Federico Paratore
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Explore the profile of Federico Paratore including associated specialties, affiliations and a list of published articles.
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Articles
12
Citations
75
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Recent Articles
1.
Bailey M, Fedosov D, Paratore F, Grillo F, Gompper G, Isa L
Phys Rev E
. 2024 Nov;
110(4-1):044601.
PMID: 39562881
The generation of fluid flows by autophoretic microswimmers has been proposed as a mechanism to enhance mass transport and mixing at the micro- and nanoscale. Here, we experimentally investigate the...
2.
Nicollier P, Ratschow A, Ruggeri F, Drechsler U, Hardt S, Paratore F, et al.
J Phys Chem Lett
. 2024 Apr;
15(15):4151-4157.
PMID: 38597408
The ability to control the location of nanoscale objects in liquids is essential for fundamental and applied research from nanofluidics to molecular biology. To overcome their random Brownian motion, the...
3.
Bacheva V, Firouzeh A, Leroy E, Balciunaite A, Davila D, Gabay I, et al.
Microsyst Nanoeng
. 2023 May;
9:59.
PMID: 37201103
The ability to control high-voltage actuator arrays relies, to date, on expensive microelectronic processes or on individual wiring of each actuator to a single off-chip high-voltage switch. Here we present...
4.
Paratore F, Bacheva V, Bercovici M, Kaigala G
Nat Rev Chem
. 2023 Apr;
6(1):70-80.
PMID: 37117618
Lab-on-a-chip devices leverage microfluidic technologies to enable chemical and biological processes at small scales. However, existing microfluidic channel networks are typically designed for the implementation of a single function or...
5.
Bacheva V, Paratore F, Bar-Dolev M, Rofman B, Kaigala G, Bercovici M
Anal Chem
. 2022 Jul;
94(30):10584-10588.
PMID: 35861417
We present a microfluidic device for selective separation and extraction of molecules based on their diffusivity. The separation relies on electroosmotically driven bidirectional flows in which high-diffusivity species experience a...
6.
Probst D, Manica M, Nana Teukam Y, Castrogiovanni A, Paratore F, Laino T
Nat Commun
. 2022 Feb;
13(1):964.
PMID: 35181654
Enzyme catalysts are an integral part of green chemistry strategies towards a more sustainable and resource-efficient chemical synthesis. However, the use of biocatalysed reactions in retrosynthetic planning clashes with the...
7.
Boyko E, Bacheva V, Eigenbrod M, Paratore F, Gat A, Hardt S, et al.
Phys Rev Lett
. 2021 May;
126(18):184502.
PMID: 34018770
We demonstrate theoretically and experimentally that injection of momentum in a region surrounding an object in microscale flow can yield both "cloaking" conditions, where the flow field outside the cloaking...
8.
Bacheva V, Paratore F, Rubin S, Kaigala G, Bercovici M
Angew Chem Int Ed Engl
. 2020 Apr;
59(31):12894-12899.
PMID: 32277549
We present a new concept for on-chip separation that leverages bidirectional flow, to tune the dispersion regime of molecules and particles. The system can be configured so that low diffusivity...
9.
Paratore F, Boyko E, Kaigala G, Bercovici M
Phys Rev Lett
. 2019 Jul;
122(22):224502.
PMID: 31283260
We experimentally demonstrate the phenomenon of electroosmotic dipole flow that occurs around a localized surface charge region under the application of an external electric field in a Hele-Shaw cell. We...
10.
Paratore F, Bacheva V, Kaigala G, Bercovici M
Proc Natl Acad Sci U S A
. 2019 May;
116(21):10258-10263.
PMID: 31061121
The ability to move fluids at the microscale is at the core of many scientific and technological advancements. Despite its importance, microscale flow control remains highly limited by the use...