Follow
Abhrajit Laskar
Abhrajit Laskar
UPitt
Verified email at pitt.edu - Homepage
Title
Cited by
Cited by
Year
Autonomous motility of active filaments due to spontaneous flow-symmetry breaking
G Jayaraman, S Ramachandran, S Ghose, A Laskar, MS Bhamla, ...
Physical review letters 109 (15), 158302, 2012
772012
Hydrodynamic instabilities provide a generic route to spontaneous biomimetic oscillations in chemomechanically active filaments
A Laskar, R Singh, S Ghose, G Jayaraman, PBS Kumar, R Adhikari
Scientific reports 3 (1), 1964, 2013
542013
Linking catalyst-coated isotropic colloids into “active” flexible chains enhances their diffusivity
B Biswas, RK Manna, A Laskar, PBS Kumar, R Adhikari, G Kumaraswamy
ACS nano 11 (10), 10025-10031, 2017
502017
Brownian microhydrodynamics of active filaments
A Laskar, R Adhikari
Soft matter 11 (47), 9073-9085, 2015
432015
Fight the flow: the role of shear in artificial rheotaxis for individual and collective motion
R Baker, JE Kauffman, A Laskar, OE Shklyaev, M Potomkin, ...
Nanoscale 11 (22), 10944-10951, 2019
412019
Filament actuation by an active colloid at low Reynolds number
A Laskar, R Adhikari
New Journal of Physics 19 (march 2017), 2017
262017
Designing self-propelled, chemically active sheets: Wrappers, flappers, and creepers
A Laskar, OE Shklyaev, AC Balazs
Science Advances 4 (12), eaav1745, 2018
252018
Light-powered, fuel-free oscillation, migration, and reversible manipulation of multiple cargo types by micromotor swarms
J Zhang, A Laskar, J Song, OE Shklyaev, F Mou, J Guan, AC Balazs, ...
ACS nano 17 (1), 251-262, 2022
192022
Harnessing the power of chemically active sheets in solution
RK Manna, A Laskar, OE Shklyaev, AC Balazs
Nature Reviews Physics 4 (2), 125-137, 2022
152022
Direct verification of the fluctuation-dissipation relation in viscously coupled oscillators
S Paul, A Laskar, R Singh, B Roy, R Adhikari, A Banerjee
Physical Review E 96 (5), 050102, 2017
112017
Collaboration and competition between active sheets for self-propelled particles
A Laskar, OE Shklyaev, AC Balazs
Proceedings of the National Academy of Sciences 116 (19), 9257-9262, 2019
92019
Controlling the spatiotemporal transport of particles in fluid-filled microchambers
A Laskar, OE Shklyaev, AC Balazs
Langmuir 36 (25), 7124-7132, 2020
82020
Self-Morphing, Chemically Driven Gears and Machines
A Laskar, OE Shklyaev, AC Balazs
Matter, 2020
82020
Computer modeling reveals modalities to actuate mutable, active matter
A Laskar, RK Manna, OE Shklyaev, AC Balazs
Nature Communications 13 (1), 2689, 2022
52022
Light-induced dynamic control of particle motion in fluid-filled microchannels
JE Kauffman, A Laskar, OE Shklyaev, AC Balazs, A Sen
Langmuir 36 (34), 10022-10032, 2020
52020
Redox reaction triggered nanomotors based on soft-oxometalates with high and sustained motility
A Mallick, A Laskar, R Adhikari, S Roy
Frontiers in chemistry 6, 152, 2018
32018
Modeling the biomimetic self-organization of active objects in fluids
A Laskar, RK Manna, OE Shklyaev, AC Balazs
Nano Today 29, 100804, 2019
22019
Engineering confined fluids to autonomously assemble hierarchical 3D structures
OE Shklyaev, A Laskar, AC Balazs
PNAS nexus 2 (7), pgad232, 2023
2023
Autonomous Photothermally-driven Fluid Pumping and Particle Transport and Assembly
OE Shklyaev, RK Manna, A Laskar, JE Kauffman, BM Tansi, A Sen, ...
2023
Microhydrodynamics of driven and active filaments [HBNI Th113]
A Laskar
The Institute of Mathematical Sciences, 2016
2016
The system can't perform the operation now. Try again later.
Articles 1–20