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Author Title [ Type(Desc)] Year
Book Chapter
Shklyaev, O.E., Shum, H. & Balazs, A.C. Achieving self-sustained motion of particles in solution with chemical pumps. Robotic Systems and Autonomous Platforms 223-249 (2019).at <https://www.sciencedirect.com/science/article/pii/B978008102260300010X>
Shum, H. & Gaffney, E.A. Mathematical models for individual swimming bacteria. Microbiorobotics: Biologically Inspired Microscale Robotic Systems 29-54 (2012).at <http://www.sciencedirect.com/science/article/pii/B9781455778911000025>
Journal Article
Nourian, V. & Shum, H. Modeling of uniflagellated bacterial locomotion in unbounded fluid and near a no-slip plane surface. (Submitted).at <https://arxiv.org/abs/2307.00223>
Ghadami, S. & Shum, H. Designing a magnetic micro-robot for transporting stiff filamentous microcargo. Physics of Fluids 36, 081908 (2024). Ghadami Shum 2024 - Designing a magnetic micro-robot.pdf
Huffman, A. & Shum, H. Boundary-bound reactions: Pattern formation with and without hydrodynamics. Physical Review E 108, 055103 (2023). Huffman Shum 2023 - Boundary-bound reactions preprint.pdf
Nourian, V. & Shum, H. A numerical method for the locomotion of bi-flagellated bacteria in viscous fluid. Flow 3, E4 (2023). a-numerical-method-for-the-locomotion-of-bi-flagellated-bacteria-in-viscous-fluid.pdf
Marchello, R., Morandotti, M., Shum, H. & Zoppello, M. The N-link swimmer in three dimensions: controllability and optimality results. Acta Applicandae Mathematicae 178, 6 (2022).
Tokárová, V. et al. Patterns of bacterial motility in microfluidics-confining environments. Proceedings of the National Academy of Sciences of the United States of America 118, 17, e2013925118 (2021).
Baker, R. et al. Fight the flow: the role of shear in artificial rheotaxis for individual and collective motion. Nanoscale 11, 10944-10951 (2019).
Shum, H. Microswimmer propulsion by two steadily rotating helical flagella. Micromachines 10, 1, 65 (2019).
Shklyaev, O.E., Shum, H. & Balazs, A.C. Using chemical pumps and motors to design flows for directed particle assembly. Accounts of Chemical Research 51, 11, 2672-2680 (2018).
Shum, H. & Balazs, A.C. Flow-driven assembly of microcapsules into three-dimensional towers. Langmuir 34, 8, 2890-2899 (2018).
Shum, H. & Yeomans, J.M. Entrainment and scattering in microswimmer-colloid interactions. Physical Review Fluids 2, 11, 113101 (2017). shum_and_yeomans_-_2017_-_entrainment_and_scattering_in_microswimmer-colloid.pdf
Shklyaev, O., Shum, H., Yashin, V.V. & Balazs, A.C. Convective self-sustained motion in mixtures of chemically active and passive particles. Langmuir 33, 32, 7873-7880 (2017).
Das, S. et al. Harnessing catalytic pumps for directional delivery of microparticles in microchambers. Nature Communications 8, 14384 (2017). das_et_al_2017_-_harnessing_catalytic_pumps_for_directional_delivery_of_microparticles_in_microchambers.pdf
Valdez, L., Shum, H., Ortiz-Rivera, I., Balazs, A.C. & Sen, A. Solutal and thermal buoyancy effects in self-powered phosphatase micropumps. Soft Matter 13, 15, 2800-2807 (2017).
Shum, H. & Balazs, A.C. Synthetic quorum sensing in model microcapsule colonies. Proceedings of the National Academy of Sciences of the United States of America 114, 32, 8475-8480 (2017). shum_and_balazs_-_2017_-_synthetic_quorum_sensing_in_model_microcapsule_col.pdf
Ortiz-Rivera, I., Shum, H., Agrawal, A., Sen, A. & Balazs, A.C. Convective flow reversal in self-powered enzyme micropumps. Proceedings of the National Academy of Sciences of the United States of America 113, 10, 2585-2590 (2016). ortiz-rivera_et_al._-_2016_-_convective_flow_reversal_in_self-powered_enzyme_mi.pdf
Shklyaev, O.E., Shum, H., Sen, A. & Balazs, A.C. Harnessing surface-bound enzymatic reactions to organize microcapsules in solution. Science Advances 2, 3, e1501835 (2016). shklyaev_et_al._-_2016_-_harnessing_surface-bound_enzymatic_reactions_to_or.pdf
Shum, H. & Gaffney, E.A. Hydrodynamic analysis of flagellated bacteria swimming in corners of rectangular channels. Physical Review E 92, 6, 063016 (2015). shum_gaffney_2015_-_hydrodynamic_analysis_of_flagellated_bacteria_swimming_in_corners_of_rectangular_channels.pdf

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