Lalit Bansal

Overview

Explore the profile of Lalit Bansal including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 24

Citations 100

Followers 0

Related Specialties

Neurology

Chemistry

Pediatrics

Top 10 Co-Authors

Saptarshi Basu

Kailash Pawar

Angelo Russo

Ankur Miglani

Ahmed Abdelmoity

Ara Hall

Guido Rubboli

Keith A Coffman

Michael Duchowny

Christian Kaufman

Published In

Soft Matter

Pediatr Neurol

Langmuir

Eur J Med Genet

Genet Med

Affiliations

Soon will be listed here.

Recent Articles

11.

Electroclinical Features of Generalized Paroxysmal Fast Activity in Typical Absence Seizures

Bansal L, Collado L, Pawar K, Nagesh D, Ilyas M, Hall A, et al.

J Clin Neurophysiol . 2018 Nov; 36(1):36-44. PMID: 30394946

Purpose: Generalized paroxysmal fast activity (GPFA) is a diffuse, paroxysmal, frontal predominant activity described in patients with generalized epilepsies. Studies specifically focusing on electroclinical features of typical absence seizures in...

12.

Poliosis With a Rare Association

Bansal L, Zinkus T, Kats A

Pediatr Neurol . 2018 Apr; 83:62-63. PMID: 29655524

No abstract available.

13.

Engineering Interfacial Processes at Mini-Micro-Nano Scales Using Sessile Droplet Architecture

Bansal L, Sanyal A, Kabi P, Pathak B, Basu S

Langmuir . 2018 Feb; 34(29):8423-8442. PMID: 29470090

Evaporating sessile functional droplets act as the fundamental building block that controls the cumulative outcome of many industrial and biological applications such as surface patterning, 3D printing, photonic crystals, and...

14.

Sessile nanofluid droplet can act like a crane

Shaikeea A, Basu S, Bansal L

J Colloid Interface Sci . 2017 Nov; 512:497-510. PMID: 29096111

Interactive droplet systems form the backbone for emerging avenues in droplet based technologies like cell sorting, inkjet printing and digital microfluidics, to name a few. These and their associated fields...

15.

Universal representations of evaporation modes in sessile droplets

Shaikeea A, Basu S, Tyagi A, Sharma S, Hans R, Bansal L

PLoS One . 2017 Sep; 12(9):e0184997. PMID: 28915263

In this work, we provide a simple method to represent the contact line dynamics of an evaporating sessile droplet. As a droplet evaporates, two distinct contact line dynamics are observed....

16.

Confinement suppresses instabilities in particle-laden droplets

Bansal L, Basu S, Chakraborty S

Sci Rep . 2017 Aug; 7(1):7708. PMID: 28794458

Tiny concentrations of suspended particles may alter the behavior of an evaporating droplet remarkably, leading to partially viscous and partially elastic dynamical characteristics. This, in turn, may lead to some...

17.

Confinement-induced alterations in the evaporation dynamics of sessile droplets

Bansal L, Chakraborty S, Basu S

Soft Matter . 2017 Jan; 13(5):969-977. PMID: 28078334

Evaporation of sessile droplets has been a topic of extensive research. However, the effect of confinement on the underlying dynamics has not been well explored. Here, we report the evaporation...

18.

Insights into Vapor-Mediated Interactions in a Nanocolloidal Droplet System: Evaporation Dynamics and Affects on Self-Assembly Topologies on Macro- to Microscales

Shaikeea A, Basu S, Hatte S, Bansal L

Langmuir . 2016 Sep; 32(40):10334-10343. PMID: 27635461

Particle-laden droplet-based systems ranging from micro- to nanoscale have become increasingly popular in applications such as inkjet printing, pharmaceutics, nanoelectronics, and surface patterning. All such applications involve multidroplet arrays in...

19.

Morphological transitions and buckling characteristics in a nanoparticle-laden sessile droplet resting on a heated hydrophobic substrate

Bansal L, Miglani A, Basu S

Phys Rev E . 2016 May; 93:042605. PMID: 27176350

In this work, we have established the evaporation-liquid flow coupling mechanism by which sessile nanofluid droplets on a hydrophobic substrate evaporate and agglomerate to form unique morphological features under controlled...

20.

Towards universal buckling dynamics in nanocolloidal sessile droplets: the effect of hydrophilic to superhydrophobic substrates and evaporation modes

Basu S, Bansal L, Miglani A

Soft Matter . 2016 Apr; 12(22):4896-902. PMID: 27125247

The evaporation of a nanocolloidal sessile droplet exhibits preferential particle assembly, nanoporous shell formation and buckling to form cavities with unique morphological features. Here, we have established many universal trends...