NANOMOTOR RELATED PAPERS
Liuyang Zhang, Lu Zhu, Steven R. Larson, Yiping Zhao, and Xianqiao Wang, "Layer-by-layer assembly of nanorods on a microsphere via electrostatic interactions," Soft Matter, DOI 10.1039/C8SM00062J (2018).
Liuyang Zhang, Yiping Zhao, and Xianqiao Wang, "Nanoparticle-Mediated Mechanical Destruction of Cell Membranes: A Coarse-Grained Molecular Dynamics Study," ACS Appl. Mater. Interfaces 9, 26665 - 26673 (2017).
Weijie Huang, Fengchang Yang, Lu Zhu, Rui Qiao, and Yiping Zhao, "Manipulation of magnetic nanorod clusters in liquid by non-uniform alternating magnetic fields," Soft Matter 13, 3750 - 3759 (2017).
Fengchang Yang, Manoj Manjare, Yiping Zhao, Rui Qiao, “On the Peculiar Bubble Formation, Growth, and Collapse Behaviors in Catalytic Micromotor Systems,” Microfluidics and Nanofluidics 21, 1-11 (2017).
Rui Cheng, Lu Zhu, Weijie Huang, Leidong Mao, and Yiping Zhao, "Dynamic scaling of ferromagnetic micro-rod clusters under a weak magnetic field," Soft Matter 12, 8440-8447 (2016).
Fengchang Yang, Shizhi Qian, Yiping Zhao, and Rui Qiao, "Self-diffusiophoresis of Janus catalytic micromotors in confined geometries," Langmuir 32, 5580 - 5592 (2016).
Jiangnan Hu, Weijie Huang, Shengwei Huang , Qichuan ZhuGe, Kunlin Jin, and Yiping Zhao, "Magnetically active Fe3O4nanorods loaded with tissue Plasminogen activator for enhanced thrombolysis," Nano Research 9, 2652 - 2661 (2016).
Manoj Manjare, Fengchang Yang, Rui Qiao, Yiping Zhao, "Marangoni flow induced collective motion of catalytic micromotors," Journal of Physical Chemistry C 119, 28361-28367 (2015).
Y.-T. Wu, B. Yang, and Y.-P. Zhao, “Thermophoresis of aerosol particles in near-critical vapor: An inverse size effect,” Appl. Phys. Lett. 106, 251605 (2015).
Rui Cheng, Weijie Huang, Lijie Huang, Bo Yang, Leidong Mao, Kunlin Jin, Qichuan Zhuge, and Yiping Zhao, "Acceleration of tissue plasminogen activator mediated thrombolysis by magnetically powered nanomotors," ACS Nano 8, 7746–7754 (2014).
H. Jiang, Y. T. Wu, Y.-P. Zhao, and B. Yang, "Force-moment line element method for Stokes flow around a slender body," Engineering Analysis with Boundary Elements 44, 120–129 (2014).
Manoj Manjare, Yuan Ting Wu, Bo Yang, and Yiping Zhao, "Hydrophobic catalytic Janus motors: slip boundary condition and enhanced catalytic reaction rate," Appl. Phys. Lett. 104, 054102 (2014).
Weijie Huang, Manoj Manjare, and Yiping Zhao, "Catalytic nanoshell micromotors," J. Phys. Chem. C 117, 21590–21596 (2013).
Manoj Manjare, Bo Yang, and Yiping Zhao, "Bubble Propelled Microjets: Model and Experiment," J. Phys. Chem. C 117, 4657-4665 (2013).
Manoj Manjare, Bo Yang, and Y.-P. Zhao, "Bubble driven quasi-oscillatory translational motion of catalytic micromotors," Phys. Rev. Lett. 109, 128305 (2012).
Kun Yao, Manoj Manjare, Christopher Barrett, Bo Yang, Tina Salguero, Yiping Zhao, "Nanostructured scrolls from graphene oxide for microjet engines," J. Phys. Chem. Lett. 3, 2204-2208 (2012).
John Gibbs, Shrenik Kothari, David Saintillan, and Yiping Zhao, "Geometrically designing the kinematic behavior of catalytic nanomotors," Nano Letters 11, 2543–2550 (2011).
John G. Gibbs and Yiping Zhao, "Catalytic nanomotors: fabrication, mechanism, and applications," Frontiers of Materials Science 5, 25-39 (2011).
John G. Gibbs, Nicholas A. Fragnito, and Yiping Zhao, “Asymmetric Pt/Au coated catalytic micromotors fabricated by dynamic shadowing growth,” Appl. Phys. Lett. 97, 253107 (2010).
J. Gibbs and Y.-P. Zhao, "Self-organized multi-constituent catalytic nanomotors," Small 6, 1656–1662 (2010).
J. Gibbs and Y.-P. Zhao, “Design and characterization of rotational multicomponent catalytic nanomotors,” Small 5, 2304-2308 (2009).
J. Gibbs and Y.-P. Zhao, “Autonomously motile catalytic nanomotors by bubble propulsion,” Appl. Phys. Lett. 94, 163104 (2009).
J. G. Gibbs and Y.-P. Zhao, “Measurement of driving force of catalytic nanomotors in dilute hydrogen peroxide by torsion balance ,” Rev. Sci. Instrum. 79, 086108 (2008).
J.-X. Fu, Y.-P. Zhao, and J.-S. Wu, “Rotation of Cu nanorods during growth,” J. Phys. Chem. C 112, 5459–5462 (2008).