S. J. Ebbens and J. R. Howse, Soft Matter, vol.6, p.726, 2010.

E. Lauga and T. R. Powers, The hydrodynamics of swimming microorganisms, Rep. Prog. Phys, vol.72, 2009.

Y. Hong, D. Velegol, N. Chaturvedi, and A. Sen, Biomimetic behavior of synthetic particles: from microscopic randomness to macroscopic control, Phys. Chem. Chem. Phys, vol.12, p.1423, 2010.

E. M. Purcell, Life at low Reynolds number, American Journal of Physics, vol.45, p.3, 1977.

E. Lauga, Bacterial hydrodynamics, Annu. Rev. Fluid Mech, vol.48, p.105, 2016.

B. M. Friedrich, I. H. Riedel-kruse, J. Howard, and F. Jülicher, High-precision tracking of sperm swimming fine structure provides strong test of resistive force theory, Journal of Experimental Biology, vol.213, p.1226, 2010.

S. L. Tamm and G. A. Horridge, The relation between the orientation of the central fibrils and the direction of beat in cilia of opalina, Proc. R. Soc. Lond. B, vol.175, p.219, 1970.

R. Dreyfus, J. Baudry, M. L. Roper, M. Fermigier, H. A. Stone et al., Microscopic artificial swimmers, Nature, 2005.
URL : https://hal.archives-ouvertes.fr/hal-02106273

W. Gao, S. Sattayasamitsathit, K. M. Manesh, D. Weihs, and J. Wang, Magnetically powered flexible metal nanowire motors, Journal of the American Chemical Society, vol.132, p.14403, 2010.

J. L. Anderson, Colloid Transport by Interfacial Forces, vol.21, p.61, 1989.

J. Palacci, C. Cottin-bizonne, C. Ybert, and L. Bocquet, Sedimentation and effective temperature of active colloidal suspensions, Phys. Rev. Lett, vol.105, p.88304, 2010.
URL : https://hal.archives-ouvertes.fr/hal-01628773

I. Theurkauff, C. Cottin-bizonne, J. Palacci, C. Ybert, and L. Bocquet, Dynamic Clustering in Active Colloidal Suspensions with Chemical Signaling, Phys. Rev. Lett, vol.108, p.268303, 2012.
URL : https://hal.archives-ouvertes.fr/hal-01628778

J. R. Howse, R. A. Jones, A. J. Ryan, T. Gough, R. Vafabakhsh et al., Self-motile colloidal particles: From directed propulsion to random walk, Phys. Rev. Lett, vol.99, p.48102, 2007.

T. Toyota, N. Maru, M. M. Hanczyc, T. Ikegami, and T. Sugawara, Self-propelled oil droplets consuming fuel surfactant, Journal of the American Chemical Society, vol.131, p.5012, 2009.

M. M. Hanczyc, T. Toyota, T. Ikegami, N. Packard, and T. Sugawara, Fatty acid chemistry at the oil-water interface: Self-propelled oil droplets, Journal of the American Chemical Society, vol.129, p.9386, 2007.

S. Thutupalli, R. Seemann, and S. Herminghaus, Swarming behavior of simple model squirmers, New Journal of Physics, vol.13, p.73021, 2011.

Z. Izri, M. N. Van-der-linden, S. Michelin, and O. Dauchot, Self-propulsion of pure water droplets by spontaneous marangoni-stress-driven motion, Phys. Rev. Lett, vol.113, p.248302, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01114975

S. Herminghaus, C. C. Maass, C. Krger, S. Thutupalli, L. Goehring et al., Interfacial mechanisms in active emulsions, Soft Matter, vol.10, p.7008, 2014.

G. Miño, T. E. Mallouk, T. Darnige, M. Hoyos, J. Dauchet et al., , 2010.

C. C. Maass, C. Krüger, S. Herminghaus, C. Bahr, and S. Droplets, Annual Review of Condensed Matter Physics, vol.7, p.171, 2016.

D. B. Weibel, P. Garstecki, D. Ryan, W. R. Diluzio, M. Mayer et al., Microoxen: Microorganisms to move microscale loads, Proceedings of the National Academy of Sciences, vol.102, p.11963, 2005.

N. Koumakis, A. Lepore, C. Maggi, and R. D. Leonardo, Targeted delivery of colloids by swimming bacteria, Nat. Commun, 2013.

M. J. Lighthill, On the squirming motion of nearly spherical deformable bodies through liquids at very small reynolds numbers, Commun. Pure Appl. Math, 1952.

J. R. Blake, A spherical envelope approach to ciliary propulsion, Journal of Fluid Mechanics, vol.46, 1971.

O. S. Pak and E. Lauga, Generalized squirming motion of a sphere, Journal of Engineering Mathematics, vol.88, p.1, 2014.

C. Bechinger, R. D. Leonardo, H. Löwen, C. Reichhardt, G. Volpe et al., Active Particles in Complex and Crowded Environments, Rev. Mod. Phys, vol.88, p.1, 2016.

P. D. Frymier, R. M. Ford, H. C. Berg, and P. T. Cummings, Three-dimensional tracking of motile bacteria near a solid planar surface, Proceedings of the National Academy of Sciences, vol.92, p.6195, 1995.

A. P. Berke, L. Turner, H. C. Berg, and E. Lauga, Hydrodynamic attraction of swimming microorganisms by surfaces, Phys. Rev. Lett, vol.101, p.38102, 2008.

A. Zöttl and H. Stark, Emergent behavior in active colloids, arXiv, 2016.

D. Takagi, J. Palacci, A. B. Braunschweig, M. J. Shelley, and J. Zhang, Hydrodynamic capture of microswimmers into sphere-bound orbits, Soft Matter, vol.10, p.1784, 2014.

G. Volpe, I. Buttinoni, D. Vogt, H. Kmmerer, and C. Bechinger, Microswimmers in patterned environments, vol.7, p.8810, 2011.

S. Das, A. Garg, A. I. Campbell, J. R. Howse, A. Sen et al., Boundaries can steer active Janus spheres, Nature Communications, vol.6, p.3383, 2015.

P. Denissenko, V. Kantsler, D. J. Smith, and J. Kirkman-brown, Human spermatozoa migration in microchannels reveals boundary-following navigation, Proceedings of the National Academy of Sciences, vol.109, p.8007, 2012.

M. S. Davies-wykes, X. Zhong, J. Tong, T. Adachi, Y. Liu et al., Guiding microscale swimmers using teardrop-shaped posts, Soft Matter, vol.13, p.4681, 2017.

R. D. Leonardo, D. Dell'arciprete, L. Angelani, and V. Iebba, Swimming with an Image, Phys. Rev. Lett, vol.106, p.38101, 2011.

W. R. Diluzio, L. Turner, M. Mayer, P. Garstecki, D. B. Weibel et al., Escherichia coli swim on the right-hand side, vol.435, p.1271, 2005.

Y. Magariyama, M. Ichiba, K. Nakata, K. Baba, T. Ohtani et al., Difference in bacterial motion between forward and backward swimming caused by the wall effect, Biophysical Journal, 2005.

K. Drescher, K. C. Leptos, I. Tuval, T. Ishikawa, T. J. Pedley et al., Dancing volvox: Hydrodynamic bound states of swimming algae, Phys. Rev. Lett, vol.102, p.168101, 2009.

C. Krüger, C. Bahr, S. Herminghaus, and C. C. Maass, Dimensionality matters in the collective behaviour of active emulsions, The European Physical Journal E, vol.39, p.64, 2016.

S. Thutupalli, D. Geyer, R. Singh, R. Adhikari, and H. A. Stone, Flow-induced phase separation of active particles is controlled by boundary conditions, Proceedings of the National Academy of Sciences, vol.115, p.5403, 2018.

H. Wioland, F. G. Woodhouse, J. Dunkel, J. O. Kessler, and R. E. Goldstein, Confinement stabilizes a bacterial suspension into a spiral vortex, Phys. Rev. Lett, vol.110, p.268102, 2013.

R. D. Leonardo, L. Angelani, D. Dell'arciprete, G. Ruocco, V. Iebba et al., Bacterial ratchet motors, Proceedings of the National Academy of Sciences, vol.107, p.9541, 2010.

J. Elgeti, R. G. Winkler, and G. Gompper, Physics of microswimmers single particle motion and collective behavior: a review, Reports on Progress in Physics, p.1, 2018.

E. Kanso and S. Michelin, Phoretic and hydrodynamic interactions of weakly confined autophoretic particles, Journal of Chemical Physics, vol.150, p.44902, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02104809

D. Papavassiliou and G. P. Alexander, The many-body reciprocal theorem and swimmer hydrodynamics, Europhysics Letters), vol.110, p.44001, 2015.

S. H. Lee, R. S. Chadwick, and L. G. Leal, Motion of a sphere in the presence of a plane interface. part 1. an approximate solution by generalization of the method of lorentz, Journal of Fluid Mechanics, vol.93, p.705726, 1979.

S. E. Spagnolie and E. Lauga, Hydrodynamics of self-propulsion near a boundary: predictions and accuracy of far-field approximations, Journal of Fluid Mechanics, vol.700, p.105147, 2012.

Y. Ibrahim and T. B. Liverpool, The dynamics of a self-phoretic Janus swimmer near a wall, Europhysics Letters), vol.111, p.48008, 2015.

M. N. Popescu, W. E. Uspal, Z. Eskandari, M. Tasinkevych, and S. Dietrich, Effective squirmer models for self-phoretic chemically active spherical colloids, The European Physical Journal E, vol.41, p.145, 2018.

A. Mozaffari, N. Sharifi-mood, J. Koplik, and C. Maldarelli, Self-diffusiophoretic colloidal propulsion near a solid boundary, Phys. Fluids, vol.28, p.53107, 2016.

K. Drescher, R. E. Goldstein, N. Michel, M. Polin, and I. Tuval, Direct measurement of the flow field around swimming microorganisms, Phys. Rev. Lett, vol.105, p.168101, 2010.

A. I. Campbell, S. J. Ebbens, P. Illien, and R. Golestanian, Experimental Observation of Flow Fields Around Active Janus Spheres, arxiv, 2018.

S. Michelin, E. Lauga, and D. Bartolo, Spontaneous autophoretic motion of isotropic particles, Physics of Fluids, vol.25, p.61701, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00996484

W. Thielicke and E. Stamhuis, Pivlab towards user-friendly, affordable and accurate digital particle image velocimetry in matlab, Journal of Open Research Software, 2014.

J. R. Blake and A. T. Chwang, Fundamental singularities of viscous flow, J. Eng. Math, 1974.

S. Michelin and E. Lauga, Autophoretic locomotion from geometric asymmetry, European Physical Journal E, vol.38, p.7, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01140759

E. Yariv, Wall-induced self-diffusiophoresis of active isotropic colloids, Physical Review Fluids, vol.1, p.32101, 2016.

N. Liron and S. Mochon, Stokes flow for a stokeslet between two parallel flat plates, Journal of Engineering Mathematics, vol.10, p.287, 1976.