. Lægsgaard-Jørgensen, P.E. de Jongh, K.P. de Jong, Nature Comm. 7 (2016), 13057, DOI:101038/ncomms13057

Higlighted in Nature Energy : “Structurally Sensitive Synthesis”  8 NOVEMBER 2016 | ARTICLE NUMBER: 16179 | DOI: 10.1038/NENERGY.2016.179

119. All-solid state lithium-sulfur battery based on a nanoconfined LiBH4 electrolyte
S. Das, P. Ngene, P. Norby, T. Vegge, P.E. de Jongh, D. Blanchard, J. Electrochem. Soc. 163 (2016) A2029-A2034. DOI: 10.1149/2.0771609jes

118. Dual role of CO in the stability of subnano Pt clusters at the Fe3O4(011) surface
R. Bliem, J.E.S. van der Hoeven, J. Hulva, J. Pavalec, E. Gamba, P.E. de Jongh, U. Diebold, G.S. Parkinson, Proc. Nat. Ac. Sc. 113 (2016) 8921-8926, Doi 10.1073/pnas.1605649113.

117. Small-angle scattering analysis of empty of loaded hierarchical porous materials
C.J. Gommes, G. Prieto, P.E de Jongh, J. Phys. Chem .C. 120 (2016), 1488-1506.

116. Revealing the Formation of Copper Nanoparticles from a Homogeneous Solid Precursor by Electron Microscopy
Roy van den Berg, Christian F. Elkjaer, Cedric J. Gommes, Ib Chorkendorff, Jens Sehested, Petra E. de Jongh, Krijn P. de Jong, and Stig Helveg, J. Am. Chem. Soc. 138 (2016), 3433–3442.

115. Reversible Li-insertion in nanoscaffolds: A promising strategy to alter the hydrogen sorption properties of Li-based complex hydrides
P. Ngene, M.H.W. Verkuijlen, C. Barre, A.P.M. Kentgens, P.E. de Jongh, Nano Ener. 22 (2016), 169-178. DOI 10.1016/j.nanoen.2016.02.003

114. Nanostructured materials for solid-state hydrogen storage: A review of the achievement of COST Action MP1103
E. Callini, P.E. de Jongh, A. Montone, et al. Int. J. Hydr. En. (2016), 10.1016/j.ij.hydrene.2016.04.025

113. Impact of the synthesis route of supported copper catalysts on the performance in the methanol synthesis reaction
R. van den Berg, J. Zecevic, J. Sehested, S. Helveg, P.E. de Jongh, K.P. de Jong, Catal. Today 272 (2016), 87-93. doi:10.1016/j.cattod.2015.08.052

112. Reversible Li-insertion in nanoscaffolds: A promising strategy to alter the hydrogen sorption properties of Li-based complex hydrides
P. Ngene, M.H.W. Verkuijlen, C. Barre, A.P.M. Kentgens, P.E. de Jongh, Nano Ener. 22 (2016), 169-178. DOI 10.1016/j.nanoen.2016.02.003

111. Impact of the synthesis route of supported copper catalysts on the performance in the methanol synthesis reaction
R. van den Berg, J. Zecevic, J. Sehested, S.Helveg, P.E. de Jongh, K.P. de Jong, Catal. Today (2016). doi:10.1016/j.cattod.2015.08.052

110. Mg-based compounds for hydrogen and energy storage
J.C. Crivello, R.V. Denys, M. Dornheim, M. Felderhof, D.M. Grant, J. Huot, T.R. Jensen, P.E. de Jongh, M. Latroche, G.S. Walker, C.J. Webb, V.A. Yartys, Appl. Phys. A. 122:85 (2016), 17 pages DOI 10.1007/s00339-016-9601-1.

109. Review of magnesium hydride-based materials: development and optimisation
J.C. Crivello, B. Dam, R.V. Denys, M. Dornheim, D.M. Grant, J. Huot, T.R. Jensen, P.E. de Jongh, M. Latroche, C. Milanese, D. Milcius, G.S. Walker, C.J. Webb, V.A. Yartys, Appl. Phys. A. 122:97 (2016), 20 pages DOI 10.1007/s00339-016-9602-0.

108. Complex hydrides as roon-temperature solid electrolytes for rechargeable batteries,               P.E.de Jongh, D. Blanchard, M. Matsuo, T.J. Udoovic, S. Orimo, Appl. Phys. A 122:3 (2016) 6 pages, DOI 10.1007/s00339-016-9807-2

107. A novel Method for the synthesis of solvent-free Mg(B3H8)2
J. Huang, Y. Yan, A. Remhof, Y. Zhang, D. Rentsch, Y.S. Au, P.E. de Jongh, F. Cuevas, L. Ouyang, M. Zhu, A. Zuttel, Dalton Trans. 45 (2016), 3687-3690, DOI: 10.1039/C5DT04517G

106. Nanoconfined LiBH4 as a Fast Lithium Ion Conductor
D. Blanchard, A. Nale, D. Sveinbjörnsson, T.M. Eggenhuisen, MH.W. Verkuijlen, Suwarno, T. Vegge, A.P.M. Kentgens, P.E. de Jongh, Adv. Func. Mater. 25 (2015), 184-192. DOI: 10.1002/adfm.201402538

105. Enhanced catalytic performance of zeolite ZSM-5 for conversion of methanol to dimethyl ether by combining alkaline treatment and partial activation
Y. Wei, P.E. de Jongh, M.L.M. Bonati, D.J. Law, G.J. Sunley, K.P. de Jong, Appl. Catal. 504 (2015), 211-219. DOI” 10.1016/j.apcata.2014.12.027

104. Rational disorder in lithium borohydride
A.Remhof, Y. Yan, J.P. Embs, V.G. Sakai, A. Nale, P.E. de Jongh, Z. Lodziana, A. Züttel, EPJ Web of Conf. 83 (2015), 02014, DOI: 10.1051/epjconf/20158302014

103. Mapping Nanocavities in plugged SBA-15 with confined silver nanostructures
R.L. Oliviera, M. Shakeri, J.D. Meeldijk, K.P. de Jong, P.E. de Jongh, Microp. Mesop. Mater. 201 (2015) 234-239, DOI: 10.1016/j.micromeso.2014.09.026

102. Recent developments in the synthesis of supported catalysts
P. Munnik, P.E de Jongh, K.P. de Jong, Chem. Rev. 115 (2015), 6687-6718. 10.1021/cr500486u

101. Support Functionalization to Retard Ostwald Ripening in Copper Methanol Synthesis Catalysts
R. van den Berg, T.E. Parmentier, C.F. Elkjær, C.J. Gommes, J. Sehested, S. Helveg, P.E. de Jongh, K.P. de Jong, ACS Catal. 5 (2015), 4439-4448. DOI 10.1021/acscatal.5b00833

100. Ultra-Small MgH2 Nanoparticles Embedded into an Ordered Microporous Carbon Showing Rapid Hydrogenation Sorption Kinetics
C. Zlotea, Y. Oumellal, S-J. Hwang, C. M. Ghimbeu, P.E. de Jongh, M. Latroche
J. Phys. Chem. C. 119 (2015), 18091-18098 10.1021/acs.jpcc.5b05754

99. Mesoscale Characterization of Nanoparticles Distribution Using X-Ray Scattering
C.J. Gommes, G. Prieto, J. Zecevic, M. vanhalle, B. Goderis, K.P. de Jong, P.E. de Jongh, Angew. Chem. Int. Edit. 54 (2015), 11804-11808. 10.1002/anie.201505359

98. An Atomic-Scale View of CO and H2 Oxidation on a Pt-Fe3O4 Model Catalyst
R. Bliem, J. van der Hoeven, A. Zavodny, O. Gamba, J. Pavelec, P.E. de Jongh, M. Schnid, U. Diebold, G.S. Parkinson, Angew. Chem. Int. Edit. (2015) DOI 10.1002/anie.201507368

97. Synthesis and performance of highly dispersed Cu/SiO2 catalysts for the hydrogenolysis of glycerol
A.A. Lemonidou, E.S. Vasiliadou, T.M. Eggenhuisen, P. Munnik, P.E de Jongh, K.P. de Jong, Appl. Catal. A 145 (2014), 108-119.

96. The size dependence of hydrogen mobility and sorption kinetics for carbon –supported MgH2 particles
Y.S. Au, M. Klein Obbink, S. Srinivasan, P.C.M.M. Magusin, K.P. de Jong, P.E. de Jongh, Adv Funct Mater 24 (2014), 3604-3611. DOI: 10.1002/adfm.201304060

95. Quantitative Relationship between Support Porosity and the Stability of Pore-Confined Metal Nanoparticles Studied on CuZnO/SiO2 Methanol Synthesis Catalysts
G. Prieto, M. Shakeri, K.P. de Jong, P.E. de Jongh, ACS Nano 8 (2014) 2522-2531.
10.1021/nn406119j

94. Interface effects in NaAlH4-carbon nanocomposites for hydrogen storage
J. Gao, P. Ngene, M. Herrich, W. Xia, O. Gutfleisch, M. Muhler, K.P. de Jong, P.E. de Jongh, Int. J. Hydr. Ener. 39 (2014), 10175-10183.

93. Design and Synthesis of Copper-Cobalt Catalysts for the Selective Conversion of Synthesis Gas to Ethanol and Higher Alcohols
G. Prieto, S. Beijer, M. Smith, M. He, Y. Au, Z. Wang, D.A. Bruce, K.P. de Jong, J.J. Spivey, P.E. de Jongh, Angew. Chem. Int. Edit. 53 (2014), 6397-6401.link

92. Pore Confined Synthesis of Magnesium Boron Hydride Nanoparticles
Y.S. Au, Y. Yan, K.P. de Jong, A. Remhof, P.E. de Jongh, J. Phys. Chem. C. 118 (2014), 20832-20839. DOI: 10.1021/jp507568p

91. Colloidal cubes for the enhanced degradation of organic dyes
S.I.R. Castillo, C.E. Pompe, J. van Mourik, D.M.A. Verbart, D.M.E. Thies-Weesie, P.E. de Jongh, A.P. Philipse, J. Mater. Chem. A.2 (2014), 10193-10201. DOI: 10.1039/C4TA01373E

90. Control and Impact of the Nanoscale Distribution of Supported Cobalt Particles Used in Fischer-Tropsch Catalysis
P. Munnik, P.E. de Jongh, K.P. de Jong, J. Am. Chem. Soc. 136 (2014), 7333-7340. DOI: 10.1021/ja500436y

89. Nanoparticle Growth in Supported Nickel Catalysts during Methanation Reaction - Larger is Better, P. Munnik, M. E. Z. Velthoen, P.E. de Jongh, Krijn P. de Jong, C.J. Gommes, Angew. Chem. Int. Edit 126 (2014), 9647-9651.
DOI: 10.1002/anie.201404103R1 and 10.1002/ange.201404103R1

88. Stabilization of Palladium Catalysts for the Heck Reaction by Support Functionalization and Solvent Selection
R.L. Oliviera, J.B.F. Hooijmans, P.E. de Jongh, R.J.M. Klein Gebbink, K.P. de Jong, ChemCatChem, 6 (2014) 3223-3230. DOI: 10.1002/cctc.201402523

87. Synthesis, Characterization and Computation of Catalysts at the Center for Atomic-level Catalyst Design
J.J. Spivey,K.S. Krishna,C.S.S.R. Kumar,K.M. Dooley,J.C. Flake,L.H. Haber, Y. Xu, M.J. Janik, S.B. Sinnott, Y-T. Cheng, T. Liang, D.S. Sholl, T.A. Manz, U. Diebold, G.S. Parkinson, D.A. Bruce, and P.E. de Jongh, J. Phys. Chem. C 118 (2014), 20043-20069. link

86. Extent of plugged SBA-15 assessed from physisorption and confined silver nanostructures
R.L. Oliviera, M. Shakeri, K.P. de Jong, P.E. de Jongh, Micro. Mesop. Mater. 201 (2014), 234-239.DOI: 10.1016/j.micromeso.2014.09.026

85. Engineering and Sizing Nanoreactors To Confine Metal Complexes for Enhanced Catalytic Performance
M. Shakeri, L. Roiban,† V. Yazerski, G. Prieto, R.J.M. Klein Gebbink, P.E. deJongh, K.P. de Jong, ACS Catalysis, 4 (2014), 3791-3796. dx.doi.org/10.1021/cs500777q

84. Nanoconfinement of Mg6Pd particles in porous carbon: size effects on structural and hydrogenation properties
M. Ponthieu, Y.S. Au, C. Zlotea, E. Leroy, J.F. Fernández, M. Latroche, P.E. de Jongh, F. Cuevas, J. Mater. Chem. A. 2 (2014), 18444-18453. 10.1039/C4TA02669A

83. Enhanced catalytic performance of zeolite ZSM-5 for conversion of methanol to dimethyl ether by combining alkaline treatment and partial activation
Y. Wei, P.E. de Jongh, M.L.M. Bonati, D.J. Law, H.J. Sunley, K.P. de Jong
Appl. Catal. A. (2014), 10.1016/j.apcata.2014.12.027

82. Tailoring the Windows Sizes to Control the Local Concentration and Activity of salen(Co) Catalysts in Plugged Nanochannels of SBA-15
M. Shakeri, R.J.M. Klein Gebbink, P.E. de Jongh, K.P. de Jong
Angew. Chem. Int. Edit. 52 (2013), 10854-10857.

81. Reversible Hydrogen Storage in Mg(BH4)2/Carbon Nanocomposites
Y. Yan, Y.S. Au, D. Rentsch, A. Remhof, P.E. de Jongh, A. Züttel
J. Mat. Chem. A. 1 (2013), 11177-1183.

80. Synthesis of Mg2Cu nanoparticles on carbon supports with enhanced hydrogen sorption kinetics, Y.S. Au, M. Ponthieu, M. van Zwienen, C. Zlotea, F. Cuevas, K.P. de Jong and P.E. de Jongh, J. Mat. Chem. A, 1 (2013), 9983-9991. DOI:10.1039/C3TA10926G

79. Melt Infiltration: an Emerging Technique for the Preparation of Novel Functional Nanostructured Materials
P.E. de Jongh, T.M. Eggenhuisen, Adv. Mater. 25 (2013), 6672-6690. DOI:10.1002/adma.201301912.

78. Nanoconfined light metal hydrides for reversible hydrogen storage
P.E. de Jongh, M. Allendorf, J. Vajo, C. Zlotea
MRS Bull. 38 (2013), 488-494. link doi:10.1557/mrs.2013.108

77. Progress in Electron Tomography to Access the 3D Nanostructure of Catalysts
J. Zecevic, K.P. de Jong, P.E. de Jongh, Curr. Op. Solid St. Mater. Sc. 17 (2013) 115-125. DOI: 10.1016/j.cossms.2013.04.02

76. Towards ‘greener’ catalyst manufacture: Reduction of wastewater from the preparation of Cu/ZnO/Al2O3 methanol synthesis catalysts
G. Prieto, K.P. de Jong, P.E. de Jongh, Cat. Today 215 (2013), 142-151.

75. Heterogeneities of the Nanostructure of Platinum/Zeolite Y Catalysts Revealed by Electron Tomography
J. Zecevic, A.J.M. van der Eerden, H. Friedrich, P.E. de Jongh, K.P. de Jong, ACS Nano 7 (2013), 3698-3705.

74. Hydrogen Dynamics in Nanoconfined Lithiumborohydride, A. Remhof, P. Mauron, A. Zuttel, Z. Lodziana, A.J. Ramirez-Questa, P. Ngene, P.E. de Jongh, J. Phys. Chem. C 117 (2013), 3789-3798.

73. Effect of Particle Size and Silica Scaffold on H2O Oxidation Activity of Dispersed Cobalt Oxide, C.C. Yang, T.M. Eggenhuisen, M. Wolters, B. van der Linden, P.E. de Jongh, K.P. de Jong, G. Mul, ChemCatChem 5 (2013), 550-556.

72. Controlling the Distribution of Supported Nanoparticles by Aqueous Synthesis, T.M. Eggenhuisen, H. Friedrich, F. Nudelman, J. Zecevic, N.A.J.M. Sommerdijk, P.E. de Jongh, K.P. de Jong, Chem. Mater. 25 (2013), 890-896.

71. Synthesis and performance of highly dispersed Cu/SiO2 catalysts for the hydrogenolysis of glycerol, E.S. Vasiliadou, T.M. Eggenhuisen, P. Munnik. P.E de Jongh, K.P. de Jong, A.A. Lemonidou, Appl. Catal. B. (in press)

70. Control and assessment of plugging of mesopores in SBA-15 materials, M. Shakeri, R.J.M. Klein-Gebbink, P.E. de Jongh, K.P. de Jong, Micr. Mesop. Mater. 170 (2013), 340-345.

69. Interplay between pore size and nanoparticle spatial distribution: consequences for the stability of CuZn/SiO2 methanol synthesis catalysts, G. Prieto, J.D. Meeldijk, K.P. de Jong, P.E. de Jongh, J. Catal. 303 (2013), 31-40. DOI:. 10.1016/j.jcat.2013.02.023

68. Freeze-drying for controlled nanoparticle distribution in Co/SiO2 Fischer-Tropsch catalysts, T.M. Eggenhuisen, P. Munnik, H. Talsma, P.E. de Jongh, K.P de Jong, J. Catal. 297 (2013), 306-313.

67. Towards stable catalysts by controlling collective properties of supported metal nanoparticles
G. Prieto, J. Zecevic, H. Friedrich, K.P. de Jong, P.E. de Jongh
Nature Materials 12 (2013), 34-39.

66. Entrance size analysis of cagelike silica materials using differential scanning calorimetry, T.M. Eggenhuisen, G. Prieto, H. Talsma, K.P. de Jong, P.E. de Jongh, J. Phys. Chem. C 116 (2012), 23383-23393.

65. Nanoconfined LiBH4 and enhanced mobility of Li+ and BH4- studied by solid-state NMR
M.H.W. Verkuijlen, P. Ngene, D.W. de Kort, C. Barre, A.C. Nale, E.R.H. van Eck, P.J.M. van Bentum, P.E. de Jongh, A.P.M. Kentgens, J. Phys. Chem. C 116 (2012), 22169-22178.

64. Enhanced reversibility of H2 sorption in nanoconfined complex metal hydrides by alkali metal addition
J. Gao, P. Ngene, I. Lindemann, O. Gutfleisch, K.P. de Jong, P.E. de Jongh, J. Mat. Chem. 22 (2012), 13209-13215.

63. H2PtCl6-derived Pt Nanoparticles on USY zeolite: a qualitative and quantitative 3D study
J. Zecevic, A.M.J. van der Eerden, H. Friedrich, P.E. de Jongh, K.P. de Jong, Micr. Mesop. Mater. 22 (2012), 13209-13215.

62. Quantitative Assesment of Pore Blockage in Supported Catalysts: Comparing Differential Scanning Calorimetry and Physisorption
T.M. Eggenhuisen, J. Zecevic, H. Talsma, K.P. de Jong, P.E. de Jongh
J. Phys. Chem. C 116 (2012), 7480-7490

61. In-situ X-Ray Raman Spectroscopy of LiBH4
P.S. Miedema, P. Ngene, A.M.J. van der Eerden, T.-C. Weng, D. Nordlund, D. Sokaras, R.A. Mori, A. Juhin, P.E. de Jongh, F.M.F. de Groot
Phys. Chem. Chem. Phys. 14 (2012), 5581-5587.

60. Mesoporosity of Zeolite Y – Quantitative Three-Dimensional Study by Image Analysis of Electron Tomograms
J. Zecevic, C.J. Gommes, H. Friedrich, P.E. de Jongh, K.P. de Jong
Angew. Chem. Int. Edit. 51 (2012) 1-6.

59. EXAFS investigation of the destabilization of the Mg-Ni-Ti(H) system
Q. Zheng, Y. Pivak, L.P.A. Mooij, A.M.J. van der Eerden, H. Schreuders, P.E. de Jongh, J.H. Bitter, B. Dam, Int. J. Hydr. Energ. 37 (2012), 4161-4169.

58. Reversibility of the Hydrogen Desorption from NaBH4 by Confinement in Nanoporous Carbon
P. Ngene, R. van den Berg, M.H.W. Verkuijlen, K.P. de Jong, P.E. de Jongh, Energ. Environ. Sci. 4 (2011), 4108

57. Copper Nitrate Redispersion to Arrive at Highly Active Silica-Supported Copper Catalysts
P. Munnik, M. Wolters, A. Gabrielsson, S.D. Pollington, G. Headdock, J.H. Bitter, P.E. de Jongh, K.P. de Jong,J. Phys. Chem. C 115 (2011), 14698-14708.

56. The role of Ni in increasing the reversibility of the hydrogen release from nanoconfined LiBH4
P. Ngene, M.H.W. Verkuijlen, Q. Zheng, J. Kragten, P.J.M. van
Bentum, J.H. Bitter, P. E. de Jongh, Farad. Disc. 151 (2011), 47-58.

55. A Quantitative Electron Tomography Study of Ru particles on the interior and exterior surfaces of Carbon Nanotubes
H. Friedrich, S-J. Guo, P.E. de Jongh, X-L. Pan, X-H. Bao, K.P. de Jong
ChemSusChem 4 (2011) 957-963.

54. How NO affects nickel and cobalt nitrates at low temperatures to arrive at highly dispersed silica-supported nickel and cobalt catalysts
M. Wolters, P. Munnik, J.H. Bitter, P.E. de Jongh, K.P. de Jong
J. Phys. Chem. C 8 (2011), 3332-3339.

53. Alkaline treatment of template containing zeolites: Introducing mesoporosity while preserving acidity
A.N.C. van Laak, L. Zhang, A.N. Parvulescu, P.C.A. Bruijnincx, B.M. weckhuysen, K.P. de Jong, P.E. de Jongh, Cat. Today 168 (2011) 48-56.

52. Hydrogen Storage: Keeping out the oxygen
P.E. de Jongh, Nature Mater. 10 (2011) 265-266.

51. The impact of carbon materials on the hydrogen storage properties of light metal hydrides
P. Adelhelm, P.E. de Jongh, J. Mater. Chem. 21 (2011), 2417-2427.

50. Combining confinement and NO calcination to arrive at highly dispered supported nickel and cobalt oxide catalysts with a tunable particle size
M. Wolters, L.J.W. van Grotel, T.M. Eggenhuisen, J.R.A. Sietsma, K.P. de Jong, and P.E. de Jongh, Cat. Today 163 (2011), 27-32.

49. Zeolite Y crystals with trimodal porosity as ideal hydrocracking catalysts
K.P. de Jong, J. Zecevic, H. Friedrich, P.E. de Jongh, M. Bulut, S. van Donk, R. Kenmogne, A. Finiels, V. Hulea, F. Fajula,
Angew.Chem. Int. Edit. 49 (2010) 10074-10078.

48. Impact of NO on the decomposition of supported metal nitrate catalyst precursors and the final metal oxide dispersion
M. Wolters, I.C.A. Contreras Andrade, P. Munnik, J.H. Bitter, P.E. de Jongh, K.P. de Jong, St. Surf. Sc. Catal. 174 (2010), 69-76.

47. Nanosizing and confinement: new strategies towards meeting hydrogen storage goals
P. E. de Jongh, P. Adelhelm, ChemSusChem 3 (2010) 1332-1348.

46. Fundamentals of Melt Infiltration for the Preparation of Supported Metal Catalysts. The Case of Co/SiO2 Fischer Tropsch Catalysts
T. M. Eggenhuisen, J. P. den Breejen, D. Verdoes, P.E. de Jongh, K.P. de Jong, J. Am. Chem. Soc.132 (2011) 18318-18325.

45. Mesoporous mordenites obtained by sequential acid and alkaline treatments – Catalysts for cumene production with enhanced acessesibility
A.N.C. van laak, S. L. Sagala, J. Zecevic, H. Friedrich, P.E. de Jongh, K.P. de Jong, L. Zhang, A. Parvalescu, P.E. de Jongh, K.P. de Jong
J.Catal. 276 (2010), 170-180

44. Reversibility of the hydrogen desorption from LiBH4: a synergetic effect of nanoconfinement and Ni addition
P. Ngene, M. van Zwienen, P.E. de Jongh
Chem. Comm. 46 (2010) 8201-8203.

43. Alkaline treatment on commercially available aluminum rich mordenite
A.N.C. van laak, R.W. Gosselink, S.L. Sagala, J.D. Meeldijk, P.E. de Jongh, K.P. de Jong, Appl. Cat. A 382 (2010) 65-72.

42. Confinement of NaAlH4 in nanoporous carbon: impact on H2 release, reversibility and thermodynamics
J. Gao, P. Adelhelm, M.H.W. Verkuijlen, C. Rongeat, M. Herrich, P.J. M. van Bentum, O. Gutfleisch, A.P.M. Kentgens, K.P. de Jong, P.E. de Jongh
J. Phys. Chem. C 114 (2010) 4675-4682.

41. Drift/MS/Isotopic Labeling Study on the NO Moderated Decomposition of a Silica Supported Nickel Nitrate Catalyst Precursor
M. Wolters, H. Daly, A. Goguet, F.C. Meunier, C. Hardacre, J.H. Bitter, P.E. de Jongh, K.P. de Jong, J. Phys. Chem. C. 114 (2010) 7830-7845.

40. LiBH4/SBA-15 Nanocomposites Prepared by Melt Infiltration under Hydrogen Pressure: Synthesis and Hydrogen Sorption Properties
P. Ngene, P. Adelhelm, A.M. Beale, K.P. de Jong, P.E. de Jongh
J. Phys. Chem. C. 114 (2010) 6163-6168.

39. Comprehensive study of melt infiltration for the synthesis of NaAlH4/C nanocomposites for hydrogen storage
P. Adelhelm, J. Gao, M. H. W. Verkuijlen, C. Rongeat, M. Herrich, P. J. M. van Bentum, O. Gutfleisch, A. P. M. Kentgens, K. P. de Jong, and P. E. de Jongh, Chem. Mater. 22 (2010) 2233

38. Insight into the Effect of Dealumination on Mordenite using Experimentally Validated Simulation
S. Ban, A.N.C. van laak, J. Landers, A. Neimark, P.E. de Jongh, K.P. de Jong, T.J.H. Vlugt, J. Phys. Chem. C 114 (2010) 2065.

37. Solid-state NMR studies of the local structure of NaAlH4/C nanocomposites at different stages of hydrogen desorption and rehydrogenation,
M. H.W. Verkuijlen, J. Gao,P. Adelhelm, P. J. M. van Bentum, P. E. de Jongh, and A.P.M. Kentgens, J. Phys. Chem. C, 114 (2010) 4683.

36. 2-Point correlation function of nanostructured materials via the grey-tone correlation function of electron tomograms: A three-dimensional structural analysis of ordered mesoporous silica
C.J. Gommes, H. Friedrich, P.E. de Jongh, K.P. de Jong
Acta Mater. 58 (2010) 770.

35. Direct assessment of molecular transport in mordenite; Dominance of surface resistances
L. Zhang, C. Chmelik, A.N.C. van Laak, J. Kärger, P.E. de Jongh, K.P. de Jong
Chem. Comm. 42 (2009), 6424-6426.

34. Synthesis of Large Mordenite Crystals with Different Aspect Ratios
L. Zhang, A.N.C. van Laak, P.E. de Jongh, K.P. de Jong
Micr. Mesopor. Mater. 126 (2009) 115.

33. How Intimate contact with nanoporous carbon benefits the reversible hydrogen desorption from NaH and NaAlH4
P. Adelhelm, K.P. de Jong, P.E. de Jongh
Chem. Comm. (2009) 6261.

32. Impregnation of Mesoporous Silica for Catalyst Preparation Studied with Differential Scanning Calorimetry
T.M. Eggenhuisen, M.J. van Steenbergen, H. Talsma, P.E. de Jongh, K.P. de Jong, J. Phys. Chem. C 113 (2009) 16785.

31. Ethylene-bridged periodic mesoporous organosilicas with ultra-large mesopores C. Vercaemst, P.E. de Jongh, J.D. Meeldijk, B. Goderis, F. Verpoort, P. van der Voort, Chem. Commun. 27 (2009) 4052.

30. Quantitative structural analysis of binary nanocrystal superlattices by electron tomography
H. Friedrich, C. Gommes, K. Overgaag, J. D. Meeldijk, W. Evers, B. de Nijs, M. Boneschanscher, P. E. de Jongh, A. J. Verkleij, K.P. de Jong, A. van Blaaderen, Nano Lett. 9 (2009) 2719.

29. Binary Nanoparticle Superlattices in 3D: from Quantitative Analysis of Crystal Structures to Characterization of Lattice Defects
H. Friedrich, C.J. Gommes, K. Overgaag, P.E.de Jongh, A.J. Verkleij, K.P. de Jong, A. van Blaaderen, D. Vanmaekelbergh, Microsc. Microanal. 15 (2009) 1192.

28. The structural characterization and H2 sorption properties of carbon-supported Mg1-xNix nanocrystallites
R. Bogerd, P. Adelhelm, J.H. Meeldijk, K.P. de Jong and P.E. de Jongh Nanotechnology 20 (2009) 204019.

27. Electron Tomography for Heterogeneous Catalysts and Related Nanostructured Materials
H. Friedrich, P. E. de Jongh, A. J. Verkleij, K. P. de Jong, Chem. Rev. 109 (2009) 1613.

26. Quantitative Characterization of Pore Corrugation in Ordered Mesoporous Materials Using Image Analysis of Electron Tomograms (cited 23, IF=6.4)
Cedric J. Gommes, Heiner Friedrich, Mariska Wolters, Petra E. de Jongh, and Krijn P. de Jong, Chem. Mater. 21 (2009) 1311-1317.

25. Periodic Mesoporous Organosilicas Consisting of 3D Hexagonally Ordered Interconnected Globular Pores
Carl Vercaemst, Heiner Friedrich, Petra E. de Jongh, Alex V. Neimark, Bart Goderis, Francis Verpoort, and Pascal Van Der Voort
J. Phys. Chem. C113 (2009) 5556–556.
24. Nanoscale composition modulations in MgyTi1-yHx thin film alloys for hydrogen storage
A. Baldi, R. Gremaud, D.M. Borsa, C.P. Baldé, A.M.J. van der Eerden, G.L. Kruijtzer, P.E. de Jongh, B. Dam, R. Griessen
Int. J. Hydr. En. 34 (2009), 1450-1457.

23. How nitric oxide affects the decomposition of supported nickel nitrate to arrive at highly dispersed catalysts
J.R.A. Sietsma, H. Friedrich. A. Broersma, M. Versluijs-Helder, A.J. van Dillen, P.E. de Jongh and K.P. de Jong, J. Catal. 260 (2008) 227-235.

22. Ordered Mesoporous Silica to Study the Preparation of Ni/SiO2 ex nitrate catalysts: Impregnation, drying and thermal treatments
J.R.A. Sietsma, J.D. Meeldijk, M. Versluijs-Helder, A. Broersma, J.A. van Dillen, P.E de Jongh, K.P. de Jong, Chem. Mater. 20 (2008) 2921-2931.

21. The Preparation of Carbon-supported Magnesium Nanoparticles using Melt Infiltration
P.E. de Jongh, R.W.P. Wagemans, T.M. Eggenhuisen, B.S. Dauvillier, P.B. Radstake, J.D. Meeldijk, J.W. Geus, and K.P. de Jong, Chem. Mater. 19 (2007) 6052-6057.

20. Benzene adsorption and desorption in mordenite
A.N.C. van Laak, K.P. de Jong, P.E. de Jongh, Stud. Surf. Sc. Catal. 170 (2006), 934-941.

19. Highly active cobalt-on-silica catalysts for the fischer-tropsch synthesis obtained via a novel calcination procedure
J.R.A. Sietsma, J.P. den Breejen, P.E. de Jongh, J. van Dillen, J.H. Bitter, K.P. de Jong, Stud. Surf. Sc. Catal. 167 (2007), 55-60.

18. Adsorption selectivity of benzene/propene mixtures for various zeolites
S. Ban, A. van Laak, P.E. de Jongh, J.P.J.M. van der Eerden, and T.J.H. Vlugt, J. Phys. Chem. C 111 (2007) 17241-17248.

17. Measuring Location, Size, Distribution, and Loading of NiO Crystallites in Individual SBA-15 Pores by Electron Tomography
H. Friedrich, J.R.A. Sietsma, P.E. de Jongh, A.J. Verkleij and K.P. de Jong, J. Am. Chem. Soc. 129 (2007) 10249-10254.

16. The Preparation of Supported NiO and Co3O4 Nanoparticles by the Nitric Oxide Controlled Thermal Decomposition of Nitrates
J.R.A. Sietsma, J.D. Meeldijk, J.P. den Breejen, M. Versluijs-Helder, A.J. van Dillen, P.E. de Jongh, and K.P. de Jong, Angew. Chem. Int. Ed. 46 (2007) 4547-4549.

15. Application of ordered mesoporous materials as model supports to study catalyst preparation by impregnation and drying
J.R.A. Sietsma, J. van Dillen, P.E. de Jongh, K.P. de Jong, Stud. Surf. Sc. Catal. 162 (2006), 195-202.

14. High-Resolution Electron Tomography Study of an Industrial Ni-Mo/γ-Al2O3 Hydrotreating Catalyst
K.P. de Jong, L.C A. van den Oetelaar, E.T.C. Vogt, S. Eijsbouts, A.J. Koster, H. Friedrich, and P. E. de Jongh, J. Phys. Chem B. 110 (2006) 10209-10212.

13. Hydrogen Storage in Magnesium Clusters: Quantum Chemical Study
R.W.P. Wagemans, J.H. van Lenthe, P.E. de Jongh, A.J. van Dillen and K.P. de Jong, J. Am. Chem. Soc. 127 (2005) 16675-16680.

Philips (1999-2004):
12. Wet-Chemical Formation of Aluminophosphates
P.E. de Jongh, P. van Tilborg, and H.J. Wondergem,
J. Sol-Gel Sci. and Techn.. 31 (2004) 241

11. Effect of Current Pulses on Lithium Intercalation Batteries
P.E. de Jongh and P.H.L Notten, Solid State Ionics 148 (2002) 259

10. Non-dispersive trap-limited electron transport in macroporous GaP, A.L. Roest, P.E. de Jongh, and D. Vanmaekelbergh
Phys.Rev. B. 62 (2000) 16926

From PhD research (1995-1999):

9. Charge Carrier Dynamics in Illuminated, Particulate ZnO Electrodes
P.E. de Jongh, E.A. Meulenkamp, D. Vanmaekelbergh, J.J. Kelly
J. Phys. Chem. B 104 (2000) 7686.

8. Photoelectrochemistry of Electrodeposited Cu2O
P.E. de Jongh, D. Vanmaekelbergh, and J.J. Kelly
J. Electrochem. Soc. 147 (2000) 486.

7. Electron Transport in Disordered Semiconductors Studied by a Small Modulation of the Steady State
D. Vanmaekelbergh, P. E. de Jongh, Phys. Rev. B. 61 (2000) 4699

6. Electrodeposition and photoelectrochemistry of Cu2O in aqueous solutions
P.E. de Jongh, D. Vanmaekelbergh, J.J. Kelly, Z. Phys. Chem. 212 (1999) 178.

5. Cu2O: Electrodeposition and Characterisation
P.E. de Jongh, D. Vanmaekelbergh, J.J. Kelly, Chem. Mater. 11 (1999) 3512

4. Driving force for Electron Transport in Porous Nanostructured Electrodes,
D. Vanmaekelbergh and P.E. de Jongh, J. Phys. Chem. B 103 (1999) 747

3. Cu2O: A Catalyst for the Electrochemical Decomposition of Water?
P.E. de Jongh, D. Vanmaekelbergh, J.J. Kelly, Chem. Comm. (1999) 1069

2. Investigation of the Electronic Transport Properties of Nanocrystalline Particulate TiO2 Electrodes by Intensity-Modulated Photocurrent Spectroscopy
P.E. de Jongh and D. Vanmaekelbergh, J. Phys. Chem. B. 101 (1997) 2716

1. Trap-Limited Electronic Transport in Assemblies of Nanometer-sized TiO2 Particles
P.E. de Jongh, D. Vanmaekelbergh
Phys. Rev. Lett. 77 (1996) 3427