Sankara Arunachalam

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	Toutes	Depuis 2019
Citations	596	583
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Coauteurs

Himanshu MishraKing Abdullah University of Science and Technology, Saudi ArabiaAdresse e-mail validée de kaust.edu.sa
Ratul DasACWA PowerAdresse e-mail validée de acwapower.com
Jamilya NauruzbayevaPhD Students, King Abdullah University of Science and TechnologyAdresse e-mail validée de kaust.edu.sa
Zain AhmadPhD student, Imperial College LondonAdresse e-mail validée de ic.ac.uk
Adair Gallo JuniorKing Abdullah University of Science and TechnologyAdresse e-mail validée de kaust.edu.sa
Edelberto ManalastasKAUSTAdresse e-mail validée de kaust.edu.sa
Meng Shi (史萌)King Abdullah University of Science and Technology; UC Berkeley; Xi'an Jiaotong UniversityAdresse e-mail validée de kaust.edu.sa
Dang Minh NguyenMachine Learning EngineerAdresse e-mail validée de e.ntu.edu.sg
S Roberto Gonzalez AGeorge Brown CollegeAdresse e-mail validée de georgebrown.ca
Claus-Dieter OhlOtto-von-Guericke University, MagdeburgAdresse e-mail validée de ovgu.de
Ulrich ButtnerKAUSTAdresse e-mail validée de kaust.edu.sa
Ghaffour NoreddineWater Desalination and Reuse Center - King Abdullah University of Science and Technology (KAUST)Adresse e-mail validée de kaust.edu.sa
Dalaver H. AnjumDepartment of Physics, Khalifa UniversityAdresse e-mail validée de ku.ac.ae
Muhammad Ghifari RidwanChemical Engineering, Imperial College LondonAdresse e-mail validée de imperial.ac.uk
Felix SharipovUniversidade Federal do ParanáAdresse e-mail validée de fisica.ufpr.br
Carlos M. DuarteKing Abdullah University of Science and TechnologyAdresse e-mail validée de kaust.edu.sa
José Federico Hernández-SánchezInstituto de Ciencias Aplicadas y Tecnología, Universidad Nacional Autónoma de MéxicoAdresse e-mail validée de icat.unam.mx
sigurdur thoroddsenProfessor of Mechanical Engineering, KAUSTAdresse e-mail validée de kaust.edu.sa
Andreia FarinhaKAUSTAdresse e-mail validée de Kaust.edu.sa
Gauri MahadikAdresse e-mail validée de kaust.edu.sa

Suivre

Sankara Arunachalam

Post-doc, King Abdullah University of Science & Technology (KAUST)

Adresse e-mail validée de kaust.edu.sa - Page d'accueil

Surface science Biomimetics Micro/nano scale Fluid Mechanics


Titre Trier par citations Trier par année Trier par titre	Citée par Citée par	Année
Biomimetic coating-free surfaces for long-term entrapment of air under wetting liquids EM Domingues, S Arunachalam, J Nauruzbayeva, H Mishra Nature Communications 9 (1), 3606, 2018	110	2018
Mitigating cavitation erosion using biomimetic gas-entrapping microtextured surfaces (GEMS) SR Gonzalez-Avila, DM Nguyen, S Arunachalam, EM Domingues, ... Science advances 6 (13), eaax6192, 2020	93	2020
Doubly reentrant cavities prevent catastrophic wetting transitions on intrinsically wetting surfaces EM Domingues, S Arunachalam, H Mishra ACS applied materials & interfaces 9 (25), 21532-21538, 2017	92	2017
Evaluating the potential of superhydrophobic nanoporous alumina membranes for direct contact membrane distillation N Subramanian, A Qamar, A Alsaadi, A Gallo Jr, MG Ridwan, JG Lee, ... Journal of Colloid and Interface Science 533, 723-732, 2019	63	2019
Assessing omniphobicity by immersion S Arunachalam, R Das, J Nauruzbayeva, EM Domingues, H Mishra Journal of Colloid and Interface Science 534, 156-162, 2019	58	2019
Superhydrophobicity and size reduction enabled Halobates (Insecta: Heteroptera, Gerridae) to colonize the open ocean GA Mahadik, JF Hernandez-Sanchez, S Arunachalam, A Gallo Jr, ... Scientific Reports 10 (1), 7785, 2020	48	2020
Bio-inspired gas-entrapping membranes (GEMs) derived from common water-wet materials for green desalination R Das, S Arunachalam, Z Ahmad, E Manalastas, H Mishra Journal of Membrane Science 588, 117185, 2019	39	2019
Suppression of Leidenfrost effect on superhydrophobic surfaces M Shi, R Das, S Arunachalam, H Mishra Physics of Fluids 33 (12), 2021	25	2021
Rendering SiO₂/Si Surfaces Omniphobic by Carving Gas-Entrapping Microtextures Comprising Reentrant and Doubly Reentrant Cavities or Pillars S Arunachalam, EM Domingues, R Das, J Nauruzbayeva, U Buttner, ... JoVE (Journal of Visualized Experiments), e60403, 2020	20	2020
Counterintuitive wetting transitions in doubly reentrant cavities as a function of surface make‐up, hydrostatic pressure, and cavity aspect ratio S Arunachalam, Z Ahmad, R Das, H Mishra Advanced Materials Interfaces 7 (22), 2001268, 2020	19	2020
Proof-of-Concept for Gas-Entrapping Membranes Derived from Water-Loving SiO/Si/SiO Wafers for Green Desalination R Das, S Arunachalam, Z Ahmad, E Manalastas, A Syed, U Buttner, ... MyJove Corporation, 2020	12	2020
Predicting droplet detachment force: Young-Dupré Model Fails, Young-Laplace Model Prevails MS Sadullah, Y Xu, S Arunachalam, H Mishra Communications Physics 7 (1), 89, 2024	4	2024
Wetting Transitions: Counterintuitive Wetting Transitions in Doubly Reentrant Cavities as a Function of Surface Make‐Up, Hydrostatic Pressure, and Cavity Aspect Ratio (Adv … S Arunachalam, Z Ahmad, R Das, H Mishra Advanced Materials Interfaces 7 (22), 2020	4	2020
Emergent collective motion of self-propelled condensate droplets M Lin, P Kim, S Arunachalam, R Hardian, S Adera, J Aizenberg, X Yao, ... Physical Review Letters 132 (5), 058203, 2024	3	2024
Perfluorocarbon-free membranes for membrane distillation H Mishra, SNM Arunachalam, EM Domingues, R Das US Patent 11,648,514, 2023	3	2023
Directional Wetting of Submerged Gas-entrapping Microtextures SNM Arunachalam, H Mishra arXiv preprint arXiv:2401.09463, 2024	1	2024
Collective wetting transitions of submerged gas‐entrapping microtextured surfaces S Arunachalam, H Mishra Droplet, e135, 2024	1	2024
General Predictive Framework for Droplet Detachment Force MS Sadullah, Y Xu, S Arunachalam, H Mishra arXiv preprint arXiv:2307.12527, 2023	1	2023
Inside Back Cover, Volume 3, Number 3, July 2024 S Arunachalam, H Mishra Droplet 3 (3), e143, 2024		2024
Insect-inspired breathing interfaces: investigating robustness of coating-free gas entrapping microtextured surfaces under pressure cycles S Arunachalam, MS Sadullah, H Mishra Communications Engineering 3 (1), 84, 2024		2024

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