Madhu Ranjan Gunjan
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Dynamic roughness ratio-based framework for modeling mixed mode of droplet evaporation
MR Gunjan, R Raj
Langmuir 33 (28), 7191-7201, 2017
Recoil of drops during coalescence on superhydrophobic surfaces
MR Gunjan, PM Somwanshi, A Agrawal, S Khandekar, K Muralidhar
Interfacial Phenomena and Heat Transfer 3 (2), 2015
Cloaked Droplets on Lubricant-Infused Surfaces: Union of Constant Mean Curvature Interfaces Dictated by Thin-Film Tension
MR Gunjan, A Kumar, R Raj
Langmuir 37 (22), 6601-6612, 2021
Investigating the wetting phenomena and fabrication of sticky, para-hydrophobic cerium oxide coating
OSA Rahman, B Mukherjee, S Priyadershini, MR Gunjan, R Raj, ...
Journal of the European Ceramic Society 40 (15), 5749-5757, 2020
Unified framework for mapping shape and stability of pendant drops including the effect of contact angle hysteresis
A Kumar, MR Gunjan, K Jakhar, A Thakur, R Raj
Colloids and Surfaces A: Physicochemical and Engineering Aspects 597, 124619, 2020
On the validity of force balance models for predicting gravity-induced detachment of pendant drops and bubbles
A Kumar, MR Gunjan, R Raj
Physics of Fluids 32 (10), 101703, 2020
Droplets on Lubricant-Infused Surfaces: Combination of Constant Mean Curvature Interfaces with Neumann Triangle Boundary Conditions
MR Gunjan, A Kumar, R Raj
Langmuir 36 (11), 2974-2983, 2020
Per-fluorinated chemical free robust superhydrophobic copper surface using a scalable technique
B Chaitanya, MR Gunjan, R Sarangi, R Raj, AD Thakur
Materials Chemistry and Physics 278, 125667, 2022
Modeling the Effect of Contaminants And lubricant Film on the Modes of Droplet Evaporation
MR Gunjan
IIT Patna, 2022
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