- Publication record
>8,750 citations (Web of Science); >13,300 citations (Google Scholar)
Web of Science: h-index 33 (October 2023)
Google Scholar: h-index 42 (April 2024)
ORCID
2024
129. Brain-inspired computing systems: a systematic literature review
M. Zolfagharinejad, U. Alegre-Ibarra, T. Chen, S. Kinge and W. G. van der Wiel
Eur. Phys. J. B 97, 70 (2024)
128. A kinetic Monte Carlo Approach for Boolean Logic Functionality in Gold Nanoparticle Networks
J. Mensing, W.G. van der Wiel and A. Heuer
Front. Nanotechnol. 6, 1364985 (2024)
127. When Machine Learning Meets 2D Materials: A Review
Bin Lu, Yuze Xia, Yuqian Ren, Miaomiao Xie, Liguo Zhou, Giovanni Vinai, Simon A. Morton, Andrew T.S. Wee, Wilfred G. van der Wiel, Wen Zhang, Ping Kwan Johnny Wong
Adv. Sci. 11, 2305277 (2024)
2023
126. brains-py, A framework to support research on energy-efficient unconventional hardware for machine learning
U. Alegre-Ibarra, H.-C. Ruiz Euler, H. A. Mollah, B. P. Petrov, S. S. Sastry, M. N. Boon, M. P. de Jong, M. Zolfagharinejad, F. M. J. Uitzetter, B. van de Ven, A. J. Sousa de Almeida, S. Kinge, and W. G. van der Wiel
Journal of Open Source Software 8(90), 5573 (2023)
125. Toward a formal theory for computing machines made out of whatever physics offers
H. Jaeger, B. Noheda and W.G. van der Wiel
Nat. Commun. 14, 4911 (2023)
124. Dopant network processing units as tuneable extreme learning machines
B. van de Ven, U. Alegre-Ibarra, P. J. Lemieszczuk, P. A. Bobbert, H.-C. Ruiz Euler, W. G. van der Wiel
Front. Nanotechnol. 5, 1055527 (2023).
2022
123. Hopping-Transport Mechanism for Reconfigurable Logic in Disordered Dopant Networks
Henri Tertilt, Jesse Bakker, Marlon Becker, Bram de Wilde, Indrek Klanberg, Bernard J. Geurts,
Wilfred G. van der Wiel, Andreas Heuer, and Peter A. Bobbert
Phys. Rev. A 17, 064025 (2022)
2021
122. In-Materio Reservoir Computing in a Sulfonated Polyaniline Network
Yuki Usami, Bram van de Ven, Dilu G. Mathew, Tao Chen, Takumi Kotooka, Yuya Kawashima, Yuichiro Tanaka, Yoichi Otsuka, Hiroshi Ohoyama, Hakaru Tamukoh, Hirofumi Tanaka,* Wilfred G. van der Wiel,* and Takuya Matsumoto*
Adv. Mater. 33, 2102688 (2021)
121. Dopant Network Processing Units: Towards Efficient Neural-network Emulators with High-capacity Nanoelectronic Nodes
Hans-Christian Ruiz Euler, Unai Alegre-Ibarra, Bram van de Ven, Hajo Broersma, Peter A. Bobbert, Wilfred G. van der Wiel
Neuromorph. Comput. Eng. 1, 024002 (2021)
120. The rise of intelligent matter
C. Kaspar, B. J. Ravoo, W. G. van der Wiel, S. V. Wegner and W. H. P. Pernice
Nature 594, 345–355 (2021)
119. Gradient Descent in Materio
M. N. Boon, H.-C. Ruiz Euler, T. Chen, B. van de Ven, U. Alegre Ibarra, P. A. Bobbert and W. G. van der Wiel
arxiv.org/abs/2105.11233 (2021)
118. 1/f noise and machine intelligence in a nonlinear dopant atom network
Tao Chen, Peter A. Bobbert and Wilfred G. van der Wiel
Small Science 202000014 (2021)
2020
117. A deep-learning approach to realizing functionality in nanoelectronic devices
Hans-Christian Ruiz Euler, Marcus N. Boon, Jochem T. Wildeboer, Bram van de Ven, Tao Chen, Hajo Broersma, Peter A. Bobbert and Wilfred G. van der Wiel
Nature Nanotechnology 15, 992-998 (2020)
116. Surface acoustic waves as a sensitive probe for photoresponsive polarization memory in SrTiO3
Y. Uzun, I. Gurbuz, M. P. de Jong, W. G. van der Wiel
Journal of Physics D: Applied Physics 53, 335301 (2020)
115. Effect of Pb(Zr0.52Ti0.48)O3 thin films on electron transport at the LaAlO3/SrTiO3 interface by surface acoustic waves
Y. Uzun, D. Doller, A. E. M. Smink, M. D. Nguyen, M. P. de Jong, W. G. van der Wiel
Journal of Applied Physics 127, 214901 (2020)
114. Anomalous Scaling of Parasitic Capacitance in FETs with a High-K Channel Material
A. E. M. Smink, M. J. de Jong, H. Hilgenkamp, W. G. van der Wiel, J. Schmitz
2020 IEEE 33rd International Conference on Microelectronic Test Structures (ICMTS)
113. Electrochemical Detection of Tumor-Derived Extracellular Vesicles on Nanointerdigitated Electrodes
D. G. Mathew, P. Beekman, S. G. Lemay, H. Zuilhof, S. le Gac,
W. G. van der Wiel
Nano Letters 20, 820-828 (2020)
112. Classification with a disordered dopant-atom network in silicon
T. Chen, J. van Gelder, B. van de Ven, S. Amitonov, B. de Wilde, H.-C. Ruiz Euler,
H. J. Broersma, P. A. Bobbert, F. A. Zwanenburg, W.G. van der Wiel
Nature 577, 341-345 (2020)
111. Electron Trapping Mechanism in LaAlO3/SrTiO3 Heterostructures
C. Yin, A. E. M. Smink, I. Leermakers, L. M. K. Tang, N. Lebedev, U. Zeitler, W. G. van der Wiel, H. Hilgenkamp, J. Aarts
Physical Review Letters 124, 017702 (2020)
110. Acoustoelectric charge transport at the LaAlO3/SrTiO3 interface
Y. Uzun, A. E. M. Smink, M. P. de Jong, H. Hilgenkamp, W. G. van der Wiel
Applied Physics Letters 116, 011601 (2020)
109. Hard Superconducting Gap and Diffusion-Induced Superconductors in Ge–Si Nanowires
J. Ridderbos, M. Brauns, F. K. de Vries, J. Shen, A. Li, S. Kölling, M. A. Verheijen,
A. Brinkman, W. G. van der Wiel, E. P. A. M. Bakkers, F. A. Zwanenburg
Nano Letters 20, 122-130 (2020)
2019
108. Multiple Andreev reflections and Shapiro steps in a Ge-Si nanowire Josephson junction
J. Ridderbos, M. Brauns, A. Li, E. P. A. M. Bakkers, A. Brinkman, W. G. van der Wiel,
F. A. Zwanenburg
Physical Review Materials 3, 084803 (2019)
107. Short-Channel Vertical Organic Field-Effect Transistors with High On/Off Ratios
T. Dogan, R. Verbeek, A. J. Kronemeijer, P. A. Bobbert, G. H. Gelinck, W. G. van der Wiel
Advanced Electronic Materials 5, 1900041 (2019)
2018
106. Versatile Micropatterns of N‐Heterocyclic Carbenes on Gold Surfaces: Increased Thermal and Pattern Stability with Enhanced Conductivity
D. Thao Nguyen, M. Freitag, Martin Körsgen, Sebastian Lamping, Andreas Rühling, Andreas H. Schäfer, Martin H. Siekman, Heinrich F. Arlinghaus, Wilfred G. van der Wiel, Frank Glorius, Bart Jan Ravoo
Angew. Chem. Int. Ed. 57, 11465 (2018)
105. Correlation between superconductivity, band filling, and electron confinement at the LaAlO3/SrTiO3 interface
A.E.M. Smink, M.P. Stehno, J.C. de Boer, A. Brinkman, W.G. van der Wiel and H. Hilgenkamp
Phys. Rev. B 97, 245113 (2018).
104. A fabrication guide for planar silicon quantum dot heterostructures
P. C. Spruijtenburg, S. V. Amitonov, W. G. van der Wiel and F. A. Zwanenburg
Nanotechnology 29, 143001 (2018)
103. 3D-fabrication of tunable and high-density arrays of crystalline silicon nanostructures
J.G.E. Wilbers, J. Berenschot, R. Tiggelaar, T. Dogan, K. Sugimura, W.G. van der Wiel, J.G.E. Gardeniers, N. Tas,
J. Micromechanics and Microengineering 28, 044003 (2018)
102. Depletion-mode Quantum Dots in Intrinsic Silicon
S. V. Amitonov, P. C. Spruijtenburg, M. W. S. Vervoort, W. G. van der Wiel and F. A. Zwanenburg
Applied Physics Letters 112, p. 023102 (2018)
101. Highly doped silicon nanowires by monolayer doping
J. Veerbeek, L. Ye, W. Vijselaar, T. Kudernac, W.G. van ver Wiel, and J. Huskens
J.Nanoscale, 9(8), 2836-2844 (2018)
2017
100. Fabrication, electrical characterization and device simulation of vertical P3HT field-effect transistors
B.J. Xu, T. Dogan, J.G.E. Wilbers, M.P. de Jong, P.A. Bobbert, W.G. van der Wiel
Journal of Science: Adv. Mater. Dev. 2, 501 (2017)
99. Effect of Coulomb correlation on charge transport in disordered organic semiconductors
F.L. Liu, H. van Eersel, B.J. Xu, J.G.E. Wilbers, M.P. de Jong, W.G. van der Wiel, P.A. Bobbert, R. Coehoorn
Phys. Rev. B 96, 205203 (2017)
98. Bottom-Up Single-Electron Transistors
K.S. Makarenko, Z.H. Liu, M.P. de Jong, F.A. Zwanenburg, J. Huskens, W.G. van der Wiel
Adv. Mater. 29, 1702920 (2017)
97. Doping of semiconductors by molecular monolayers: monolayer formation, dopant diffusion and applications
L. Ye, T. Kudernac, M.P. de Jong, W.G. van der Wiel and J. Huskens
Mater. Sci. Semicond. Proc. 62, 128-134 (2017)
96. Monolayer Contact Doping from a Silicon Oxide Source Substrate
L. Ye, A. Gonzalez-Campo, T. Kudernac, R. Nunez, M.P. de Jong, W.G. van der Wiel, J. Huskens
Langmuir 33, 3635-3638 (2017)
95. Gate-tunable band structure of the LaAlO3 -SrTiO3 interface,
A.E.M. Smink, J.C. de Boer, M.P. Stehno, A. Brinkman, W.G. van der Wiel and H. Hilgenkamp
Phys. Rev. Lett. 118, 106401 (2017)
94. Highly doped silicon nanowires by monolayer doping
J. Veerbeek, L. Ye, W. Vijselaar, T. Kudernac, W.G. van der Wiel, J. Huskens
Nanoscale 9, 2836-2844 (2017)
93. Charge transport in nanoscale vertical organic semiconductor pillar devices
J.G. E. Wilbers, B. Xu, P.A. Bobbert, M.P. de Jong and W.G. van der Wiel
Scientific Reports 7, 41171 (2017)
92. Monolayer Contact Doping from a Silicon Oxide Source Substrate
L. Ye, A. González-Campo, T. Kudernac, R. Núñez, M.P. de Jong, W.G. van der Wiel, J. Huskens
Langmuir, 33(15), 3635-3638 (2017)
91. Using neural networks to predict the functionality of reconfigurable nano-material networks
K. Greff, R.M.J. van Damme, J. Koutnik, H.J. Broersma, J.O. Mikhal, C.P. Lawrence, W.G. van der Wiel, J. Schmidhuber
International journal on advances in intelligent systems, 9(3&4), 339-351 (2017)
2016
90. A Simulation Tool for Evolving Functionalities in Disordered Nanoparticle Networks
R.M.J. van Damme, H.J. Broersma, J. Mikhal, C.P. Lawrence and W.G. van der Wiel
IEEE conference proceedings of the 2016 IEEE Congress on Evolutionary Computation (2016)
89. Unconventional Computing Using Evolution-in-Nanomaterio: Neural Networks meet Nanoparticle Networks
K. Greff, R.M.J. van Damme, J. Koutník, H.J. Broersma, J. Mikhal, C.P. Lawrence, W.G. van der Wiel, and J. Schmidhuber
FUTURE COMPUTING 2016: 8th International Conference on Future Computational Technologies and Applications, ISBN: 978-1-61208-461-9 (2016)
88. Anisotropic Pauli spin blockade in hole quantum dots
M. Brauns, J. Ridderbos, A. Li, W.G. van der Wiel, E. P. A. M. Bakkers and F. A. Zwanenburg
Phys. Rev. B 94, 041411 (2016)
87. Highly tuneable hole quantum dots in Ge-Si core-shell nanowires
M. Brauns, J. Ridderbos, A. Li, W.G. van der Wiel, E. P. A. M. Bakkers and F. A. Zwanenburg
Appl. Phys. Lett. 109, 143113 (2016)
86. Geometric reduction of dynamical nonlocality in nanoscale quantum circuits
E. Strambini, K.S. Makarenko, G. Abulizi, M.P. de Jong and W.G. van der Wiel
Scientific Reports 6, 18827 (2016)
85. Effect of orbital hybridization on spin-polarized tunneling across Co/C60 interfaces
K. Wang, E. Strambini, J.G.M. Sanderink, T. Bolhuis, W.G. van der Wiel, and M.P. de Jong
ACS applied materials & interfaces, 8(42), 28349-28356 (2016)
84. The effect of Rhδ+ dopant in SrTiO3 on the active oxidation state of co-catalytic Pt nanoparticles in overall water splitting
M.G.C. Zoontjes, K. Han, K. Han, M. Huijben, W.G. van der Wiel, G. Mul
Catalysis science & technology, 6(21), 7793-7799 (2016)
83. Passivation and characterization of charge defects in ambipolar silicon quantum dots
P.C. Spruijtenburg, S. Amitonov, F. Mueller, W.G. van der Wiel & F.A. Zwanenburg
Scientific reports, 6, [38127] (2016)
2015
82. Boosting the Boron Dopant Level in Monolayer Doping by Carboranes
L. Ye, A. Gonzalez-Campo, R. Nunez, M.P. de Jong, T. Kudernac, W.G. van der Wiel and J. Huskens, ACS Appl. Mater. Interfaces 7, 27357-27361 (2015)
81. Evolution of a Designless Nanoparticle Network into Reconfigurable Boolean Logic
S.K. Bose, C.P. Lawrence, Z. Liu, K.S. Makarenko, R.M.J. van Damme, H.J. Broersma and W.G. van der Wiel
Nature Nanotechnol. 10, 1048 (2015)
80. Electron-Hole Confinement Symmetry in Silicon Quantum Dots
F. Mueller, G. Konstantaras, P.C. Spruijtenburg, W.G. van der Wiel and F.A. Zwanenburg
Nano Letters 15, 5336-5341 (2015)
79. Single-charge transport in ambipolar silicon nanoscale field-effect transistors
F. Mueller, G. Konstantaras, W.G. van der Wiel and F.A. Zwanenburg
Appl. Phys. Lett. 106, 172101 (2015)
78. Controlling the dopant dose in silicon by mixed monolayer doping
L. Ye, S.P. Pujari, H. Zuilhof, T. Kudernac, M.P. de Jong, W.G. van der Wiel and J. Huskens
ACS Appl. Mater. & Interfaces 7, 3231-3236 (2015)
2014
77. Josephson supercurrent in a topological insulator without a bulk shunt
M. Snelder, C.G. Molenaar, Yu Pan, D. Wu, Y.K. Huang, A. de Visser, A.A. Golubov, W.G. van der Wiel, H. Hilgenkamp, M.S. Golden, and A. Brinkman, Superconductor Science and Technology 27, 104001 (2014)
76. Tunneling anisotropic magnetoresistance in C60-based organic spintronic systems
K. Wang, J.G.M. Sanderink, T. Bolhuis, W. G. van der Wiel, and M.P. de Jong
Phys. Rev. B 89, 174419 (2014)
75. Engineering Gilbert damping by dilute Gd doping in soft magnetic Fe thin films
W. Zhang, S. Jiang, P.K.J. Wong, L. Sun, Y.K. Wang, K. Wang, M.P. de Jong, W.G. van der Wiel, G. van der Laan and Y. Zhai
J. Appl. Phys. 115, 17A308 (2014)
74. High-frequency acoustic charge transport in GaAs nanowires
S. Büyükköse, A. Mínguez, B. Vratzov, C. Somaschini, L. Geelhaar, H. Riechert, W.G. van der Wiel and P.V. Santos
Nanotechnology 25, 135204 (2014)
2013
73. Selective Hydrothermal Method To Create Patterned and Photoelectrochemically Effective Pt/WO3 Interfaces
M.G.C. Zoontjes, M. Huijben, J. Baltrusaitis, W.G. van der Wiel and G. Mul, ACS Appl. Mater Interfaces 5, 13050 (2013)
72. Microscopic origin of the reduced magnetocrystalline anisotropy with increasing oxide content in Co80Pt20:oxide thin films
W. Zhang, S.A. Morton, P.K.J. Wong, B. Lu,Y. Xu, M.P. de Jong, W.G. van der Wiel, and G. van der Laan, J. Phys. D: Appl. Phys. 46 (40). 405001 (2013)
71. Modulation of conductance and superconductivity by top-gating in LaAlO3/SrTiO3 2-dimensional electron systems
P.D. Eerkes, W.G. van der Wiel and H. Hilgenkamp, Appl. Phys. Lett. 103, 201603 (2013)
70. Tuning the Kondo effect in thin Au films by depositing a thin layer of Au on molecular spin-dopants
D. Ataç, T. Gang, M.D. Yilmaz, S.K. Bose, A.T.M. Lenferink, C. Otto, M.P. de Jong, J. Huskens and W.G. van der Wiel, Nanotechnology 24, 375204 (2013)
69. Tunneling anisotropic magnetoresistance in Co/AlOx/Al tunnel junctions with fcc Co (111) electrodes
K. Wang, T.L.A. Tran, P. Brinks, J.G.M. Sanderink, T. Bolhuis, W.G. van der Wiel and M.P. de Jong, Phys. Rev. B 88, 054407 (2013)
68. Single-hole tunneling through a two-dimensional hole gas in intrinsic silicon
P.C. Spruijtenburg, J. Ridderbos, F. Mueller, A.W. Leenstra, M. Brauns, A.A.I. Aarnink, W.G. van der Wiel and F.A. Zwanenburg, Appl. Phys. Lett. 102, 192105 (2013)
67. Crystalline CoFeB/Graphite Interfaces for Carbon Spintronics Fabricated by Solid Phase Epitaxy
P.K.J. Wong, E. van Geijn, W. Zhang, A.A. Starikov, T.L.A. Tran, J.G.M. Sanderink, M.H. Siekman, G. Brocks, P.J. Kelly, W.G. van der Wiel, and M.P. de Jong, Adv. Funct. Mater. 23, 4933 (2013)
66. Symmetric Large-Area Metal-Molecular Monolayer-Metal Junctions by Wedging Transfer
S.O. Krabbenborg, J.G.E. Wilbers, J. Huskens and W.G. van der Wiel, Adv. Funct. Mater. 23, 770 (2013)
65. Covalent Coupling of Nanoparticles with Low-Density Functional Ligands to Surfaces via Click Chemistry
I. Rianasari, M.P. de Jong, J. Huskens and W.G. van der Wiel, Int. J. Mol. Sci. 14, 3705 (2013)
64. Printed circuit board metal powder filters for low electron temperatures
F. Mueller, R.N. Schouten, M. Brauns, T. Gang, W.H. Lim, N.S. Lai, A.S. Dzurak, W.G. van der Wiel and F.A. Zwanenburg, Rev. Sci. Instrum. 84, 044706 (2013)
63. Magnetic properties of bcc-Fe(001)/C60 interfaces for organic spintronics
T.L.A. Tran, D. Çakır, P.K.J. Wong, A.B. Preobrajenski, G. Brocks, W.G. van der Wiel and M.P. de Jong, ACS Appl. Mater. Interfaces 5, 837 (2013)
62. Highly ordered C60 films on epitaxial Fe/MgO(001) surfaces for organic spintronics
P.K.J. Wong, T.L.A. Tran, P. Brinks, W.G. van der Wiel, M. Huijben, and M.P. de Jong
Org. Electron. 14, 451 (2013)
61. Josephson supercurrent through a topological insulator surface state
M. Veldhorst, M. Snelder, M. Hoek, T. Gang, V.K. Guduru, X.L. Wang, U. Zeitler, W.G. van der Wiel, A.A. Golubov, H. Hilgenkamp and A. Brinkman, Nature Materials 12, 171 (2013)
60. Ultrahigh-frequency surface acoustic wave generation for acoustic charge transport in silicon
S. Büyükköse, B. Vratzov, J. van der Veen, P.V. Santos and W.G. van der Wiel, Appl. Phys. Lett. 102, 013112 (2013)
59. Electronic and magnetic structure of C60/Fe3O4(001): A hybrid interface for organic spintronics
P. K. J. Wong, W. Zhang, K. Wang, G. van der Laan, Y. Xu, W.G. van der Wiel, and M.P. de Jong
J. Mater. Chem. C 1, 1197 (2013)
2012
58. Ultrahigh-frequency surface acoustic wave transducers on ZnO/SiO2/Si using nanoimprint lithography
S. Büyükköse, B. Vratzov, D. Ataç, J. van der Veen, P.V. Santos and W.G. van der Wiel, Nanotechnology 23, 315303 (2012)
57. Josephson supercurrent through a topological insulator surface state
M. Veldhorst, M. Snelder, M. Hoek, T. Gang, V.K. Guduru, X.L. Wang, U. Zeitler, W.G. van der Wiel, A.A. Golubov, H. Hilgenkamp and A. Brinkman, Nature Materials 11, 417 (2012)
56. Tunable Doping of a Metal with Molecular Spins
T. Gang, M.D. Yilmaz, D. Ataç, S.K. Bose, E. Strambini, A.H. Velders, M.P. de Jong, J. Huskens and W.G. van der Wiel, Nature, Nanotechnology 7, 232 (2012)
55. The multi-step tunneling analogue of conductivity mismatch in organic spin valves
T.L.A. Tran, T.Q. Le, J.G.M. Sanderink, W.G. van der Wiel, and M. P. de Jong, Adv. Funct. Mater. 22, 1180 (2012)
2011
54. Growth mechanism and interface magnetic properties of Co nanostructures on graphite
P. K. J. Wong, M. P. de Jong, L. Leonardus, M. H. Siekman and W. G. van der Wiel, Phys. Rev. B 84, 054420 (2011)
53. Hybridization-induced oscillatory magnetic polarization of C60-orbitals at the C60/Fe(001) interface
T.L.A. Tran, P.K.J. Wong, M.P. de Jong, W. G. van der Wiel, Y. Q. Zhan and M. Fahlman. Appl. Phys. Lett. 98, 222505 (2011)
52. Electronic structure of Co2+ ions in anatase Co:TiO2 in relation to heterogeneity and structural defects
Y.J. Lee, M.P. de Jong, and W.G. van der Wiel, Phys. Rev. B 83, 134404 (2011)
51. High-quality global hydrogen silsequioxane contact planarization for nanoimprint lithography
S. Büyükköse, B. Vratzov and W.G. van der Wiel, J. Vac. Sci. Technol. B 29(2), 021602 (2011)
50. Local doping of silicon using nanoimprint lithography and molecular monolayers
W.P. Voorthuijzen, M.D. Yilmaz, W.J.M. Naber, J. Huskens and W.G. van der Wiel, Advanced Materials 23, 1346-1350 (2011)
49. Assembly and patterning of ferromagnetic nanoparticles from solution: a novel low-temperature liquid-phase annealing approach
T. Gang, M. Groen, S. Kinge, W.J.M. Naber, H. Boschker, G. Rijnders, D.N. Reinhoudt and W.G. van der Wiel, Synthetic Metals 161, 586-590 (2011)
48. Magnetic Nanoparticle Assembly on Surfaces using Click-Chemistry
S. Kinge, T. Gang, W.J.M. Naber, W.G. van der Wiel and D.N. Reinhoudt, Langmuir 27, 570-574 (2011)
47. Nano-patterned monolayer and multilayer structures of FePtAu nanoparticles on aluminum oxide prepared by nanoimprint lithography and nanomolding in capillaries
T. Gang, O. Yildirim, S. Kinge, X. Duan, D.N. Reinhoudt, D.H.A. Blank, G. Rijnders, W.G. van der Wiel and J. Huskens, J. Mater. Chem. 21, 14800-14806 (2011)
2010
46. Control over Rectification in Supramolecular Tunneling Junctions
K.S. Wimbush, W.F. Reus, W.G. van der Wiel, D.N. Reinhoudt, G.M. Whitesides, C.A. Nijhuis and A.H. Velders, Angew. Chem. Int. Ed. 49, 10176 –10180 (2010)
45. Anomalous Hall effect suppression in anatase Co:TiO2 by the insertion of an interfacial TiO2 buffer layer
Y.J. Lee, M.P. de Jong, W.G. van der Wiel, Y. Kim and J.D. Brock, Appl. Phys. Lett. 97, 212506 (2010)
44. Direct Patterning of Covalent Organic Monolayers on Silicon Using Nanoimprint Lithography
W.P. Voorthuijzen, M.D. Yilmaz, A. Gomez-Casado, P. Jonkheijm, W.G. van der Wiel and J. Huskens, Langmuir 26 (17), 14210-14215 (2010)
43. Spin injection and perpendicular spin transport in graphite nanostructures
T. Banerjee, W.G. van der Wiel and R. Jansen, Phys. Rev. B 81, 214409 (2010)
42. Synthesis and Characterization of NiCr Self-assembled Nanorings
V.M. Serdio, M.A. Gracia-Pinilla, S. Velumani, E.G. Perez-Tijerina and W.G. van der Wiel, Jrnl. of Nano Research 9, 101 (2010)
41. Controlled tunnel-coupled ferromagnetic electrodes for spin injection in organic single-crystal transistors
W.J.M. Naber, M.F. Craciun, J.H.J. Lemmens, A.H. Arkenbout, T.T.M. Palstra, A.F. Morpurgo and W.G. van der Wiel, Organic Electronics 11, 743 (2010)
40. Monolayer-directed Assembly and Magnetic Properties of FePt Nanoparticles on Patterned Aluminum Oxide
O. Yildirim, T. Gang, S. Kinge, D.N. Reinhoudt, D.H.A. Blank, W.G. van der Wiel, G. Rijnders and J. Huskens, Int. J. Mol. Sci. 11, 1162 (2010)
39. A photoemission study of interfaces between organic semiconductors and Co as well as Al2O3/Co contacts
M. Grobosch, C. Schmidt, W.J.M. Naber, W.G. van der Wiel and M. Knupfer, Synthetic Metals 160, 238–243 (2010)
2009
38. Top-Down Fabrication of Sub-30 nm Monocrystalline Silicon Nanowires Using Conventional Microfabrication
S. Chen, J.G. Bomer, W.G. van der Wiel, E.T. Carlen and A. van den Berg, ACS Nano 3, 3485–3492 (2009)
37. Low-temperature solution synthesis of chemically functional ferromagnetic FePtAu nanoparticles
S. Kinge, T. Gang, W.J.M. Naber, H. Boschker, G. Rijnders, D.N. Reinhoudt and W.G. van der Wiel, Nano Letters 9, 3220 (2009)
36. The formation of large-area conducting graphene like platelets
R. Salvio, S. Krabbenborg, W.J.M. Naber, A. Velders, D.N. Reinhoudt and W.G. van der Wiel, Chemistry Eur. J. 15, 8235 (2009)
35. Novel top-down wafer-scale fabrication of single crystal silicon nanowires
H.D. Tong, S. Chen, W.G. van der Wiel, E.T. Carlen and A. van den Berg, Nano Letters 9, 1015 (2009)
2008 - 1998
34. Competition between h/e and h/2e oscillations in a semiconductor Aharonov-Bohm interferometer
L.C. Mur, C.J.P.M. Harmans and W.G. van der Wiel, New J. Phys. 10, 073031 (2008)
33. Magnetic effects at the interface between non-magnetic oxides
A. Brinkman, M. Huijben, M. van Zalk, J. Huijben, U. Zeitler, J.C. Maan, W.G. van der Wiel, G. Rijnders, D.H.A. Blank and H. Hilgenkamp, Nature Mater. 6, 493 (2007)
32. Interaction of a 2-level system with 2D phonons
W.J.M. Naber, T. Fujisawa, H.W. Liu and W.G. van der Wiel, AIP Conference Proceedings (peer-reviewed), Vol. 893, 755, W. Jantsch and F. Schäffler (Eds.), Melville/New York (2007)
31. Organic Spintronics
W.J.M. Naber, S. Faez and W.G. van der Wiel, J. Phys. D: Appl. Phys. 40, R205-R228 (2007)
30. Surface acoustic wave induced transport in a double quantum dot
W.J.M. Naber, T. Fujisawa, H.W. Liu and W.G. van der Wiel, Phys. Rev. Lett. 96, 136807 (2006)
29. Semiconductor quantum dots for electron spin qubits
W.G. van der Wiel, M. Stopa, T. Kodera, T. Hatano and S. Tarucha, New J. Phys. 8, 28 (2006)
28. Coherent single electron spin control in a slanting Zeeman field
Y. Tokura, W.G. van der Wiel, T. Obata and S. Tarucha, Phys. Rev. Lett. 96, 047202 (2006)
27. Kondo effects in quantum dots
S. Tarucha, S. Sasaki and W.G. van der Wiel, Journal of the Physical Society of Japan 60-2, 110-118 (2005)
26. Electron spin redistribution in a Kondo quantum dot in the low-magnetic-field regime
W.G. van der Wiel, M. Stopa, S. De Franceschi, L.P. Kouwenhoven and S. Tarucha, Physica E 22, 538 (2004)
25. High-frequency manipulation of few-electron double quantum dotstoward spin qubits
T. Kodera, W.G. van der Wiel, K. Ono, S. Sasaki, T. Fujisawa and S. Tarucha, Physica E 22, 518 (2004)
24. Magnetically Induced Chessboard Pattern in the Conductance of a Kondo Quantum Dot
M. Stopa, W.G. van der Wiel, S. De Franceschi, S. Tarucha and L.P. Kouwenhoven, Phys. Rev. Lett. 91, 046601 (2003)
23. Electro-magnetic Aharonov-Bohm effect in a 2-D electron gas ring
W.G. van der Wiel, Yu.V. Nazarov, S. De Franceschi, T. Fujisawa, J.M. Elzerman, E.W.G.M. Huizeling, S. Tarucha and L.P. Kouwenhoven
Phys. Rev. B 67, 033307 (2003)
22. Electron transport through double quantum dots
W.G. van der Wiel, S. De Franceschi, J.M. Elzerman, T. Fujisawa, S. Tarucha and L.P. Kouwenhoven, Rev. Mod. Phys. 75, 1 (2003)
21. Out of Equilibrium Kondo Effect in a Mesoscopic Device
S. De Franceschi, R. Hanson, W.G. van der Wiel, J. M. Elzerman, J.J. Wijpkema, T. Fujisawa, S. Tarucha and L. P. Kouwenhoven, Phys. Rev. Lett. 89, 156801 (2002)
20. Fabrication and low-temperature transport properties of selectively grown dual-gated single-electron transistors
J. Motohisa, F. Nakajima, T. Fukui, W.G. van der Wiel, J.M. Elzerman, S. De Franceschi and L.P. Kouwenhoven, Appl. Phys. Lett. 80, 2797 (2002)
19. Two-stage Kondo effect in a quantum dot at high magnetic field
W.G. van der Wiel, S. De Franceschi, J. M. Elzerman, S. Tarucha, L.P. Kouwenhoven, J. Motohisa, F. Nakajima and T. Fukui
Phys. Rev. Lett. 88, 126803 (2002)
18. Low temperature transport in dual-gated SETs fabricated by selective area metalorganic vapor phase epitaxy
J. Motohisa, W.G. van der Wiel, J.M. Elzerman, S. De Franceschi, F. Nakajima, Y. Ogasawara, T. Fukui and L.P. Kouwenhoven, Physica E 13, 687 (2002)
17. Novel Kondo Anomaly in Quantum Dots
S. Tarucha, D.G. Austing, S. Sasaki, Y. Tokura, J.M. Elzerman, W. van der Wiel, S. De Franceschi and L.P. Kouwenhoven, Materials Science and Engineering B 84, 10 (2001)
16. Spin effects in semiconductor quantum dot structures
S. Tarucha, D.G. Austing, S. Sasaki, Y. Tokura, W.G. van der Wiel, S. De Franceschi and L.P. Kouwenhoven, Physica E 10, 45 (2001)
15. A Double Quantum Dot as an Artificial Two-level System
W. G. van der Wiel, T. Fujisawa, S. Tarucha and L. P. Kouwenhoven, Jap. Journal of Appl. Phys. 40, 2100 (2001)
2000
14. The Kondo Effect in the Unitary Limit
W.G. van der Wiel, S. De Franceschi, T. Fujisawa, J.M. Elzerman, S. Tarucha and L.P. Kouwenhoven, Science 289, 2105 (2000)
13. Electron Cotunneling in a Semiconductor Quantum Dot
S. de Franceschi, S. Sasaki, J.M. Elzerman, W.G. van der Wiel, S. Tarucha and L.P. Kouwenhoven, Phys. Rev. Lett. 86, 878 (2000)
12. Effects of Coulomb interactions on spin states in vertical semiconductor quantum dots
S. Tarucha, D.G. Austing, S. Sasaki, Y. Tokura, W. van der Wiel and L.P. Kouwenhoven, Appl. Phys. A 71 367-378 (2000)
11. Kondo effect in an integer-spin quantum dot
S. Sasaki, S. De Franceschi, J.M. Elzerman, W.G. van der Wiel, M. Eto, S. Tarucha and L.P. Kouwenhoven, Nature 405, 764 (2000)
10. Direct Coulomb and exchange interaction in Artificial Atoms
S. Tarucha, D.G. Austing, Y. Tokura, W.G. van der Wiel and L.P. Kouwenhoven, Phys. Rev. Lett. 84, 2485 (2000)
9. Suppression of the Kondo Effect in a Quantum Dot by Microwave Radiation
J.M. Elzerman, S. De Franceschi, D. Goldhaber-Gordon, W.G. van der Wiel and L.P. Kouwenhoven, Jrl. of Low Temp. Phys. 118, 375 (2000)
8. Inelastic tunneling in a double quantum dot coupled to a bosonic environment
Toshimasa Fujisawa, Wilfred G. van der Wiel, Leo P. Kouwenhoven, Physica E 7, 413 (2000)
1999
7. Microwave spectroscopy of a double quantum dot in the low and high power regime
W.G. van der Wiel, T. Fujisawa, T.H. Oosterkamp and L.P. Kouwenhoven, Physica B 272/1-4, 31 (1999)
6. Elastic and inelastic single electron tunneling in coupled two dot system
S. Tarucha, T. Fujisawa, K. Ono, D.G. Austing, T.H. Oosterkamp, W.G. van der Wiel and L.P. Kouwenhoven, Microelectronic Engineering 47, 101-105 (1999)
5. Photon assisted tunneling spectroscopy on a double quantum dot
T. Fujisawa, T.H. Oosterkamp, W.G. van der Wiel, S. Tarucha and L.P. Kouwenhoven, Compound Semiconductors 1998 IOP Conf. Ser. 162, 493 (1999)
4. Electron ground states in a few-electron quantum dot
T.H. Oosterkamp, W.G. van der Wiel, L.P. Kouwenhoven, D.G. Austing, T. Honda and S. Tarucha, Festkörper Probleme / Advances in Solid State Physics 38, 139-152 (1999)
1998
3. Singlet-triplet transitions in a few-electron quantum dot
W.G. van der Wiel, T.H. Oosterkamp, J.W. Janssen, L.P.Kouwenhoven, D.G. Austing, T. Honda and S. Tarucha, Physica B 256-258, 173-177 (1998)
2. Spontaneous emission spectrum in double quantum dot devices
T. Fujisawa, T.H. Oosterkamp, W.G. van der Wiel, B.W. Broer, R. Aguado, S. Tarucha and L.P. Kouwenhoven, Science 282, 932-935 (1998)
1. Microwave spectroscopy on a quantum-dot molecule
T.H. Oosterkamp, T. Fujisawa, W.G. van der Wiel, K. Ishibashi, R.V. Hijman, S. Tarucha and L.P. Kouwenhoven, Nature 395, 873-876 (1998)
Non-refereed articles
3. Stroomopwaarts (in Dutch)
Natuurkundige voordrachten 2013-2014, Koninklijke Maatschappij voor Natuurkunde onder de zinspreuk Diligentia
2. Hybride nano-elektronica (in Dutch)
Wilfred van der Wiel, Nederlands Tijdschrift voor Natuurkunde, July 2012
1. Kondo-effect in kwantumdots (in Dutch)
Wilfred van der Wiel, Jeroen Elzerman en Leo Kouwenhoven, Natuur & Techniek, February issue, pp. 44-49 (2001)
Book chapters
4. Interactions, Spins and the Kondo Effect in Quantum-Dot Systems
S. Tarucha, K. Ono, T. Fujisawa, W.G. van der Wiel and L.P. Kouwenhoven in Electron Transport in Quantum dots, J.P. Bird (ed.), pp. 1-42, Kluwer Academic Publishers Boston/Dordrecht/London (2003)
3. Photon assisted tunneling in quantum dots
W.G. van der Wiel, T.H. Oosterkamp, S. de Franceschi, C.J.P.M. Harmans and L.P. Kouwenhoven in Strongly Correlated Fermions and Bosons in Low-Dimensional Disordered Systems, I.V. Lerner et al. (eds.), pp. 43-68, Kluwer Academic Publishers, Boston/Dordrecht/London, ISBN 1-4020-0748-5 (2002)
2. Transport through artificial Kondo impurities
S. De Franceschi, S. Sasaki, J.M. Elzerman, W.G. van der Wiel, M. Eto, S. Tarucha and L.P. Kouwenhoven in Macroscopic Quantum Coherence and Quantum Computing, D. Averin and P. Silvestrini (eds.), pp. 317-324, Kluwer Academic Plenum Publishers (2001)
1. Electron transport through quantum dots: an unusual Kondo effect
S. De Franceschi, S. Sasaki, J.M. Elzerman, W.G. van der Wiel, M. Eto, S. Tarucha and L.P. Kouwenhoven in Proceedings of the NATO Advanced Research Workshop on Size Dependent Magnetic Scattering, Pecs, Hungary, pp. 153-161, Kluwer Academic Publishers, Boston/Dordrecht/London, ISBN 1-4020-0400-1 (2001)
Patents
| Patent number | Date |
1.Photocatalytic water splitting | EP2407419 A1 WO 2012/008838 | January18, 2012 January19, 2012 |
2.Method for manufacturing a multilayer structure with a lateral pattern for application in the xuv wavelength range, and bf and lmag structures manufactured according to this method. | WO 2011/071380 EP2510397 A1 | June 16, 2011 October 17, 2012 |