Follow
Debonil Maity
Debonil Maity
Intel Corporation
Verified email at jhu.edu
Title
Cited by
Cited by
Year
Electrokinetics in polyelectrolyte grafted nanofluidic channels modulated by the ion partitioning effect
A Poddar, D Maity, A Bandopadhyay, S Chakraborty
Soft Matter 12 (27), 5968-5978, 2016
1002016
Role of membrane-tension gated Ca2+ flux in cell mechanosensation
L He, J Tao, D Maity, F Si, Y Wu, T Wu, V Prasath, D Wirtz, SX Sun
Journal of cell science 131 (4), jcs208470, 2018
642018
Kidney epithelial cells are active mechano-biological fluid pumps
MI Choudhury, Y Li, P Mistriotis, ACN Vasconcelos, EE Dixon, J Yang, ...
Nature communications 13 (1), 2317, 2022
412022
Myosin II governs intracellular pressure and traction by distinct tropomyosin-dependent mechanisms
K Sao, TM Jones, AD Doyle, D Maity, G Schevzov, Y Chen, PW Gunning, ...
Molecular biology of the cell 30 (10), 1170-1181, 2019
372019
Extracellular hydraulic resistance enhances cell migration
D Maity, K Bera, Y Li, Z Ge, Q Ni, K Konstantopoulos, SX Sun
Advanced Science 9 (29), 2200927, 2022
192022
The small GTPase RhoG regulates microtubule-mediated focal adhesion disassembly
A Zinn, SM Goicoechea, G Kreider-Letterman, D Maity, S Awadia, ...
Scientific Reports 9 (1), 5163, 2019
192019
Response of collagen matrices under pressure and hydraulic resistance in hydrogels
D Maity, Y Li, Y Chen, SX Sun
Soft Matter 15 (12), 2617-2626, 2019
172019
Electrokinetics of non-Newtonian fluids in poly-electrolyte grafted nanochannels: Effects of ion-partitioning and confinement
R Paul, D Maity, P Agrawal, A Bandopadhyay, S Chakraborty
Journal of Non-Newtonian Fluid Mechanics 283, 104348, 2020
132020
Mechanical Characterization of hiPSC‐Derived Cardiac Tissues for Quality Control
S Park, C Lui, WH Jung, D Maity, CS Ong, J Bush, V Maruthamuthu, ...
Advanced Biosystems, 1800251, 2018
132018
Mechanical compression creates a quiescent muscle stem cell niche
J Tao, MI Choudhury, D Maity, T Kim, SX Sun, CM Fan
Communications Biology 6 (1), 43, 2023
112023
Trans-epithelial fluid pumping performance of renal epithelial cells and mechanics of cystic expansion
MI Choudhury, Y Li, P Mistriotis, EE Dixon, J Yang, D Maity, R Walker, ...
bioRxiv, 727313, 2019
42019
Profiling Dynamic Patterns of Single‐Cell Motility
D Maity, N Sivakumar, P Kamat, N Zamponi, C Min, W Du, H Jayatilaka, ...
Advanced Science 11 (38), 2400918, 2024
22024
Profiling emergent behaviors from single-cell motility
D Maity, P Kamat, N Zamponi, H Jayatilaka, A Giri, W Du, A Johnston, ...
22022
Rheology modulated non-equilibrium fluctuations in time-dependent diffusion processes
D Maity, A Bandopadhyay, S Chakraborty
Physica A: Statistical Mechanics and its Applications 462, 654-666, 2016
22016
Human Ageing at Cell Resolution
J Phillip, N Zamponi, D Maity, H Jayatilaka, PH Wu, J Walston, D Wirtz
2021 AIChE Annual Meeting, 2021
2021
Studying the Mechanical Elements of the Tumor Microenvironment
D Maity
The Johns Hopkins University, 2020
2020
Tubular Renal Epithelial Cells are Active Mechanobiological Water Pumps
MI Choudhury, Y Li, P Mistriotis, E Dixon, D Maity, R Walker, M Benson, ...
Biophysical Journal 116 (3), 244a, 2019
2019
External Hydraulic Resistance Influences Cell Motility
Y Li, D Maity, S Sun
Biophysical Journal 116 (3), 124a, 2019
2019
Apico-Basal Fluid Flux Reverses In ADPKD Cysts As Compared To Normal Tubular Epithelial Cells In the Kidney.
M Choudhury, Y Li, P Mistriotis, E Dixon, D Maity, M Benson, L Martin, ...
MOLECULAR BIOLOGY OF THE CELL 29 (26), 2018
2018
Sudden hydrostatic pressure perturbation in a tubular epithelium
D Maity, Y Chen, SX Sun
INBT Mini-Symposium, Johns Hopkins University, 2018
2018
The system can't perform the operation now. Try again later.
Articles 1–20