Page 529 - Handbook of Biomechatronics
P. 529
522 Ahmet Fatih Tabak
Park, S.J., Bae, H., Kim, J., Lim, B., Park, J., Park, S., 2010. Motility enhancement of bacteria
actuated microstructures using selective bacteria adhesion. Lab Chip 10 (13), 1706–1711.
Peppas, N.A., Huang, Y., Torres-Lugo, M., Ward, J.H., Zhang, J., 2000. Physicochemical
foundations and structural design of hydrogels in medicine and biology. Annu. Rev.
Biomed. Eng 2, 9–29.
Petruska, A.J., Edelmann, J., Nelson, B.J., 2017. Model-based calibration for magnetic
manipulation. IEEE Trans. Magn. 53 (7), 1–6.
Phan-Thien, N., Tran-Cong, T., Ramia, M., 1987. A boundary-element analysis of flagellar
propulsion. J. Fluid Mech. 184, 533–549.
Piefort, V., 2001. Finite Element Modelling of Piezoelectric Active Structures. (Ph.D. dis-
sertation)Faculty of Applied Sciences, Universit Libre De Bruxelles.
e
Polin, M., Tuval, I., Drescher, K., Gollub, J.P., Goldstein, R.E., 2009. Chlamydomonas swims
with two “gears” in a eukaryotic version of run-and-tumble locomotion. Science
325 (5939), 487–490.
Preumont, A., 2006. Mechatronics: Dynamics of Electromechanical and Piezoelectric Sys-
tems. Springer, Dordrecht, Netherlands (Chapters 4 and 5).
Probstein, R.F., 2003. Physicochemical Hydrodynamics. Wiley-Interscience, NJ, USA
(Chapter 2).
Purcell, E.M., 1977. Life at low Reynolds number. Am. J. Phys 45 (3), 3–11.
Purcell, E.M., 1997. The efficiency of propulsion by a rotating flagellum. Proc. Natl. Acad.
Sci. U. S. A. 94, 11307–11311.
Remes, A., Williams, D.F., 1992. Immune response in biocompatibility. Biomaterials
13 (11), 731–743.
Roper, M., Dreyfus, R., Baudry, J., Fermigier, M., Bibette, J., Stone, H.A., 2006. On the
dynamics of magnetically driven elastic filaments. J. Fluid Mech. 554, 167–190.
Rusu, M., Ursu, M., Rusu, D., 2006. Poly(vinyl chloride) and poly(e-caprolactone) blends
for medical use. J. Thermoplast. Compos. Mater. 19, 173–190.
Sadelli, L., Fruchard, M., Ferreira, A., 2017. 2D observer-based control of a vascular micro-
robot. IEEE Trans. Autom. Control 62 (5), 2194–2206.
Saito, M., Kitamura, N., Terauchi, M., 2002. Ultrasonic manipulation of locomotive micro-
organisms and evaluation of their activity. J. Appl. Phys. 92 (12), 7581.
Sakar, M.S., Steager, E.B., Kim, D.H., Julius, A.A., Kim, M.-J., Kumar, V., Pappas, G.J.,
2011. Modeling, control and experimental characterization of microrobots. Int. J.
Robot. Res. 30 (6), 647–658.
Salvagnini, C., Michaux, C., Remiche, J., Wouters, J., Charlier, P., Marchand-Brynaert, J.,
2005. Design, synthesis and evaluation of graftable thrombin inhibitors for the prepara-
tion of blood-compatible polymer materials. Organ. Biomol. Chem. 3 (23), 4209–4220.
Schaefer, D., Martin, I., Jundt, G., Seidel, J., Heberer, M., Grodzinsky, A., Bergin, I.,
Vunjak-Novakovic, G., Freed, L.E., 2002. Tissue-engineered composites for the repair
of large osteochondral defects. Arthritis Rheumatol. 46 (9), 2524–2534.
Servant, A., Qiu, F., Mazza, M., Kostarelos, K., Nelson, B.J., 2015. Controlled in vivo swim-
ming of a swarm of bacteria-like microrobotic flagella. Adv. Mater. 27 (19), 2981–2988.
Shi, J., Kundrat, L., Pishesha, N., Bilate, A., Theile, C., Maruyama, T., Dougan, S.K.,
Ploegh, H.L., Lodish, H.F., 2014. Engineered red blood cells as carriers for systematic
delivery of a wide array of functional probes. Proc. Natl. Acad. Sci. U. S. A.
111 (28), 10131–10136.
Shum, H., Gaffney, E.A., Smith, D.J., 2010. Modelling bacterial behaviour close to a no-slip
plane boundary: the influence of bacterial geometry. Proc. R. Soc. Lond. A 466 (8),
1725–1748.
Spagnolie, S.E., Lauga, E., 2010. The optimal elastic flagellum. Phys. Fluids 22 (3), 031901.
Spong, M.W., Vidyasagar, M., 1989. Robot Dynamics and Control. John Wiley & Sons,
NY, USA (Chapter 9).
