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Journal Article (56)

  1. 41.
    Sánchez, S.; Soler, L.; Katuri, J.: Chemically Powered Micro‐and Nanomotors. Angewandte Chemie, International Edition 54 (5), pp. 1414 - 1444 (2015)
  2. 42.
    Wang, L.; Sanchez, S.: Self-Assembly via Microfluidics. Lab on a Chip (2015)
  3. 43.
    Giuducatti, S.; Marz, S. M.; Soler, L.; Madani, A.; Jorgensen, M. R.; Sanchez, S.; Schmidt, O. G.: Photoactive rolled-up TiO2 microtubes: fabrition, characterization and applications. Journal of Materials Chemistry C: Materials for Optical and Electronic Devices, pp. 5892 - 5901 (2014)
  4. 44.
    Khalil, I. S. M.; Magdanz, V.; Sanchez, S.; Schmidt, O. G.; Misra, S.: Wireless Magnetic-Based Closed-Loop Control of Self-Propelled Microjets. PLoS One (2014)
  5. 45.
    Khalil, I. S. M.; Magdanz, V.; Sanchez, S.; Schmidt, O. G.; Misra, S.: Biocompatible, accurate, and fully autonomous: a sperm-driven micro-bio-robot. Journal of Micro-Bio Robotics 9 (3-4), pp. 79 - 86 (2014)
  6. 46.
    Magdanz, V.; Stoychev, G.; Ionov, L.; Sanchez, S.; Schmidt, O. G.: Stimuli-Responsive Microjets with Reconfigurable Shape. Angewandte Chemie International Edition: a journal of the Gesellschaft Deutscher Chemiker 53, pp. 2673 - 2677 (2014)
  7. 47.
    Magdanz, V.; Sanchez, S.; Schmidt, O. G.; Khalil, I. S. M.; Misra, S.: Control of Self-Propelled Microjets Inside a Microchannel With Time-Varying Flow Rates. IEEE Transactions on Robotics and Automation, pp. 49 - 58 (2014)
  8. 48.
    Martinez-Cisneros, C. S.; Sanchez, S.; Schmidt, O. G.; Xi, W.: Ultracompact Three-Dimensional Tubular Conductivity Microsensors for Ionic and Biosensing Applications. Nano Letters, pp. 2219 - 2224 (2014)
  9. 49.
    Restrepo-Pérez, L.; Soler, L.; Martínez-Cisneros, C. S.; Sanchez, S.; Schmidt, O. G.: Trapping self-propelled micromotors with microfabricated chevron and heart-shaped chips. Lab on a Chip 14 (9), pp. 1515 - 1518 (2014)
  10. 50.
    Simmchen, J.; Magdanz, V.; Sanchez, S.; Chokmaviroj, S.; Ruiz-Molina, D.; Baeza, A.; Schmidt, O. G.: Effect of surfactants on the performance of tubular and spherical micromotors – a comparative study. RSC Advances 4 (39), pp. 20334 - 20340 (2014)
  11. 51.
    Soler, L.; Sanchez, S.: Catalytic nanomotors for environmental monitoring and water remediation. Nanoscale 6 (13), pp. 7175 - 7182 (2014)
  12. 52.
    Xi, W.; Schmidt, C. K.; Sanchez, S.; Gracias, D. H.; Carazo-Salas, R. E.; Jackson, S. P.; Schmidt, O. G.: Rolled-up Functionalized Nanomembranes as Three-Dimensional Cavities for Single Cell Studies. Nano Letters 14 (2), pp. 4197 - 4204 (2014)
  13. 53.
    Xi, W.; Schmidt, C.; Sanchez, S.; Gracias, D.; Carazo-Salas, R.; Jackson, S.; Schmidt, O. G.: Rolled-up Functionalized Nanomembranes as Three-Dimensional Cavities for Single Cell Studies. Nano Letters 14 (8), pp. 4197 - 4204 (2014)
  14. 54.
    Magdanz, V.; Fomin, V. M.; Soler, L.; Sanchez, S.; Schmidt, O. G.; Hippler, M.: Propulsion Mechanism of Catalytic Microjet Engines. IEEE Transactions on Robotics and Automation, pp. 40 - 48 (2013)
  15. 55.
    Soler, L.; Martínez-Cisneros, C.; Swiersy, A.; Sanchez, S.; Schmidt, O. G.: Thermal activation of catalytic microjets in blood samples using microfluidic chips. Lab on a Chip 13, pp. 4299 - 4303 (2013)
  16. 56.
    Soler, L.; Magdanz, V.; Fomin, V. M.; Sanchez, S.; Schmidt, O. G.: Self-Propelled Micromotors for Cleaning Polluted Watter. ACS Nano 11, pp. 9611 - 9620 (2013)

Conference Paper (1)

  1. 57.
    Sanchez, S.; Wang, X.; Solovev, A. A.; Soler, L.; Magdanz, V.; Schmidt, O. G.: Tubular micro- nanorobots: smart design for bio-related applications. In: Small-Scale Robotics., pp. 16 - 27 (Eds. Paprotny, I.; Bergbreiter, S.). Small-Scale Robotics. From Nano-to-Millimeter-Sized Robotic Systems and Applications. First International Workshop at ICRA 2013, Karlsruhe, May 06, 2013. Springer, Berlin - Heidelberg (2014)

Issue (1)

  1. 58.
    Paxton, W.; Sanchez, S.; Nitta, T. (Eds.): Micro- and Nanomachines (Special issue). IEEE Transactions on Nanobioscience 14 (3) (2015), 74 pp.
 
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