Publications

Découvrez l’utilisation de nos produits dans de nombreuses applications différentes

2024
Magnetic Microtweezers for High-Throughput Bioseparation in Sub-Nanoliter Droplets

Biorxiv:

Simon Dumas, Lucile Alexandre, Mathilde Richer, Marco Serra, Stéphanie Descroix (2024)

2023
Physicochemical Properties Predict Retention of Antibiotics in Water-in-Oil Droplets

ACS Publications:

Artur Ruszczak, Paweł Jankowski, Shreyas K. Vasantham, Ott Scheler, Piotr Garstecki (2023)

Evaluation of Analyte Transfer between Microfluidic Droplets by Mass Spectrometry

ACS Publications:

Emory M. Payne, Maryam Taraji, Bridget E. Murray, Daniel A. Holland-Moritz, Jeffrey C. Moore, Paul R. Haddad, and Robert T. Kennedy (2023)

Single Hydrogel Particle Mechanics and Dynamics Studied by Combining Capillary Micromechanics with Osmotic Compression

MDPI:

Kalpit J. Bakal, Andreas M. A. O. Pollet, Jaap M. J. den Toonder and Hans M. Wyss (2023)

2022
Nonlinear decision-making with enzymatic neural networks

Nature:

S. Okumura, G. Gines, N. Lobato-Dauzier, A. Baccouche, R. Deteix, T. Fujii, Y. Rondelez & A. J. Genot. Nature volume 610, pages 496–501 (2022)

Fabrication of pH-degradable supramacromolecular microgels with tunable size and shape via droplet-based microfluidics

Science Direct:

H. Jung, S. Bulut, L.P.B. Busca Guerzoni, D. Günther, S. Braun, L. De Laporte, A. Pich; J. Colloid Interface Sci., 2022, 617, 409-421.

Multiple interactions between microfluidic droplets and on-chip pneumatic valves

Springer link:

T. Gilet, S. Van Loo; Microfluidics and nanofluidics, 2022, 26.

Active single cell encapsulation using SAW overcoming the limitations of Poisson distribution

Royal Society of Chemistry:

A. Link, J. S. McGrath, M. Zaimagaoglu, T. Franke; Lab on a chip, 2022, 22, 193-200.

2021
A droplet-based microfluidic flow cytometry enabling absolute quantification of single-cell proteins leveraging constriction channel.

Springer link:

H. Yang, Y. Wei, B. Fan, L. Liu, T. Zhang, D. Chen, J. Wang, J. Chen; Microfluid Nanofluid, 2021, 25, 30.

Light-Powered Reactivation of Flagella and Contraction of Microtubule Networks: Toward Building an Artificial Cell

ACS Publications:

R. Ahmad, C. Kleineberg, V. Nasirimarekani, Yu-Jung Su, S. Goli Pozveh, A. Bae, K. Sundmarcher, E. Bodenschatz, I. Guido, T. Vidakovic-koch, and A. Gholami; ACS Synth. Biol. 2021, 10, 6, 1490-1504.

Variable inter and intraspecies alkaline phosphatase activity within single cells of revivied dinoflagellates.

Nature:

M. Girault, R. Siano, C. Labry, M. Latimier, C. Jauzein, T. Beneyton, L. Buisson, Y. Del Amo, J-C. Baret; ISME J, 2021.

Thermally-actuated microfluidic membrane valve for point-of-care applications

Nature:

M. Sesen, C. J. Rowlands; Microsystems & Nanoengineering, 2021, 7:48.

Confining Trypanosoma brucei in emulsion droplets reveals population variabilities in division rates and improves in vitro cultivation

Nature:

S.H. Oldenburg, L. Buisson, T. Beneyton, D. Pekin, M. Thonnus, F. Bringaud, L. Rivière, J-C. Baret; Sci. Rep., 2021, 11, 18192.

Droplet-based microfluidics platform for antifungal analysis against filamentous fungi.

Nature:

S. Iftikhar, A. Vigne, J. E. Sepulveda-Diaz ; Scientific reports, 2021, 11, 22998.

TrypanoFluidique : compartimentation, culture et analyse de la microfluidique de gouttes de Trypanosoma brucei

ResearchGate:

Simone Oldenburg. TrypanoFluidique : compartimentation, culture et analyse de la microfluidique de gouttes de Trypanosoma brucei. Other. Université de Bordeaux, 2021. English. ffNNT : 2021BORD0227.

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