Publications 2013

  1. Manipulating the self assembly of colloids in electric fields
    A. van Blaaderen, M. Dijkstra , R. van Roij, A. Imhof, M. Kamp, B.W. Kwaadgras, T. Vissers and B. Liu, European Physical Journal Special Topics 222, 2895-2909 (2013). DOI: 10.1140/epjst/e2013-02065-0.
  2. Stability and viscoelasticity of magneto-Pickering foams
    E. Blanco, S. Lam, S.K. Smoukov, K.P. Velikov, S.A. Khan and O.D. Velev, Langmuir 29, 10019-10027 (2013). DOI: 10.1021/la4014224. Supporting information: PDFAVI 1AVI 2AVI 3AVI 4.
  3. Polymer-based optical interconnects using nanoimprint lithography
    A. Boersma, S. Wiegersma, B.J. Offrein, J. Duis, J. Delis, M. Ortsiefer, G. van Steenberge, M. Karpinen, A. van Blaaderen and B. Corbett, Proceedings of SPIE – Optoelectronic interconnects 8630 (2013). DOI: 10.1117/12.2001498.
  4. Electron Tomography Resolves a Novel Crystal Structure in a Binary Nanocrystal Superlattice
    M. Boneschanscher, W. Evers, W. Qi, H. Meeldijk, M. Dijkstra and D. Vanmaekelbergh, Nano Letters 13, 1312-1316 (2013). DOI: 10.1021/nl400100c. Supporting information: PDFMPG 1MPG 2, MPG 3MPG 4MPG 5MPG 6.
  5. In situ hard X-ray microscopy of self-assembly in colloidal suspensions
    D.V. Byelov, J.M. Meijer, I. Snigireva, A. Snigirev, L. Rossi, E. van den Pol, A. Kuijk, A. Philipse, A. Imhof, A. van Blaaderen, G. J. Vroege and A. V. Petukhov, RSC Advances 3, 15670-15677 (2013). DOI: 10.1039/C3RA41223G. Supporting information: PDF.
  6. Phase diagrams of shape-anisotropic colloidal particles
    M. Dijkstra, Proceedings of the International School of Physics “Enrico Fermi” Course CLXXXIV “Physics of Complex Colloids”, edited by C. Bechinger, F. Sciortino and P. Ziherl (IOS, Amsterdam; SIF, Bologna) 2013. DOI: 10.3254/978-1-61499-278-3-229.
  7. Flow-induced particle migration in microchannels for improved microfiltration processes
    A.M.C. van Dinther, C.G.P.H. Schroën, A. Imhof, H.M. Vollebregt and R.M. Boom, Microfluidics and Nanofluidics 15, 451-465 (2013). DOI: 10.1007/s10404-013-1158-0.
  8. Low-Dimensional Semiconductor Superlattices Formed by Geometric Control over Nanocrystal Attachment
    W.H. Evers, B. Goris, S. Bals, M. Casavola, J. de Graaf, R. van Roij, M. Dijkstra and D. Vanmaekelbergh, Nanoletters 13, 2317 (2013). DOI: 10.1021/nl303322kPdf 1Pdf 2.
  9. From Sphere to Multipod: Thermally Induced Transitions of CdSe Nanocrystals Studied by Molecular Dynamics Simulations
    Z. Fan, A. O. Yalcin, F. D. Tichelaar, H. W. Zandbergen, E. Talgorn, A. J. Houtepen, T. J. H. Vlugt, and M. A. van Huis, Journal of the American Chemical Society 135, 5869 (2013). DOI: 10.1021/ja401406q. Supporting information: PDFAVI 1AVI 2.
  10. Phase Diagram and Structural Diversity of a Family of Truncated Cubes: Degenerate Close-Packed Structures and Vacancy-Rich States
    A.P. Gantapara, J. de Graaf, R. van Roij and M. Dijkstra, Physical Review Letters 111, 015501 (2013). DOI: 10.1103/PhysRevLett.111.015501. Supporting information: PDFMP4.
  11. Dispersions of attractive semiflexible fiber-like colloidal particles from bacterial cellulose microfibrils
    A. Kuijk, R. Koppert, P. Versluis, G. van Dalen, C. Remijn, J. Hazekamp, J. Nijsse and K.P. Velikov, Langmuir 29, 14356-14360 (2013). DOI: 10.1021/la403397d. Supporting information: PDF.
  12. Can nonadditive dispersion forces explain chain formation of nanoparticles?
    B.W. Kwaadgras, M.W.J. Verdult, M. Dijkstra and R. van Roij, The Journal of Chemical Physics 138, 104308 (2013). DOI: 10.1063/1.4792137.
  13. Effect of size polydispersity on the crystal-fluid and crystal-glass transition in hard-core repulsive Yukawa systems
    M.N. van der Linden, A. van Blaaderen and M. Dijkstra, The Journal of Chemical Physics 138, 114903 (2013). DOI: 10.1063/1.4794918.
  14. Expansion of charged colloids after centrifugation: formation and crystallisation of long-range repulsive glasses
    M.N. van der Linden, D. El Masri, M. Dijkstra and A. van Blaaderen, Soft Matter 9, 11618-11633 (2013). DOI: 10.1039/C3SM51752G. Supporting information: AVI 1AVI 2AVI 3AVI 4.
  15. Phase diagram of hard asymmetric dumbbell particles
    K. Milinkovic, M. Dennison and M. Dijkstra, Physical Review E 87, 032128 (2013). DOI: 10.1103/PhysRevE.87.032128.
  16. Effect of bond length fluctuations on crystal nucleation of hard bead chains
    R. Ni and M. Dijkstra, Soft Matter 9, 365-369 (2013). DOI: 10.1039/C2SM26969D. Supporting Info: Pdf.
  17. Pushing the glass transition towards random close packing using self-propelled hard sphere
    R. Ni, M. A. Cohen Stuart, and M. Dijkstra, Nature Communications 4, 2704 (2013). DOI: 10.1038/ncomms3704. Supporting information: AVI 1AVI 2.
  18. Fabrication and characterization of emulsions with pH responsive switchable behavior
    A.R. Patel, E. Drost, J. Seijen ten Hoorna and K.P. Velikov, Soft Matter 9, 6747-6751 (2013). DOI: 10.1039/C3SM27900F. Supporting information: PDF.
  19. Colloidal approach to prepare colour blends from colourants with different solubility profiles
    A.R. Patel, P.C.M. Heussen, E. Dorst, J. Hazekamp and K.P. Velikov, Food Chemistry 141, 1466-1471 (2013). DOI: 10.1016/j.foodchem.2013.03.082. Supporting information: DOC.
  20. Novel all-natural microcapsules from gelatin and shellac for biorelated applications
    A.R. Patel, C. Remijn, A.I. Mulet Cabero, P.C.M. Heussen, J.W.M. Seijen ten Hoorn and K.P. Velikov, Advanced Functional Materials 23, 4710-4718 (2013). DOI: 10.1002/adfm.201300320. Supporting information: PDF.
  21. Colloidal Clusters by Using Emulsions and Dumbbell-Shaped Particles: Experiments and Simulations
    B. Peng, F. Smallenburg, A. Imhof, M. Dijkstra and A. van Blaaderen, Angewandte Chemie International Edition 52, 6709-6712 (2013). DOI: 10.1002/anie.201301520.  Supporting information: PDF.
  22. Direct Observation of the Formation of Liquid Protrusions on Polymer Colloids and their Coalescence
    B. Peng, A. van Blaaderen and A. Imhof, ACS Applied Materials & Interfaces 5, 4277-4284 (2013). DOI: 10.1021/am400490h. Supporting information: PDFAVI.
  23. Phase diagram of octapod-shaped nanocrystals in a quasi-two-dimensional planar geometry
    W. Qi, J. de Graaf, F. Qiao, S. Marras, L. Manna and M. Dijkstra, The Journal of Chemical Physics 138, 154504 (2013). DOI: 10.1063/1.4799269. Supporting information: MP4.
  24. General Route Towards Chemically Anisotropic Colloids
    B.G.P. van Ravensteijn, M. Kamp, A. van Blaaderen and W.K. Kegel, Chemistry of Materials 25, 4348-4353 (2013). DOI: 10.1021/cm4025606. Supporting information: PDF.
  25. Amyloids: From molecular structure to mechanical properties
    M. Schleeger, C.C. van den Akker, T. Deckert-Gaudig, V. Deckert, K.P. Velikov, G. Koenderink and M. Bonn, Polymer 54, 2473-2488 (2013). DOI: 10.1016/j.polymer.2013.02.029.
  26. Two-Photon Photoemission Study of Competing Auger and Surface-Mediated Relaxation of Hot Electrons in CdSe Quantum Dot Solids. 
    P. Sippel, W. Albrecht, D. Mitoraj, R. Eichberger, T. Hannappel and D. Vanmaekelbergh, Nano Letters. 13 (4), 1655-1661 (2013). DOI: 10.1021/nl400113t. Supporting information: PDF.
  27. Predicting crystals of Janus colloids
    T. Vissers, Z. Preisler, F. Smallenburg, M. Dijkstra and F. Sciortino, The Journal of Chemical Physics 138, 164505 (2013). DOI: 10.1063/1.4801438.
  28. Fuel concentration dependent movement of supramolecular catalytic nanomotors
    D.A. Wilson, B. de Nijs, A. van Blaaderen, R.J.M. Nolte and J.C.M. van Hest, Nanoscale 5, 1315 (2013). DOI: 10.1039/C2NR32976J. Supporting information: PDF.
  29. Study of colloids transport during two-phase flow using a novel polydimethylsiloxane micro-model
    Q. Zhang, N.K. Karadimitriou, S.M. Hassanizadeh, P.J. Kleingeld and A. Imhof, Journal of Colloid and Interface Science 401, 141-147 (2013). DOI: 10.1016/j.jcis.2013.02.041. Supporting information: AVI 1AVI 2.
  30. Retention and remobilization of colloids during steady-state and transient two-phase flow
    Q. Zhang, S.M. Hassanizadeh, N.K. Karadimitriou, A. Raoof, B. Liu, P.J. Kleingeld and A. Imhof, Water Resources Research 49, 8005-8016 (2013). DOI: 10.1002/2013WR014345.  Supporting information: AVI 1AVI 2AVI 3AVI 4.