Sanoop Ramachandran
Sanoop Ramachandran
Senior Computational Scientist, Samsung R&D Institute India - Bangalore
Zweryfikowany adres z samsung.com - Strona główna
Cytowane przez
Cytowane przez
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
Mathematical Modeling of Lithium Batteries: From Electrochemical Models to State Estimator Algorithms
KS Hariharan, P Tagade, S Ramachandran
Springer International Publishing, 2018
Non-isothermal electrochemical model for lithium-ion cells with composite cathodes
S Basu, RS Patil, S Ramachandran, KS Hariharan, SM Kolake, T Song, ...
Journal of Power Sources 283, 132-150, 2015
A Lattice-Boltzmann model for suspensions of self-propelling colloidal particles
S Ramachandran, PB Sunil Kumar, I Pagonabarraga
The European Physical Journal E: Soft Matter and Biological Physics 20 (2 …, 2006
Effects of an embedding bulk fluid on phase separation dynamics in a thin liquid film
S Ramachandran, S Komura, G Gompper
Europhysics Letters 89 (5), 56001, 2010
Dynamics of a polymer chain confined in a membrane
S Ramachandran, S Komura, K Seki, G Gompper
The European Physical Journal E: Soft Matter and Biological Physics 34 (5), 1-13, 2011
Lateral Organization of Lipids in Multi-component Liposomes
S Ramachandran, M Laradji, PB Sunil Kumar
Journal of the Physical Society of Japan 78 (4), 1006, 2009
Drag coefficient of a liquid domain in a two-dimensional membrane
S Ramachandran, S Komura, M Imai, K Seki
The European Physical Journal E 31, 303-310, 2010
Diffusion coefficient of an inclusion in a liquid membrane supported by a solvent of arbitrary thickness
K Seki, S Ramachandran, S Komura
Physical Review E 84 (2), 021905, 2011
Hydrodynamic effects on concentration fluctuations in multicomponent membranes
S Ramachandran, S Komura, K Seki, M Imai
Soft Matter 7 (4), 1524-1531, 2011
Dynamics of Dilute Solutions of Poly (aspartic acid) and Its Sodium Salt Elucidated from Atomistic Molecular Dynamics Simulations with Explicit Water
S Ramachandran, AR Katha, SM Kolake, B Jung, S Han
The Journal of Physical Chemistry B 117 (44), 13906-13913, 2013
Lipid flip-flop driven mechanical and morphological changes in model membranes
S Ramachandran, PB Kumar, M Laradji
The Journal of Chemical Physics 129 (12), 2008
Fast computational framework for optimal life management of lithium ion batteries
AR Mandli, S Ramachandran, A Khandelwal, KY Kim, KS Hariharan
International Journal of Energy Research 42 (5), 1973-1982, 2018
Rapid analysis of charging profiles of lithium ion batteries using a hybrid simplified electrochemical model
S Ramachandran, A Khandelwal, KS Hariharan, BC Kim, KY Kim
Journal of The Electrochemical Society 163 (6), A1101, 2016
Electronic apparatus, method for controlling charge and computer-readable recording medium
BC Kim, A Khandelwal, S Bang, JM Battle, S Ramachandran, JH Park
US Patent 10,424,959, 2019
Compressive force generation by a bundle of living biofilaments
S Ramachandran, JP Ryckaert
The Journal of Chemical Physics 139 (6), 2013
Lateral Dynamics in Polymer-Supported Membranes
S Komura, S Ramachandran, K Seki
Materials 5 (10), 1923-1932, 2012
Hybrid molecular dynamics simulations of living filaments
M Caby, P Hardas, S Ramachandran, JP Ryckaert
The Journal of Chemical Physics 136 (11), 2012
Method and system of charging a battery
A Khandelwal, S Ramachandran, KS Hariharan, KY Kim
US Patent 9,997,944, 2018
Calculation of the absolute free energy of a smectic-A phase
CC Huang, S Ramachandran, JP Ryckaert
Physical Review E 90 (6), 062506, 2014
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