Alexander A Doinikov
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Explore the profile of Alexander A Doinikov including associated specialties, affiliations and a list of published articles.
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Citations
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Recent Articles
1.
Doinikov A, Micol T, Mauger C, Blanc-Benon P, Inserra C
Micromachines (Basel)
. 2023 Aug;
14(8).
PMID: 37630151
In this paper, we consider a new bubble-based microswimmer composed of two contacting bubbles. Under the action of an acoustic field, both bubbles are oscillating, and locomotion of the two-bubble...
2.
Janiak J, Li Y, Ferry Y, Doinikov A, Ahmed D
Nat Commun
. 2023 Aug;
14(1):4705.
PMID: 37543657
Achieving controlled mobility of microparticles in viscous fluids can become pivotal in biologics, biotechniques, and biomedical applications. The self-assembly, trapping, and transport of microparticles are being explored in active matter,...
3.
Doinikov A, Fankhauser J, Dual J
Phys Rev E
. 2022 Jan;
104(6-2):065108.
PMID: 35030885
An analytical formula is derived for acoustic radiation force exerted by an axisymmetric acoustic wave on an isotropic solid spherical particle in a compressible viscoelastic fluid. The particle is assumed...
4.
Doinikov A, Fankhauser J, Dual J
Phys Rev E
. 2022 Jan;
104(6-2):065107.
PMID: 35030836
An analytical theory is developed for acoustic streaming induced by an axisymmetric acoustic wave field around an isotropic solid spherical particle in a compressible viscoelastic fluid. The particle is assumed...
5.
Regnault G, Mauger C, Blanc-Benon P, Doinikov A, Inserra C
J Acoust Soc Am
. 2021 Sep;
150(2):1188.
PMID: 34470320
In this study, we report recent theoretical and experimental developments dealing with the axisymmetric flow surrounding non-spherically oscillating microbubbles. A wide variety of microstreaming patterns is revealed using a theoretical...
6.
Inserra C, Regnault G, Cleve S, Mauger C, Doinikov A
Phys Rev E
. 2020 Nov;
102(4-1):043103.
PMID: 33212592
This paper is the conclusion of work done in our previous papers [A. A. Doinikov et al., Phys. Rev. E 100, 033104 (2019)10.1103/PhysRevE.100.033104; Phys. Rev. E 100, 033105 (2019)10.1103/PhysRevE.100.033105]. The...
7.
Doinikov A, Gerlt M, Dual J
Phys Rev Lett
. 2020 May;
124(15):154501.
PMID: 32357031
We study sharp-edge structures that are used in microfluidic systems for particle and cell manipulation. Experiments show that oscillating sharp edges can attract or repel particles suspended in a microfluidic...
8.
Combriat T, Rouby-Poizat P, Doinikov A, Stephan O, Marmottant P
Soft Matter
. 2020 Feb;
16(11):2829-2835.
PMID: 32104872
Spherical bubbles are notoriously difficult to hold in specific arrangements in water and tend to dissolve over time. Here, using stereolithographic printing, we built an assembly of millimetric cubic frames...
9.
Inserra C, Regnault G, Cleve S, Mauger C, Doinikov A
Phys Rev E
. 2020 Feb;
101(1-1):013111.
PMID: 32069617
This paper is the continuation of work done in our previous papers [A. A. Doinikov et al., Phys. Rev. E 100, 033104 (2019)2470-004510.1103/PhysRevE.100.033104; Phys. Rev. E 100, 033105 (2019)].2470-004510.1103/PhysRevE.100.033105 The...
10.
Baasch T, Doinikov A, Dual J
Phys Rev E
. 2020 Feb;
101(1-1):013108.
PMID: 32069564
An analytical theory is developed for acoustic streaming induced by an acoustic wave field inside and outside a spherical fluid particle, which can be a liquid droplet or a gas...