Vinod K. Aswal
Bhabha Atomic Research Centre
641 Papers
3.7K Citations
Vinod K. Aswal is an academic researcher from Bhabha Atomic Research Centre. The author has contributed to research in topics: Micelle & Small-angle neutron scattering. The author has an hindex of 46, co-authored 556 publications. Previous affiliations of Vinod K. Aswal include Paul Scherrer Institute & Indian Institute of Science.
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Papers
Thermoreversible Gelation of Poly(vinylidene fluoride-co-chlorotrifluoroethylene): Structure, Morphology, Thermodynamics, and Theoretical Prediction
P. Jaya Prakash Yadav,P. Jaya Prakash Yadav,Biswajit Maiti,Binay K. Ghorai,P. U. Sastry,Aniket Patra,Vinod K. Aswal,Pralay Maiti +7 more
TL;DR: In this paper, a series of aromatic diesters (phthalates) with varying aliphatic chain length, n. The gelation rate gradually increases with increasing n, but no gelation occurs in dioctyl phthalate (n = 8), giving rise to a solvent dependency.
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Delineating synchronized control of dynamic covalent and non-covalent interactions for polymer chain collapse towards cargo localization and delivery
Jojo P. Joseph,Chirag Miglani,Aashish Bhatt,Debes Ray,Ashmeet Singh,Deepika Gupta,Md. Ehesan Ali,Vinod K. Aswal,Asish Pal +8 more
TL;DR: Multi-stimuli-responsive compaction of size with synergistic control of non-covalent and dynamic covalent interaction and tuning of LCST render the system suitable for compartmental loading and sustainable/burst release of hydrophilic and hydrophobic cargos e.g. rhodamine B dye and the drug ibuprofen under homeostasis control.
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Studies on the third-phase formation in DHDECMP/dodecane/HNO3
TL;DR: In this article, the third-phase formation in the DHDECMP-dodecane-HNO3 system during actinides extraction was investigated based on the densities of the phases formed and the acid uptake by the DHP phase.
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Solvent hydrophobicity induced complex coacervation of dsDNA and in situ formed zein nanoparticles
TL;DR: The interplay of solvent hydrophobicity, electrostatic interaction, and zein nanoparticle size dependent charge neutralization had a commensurate effect on this hitherto unexplored coacervation phenomenon.
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Structural evolution during nucleation of Si-rich LTA nanocrystals from colloidal solution
TL;DR: In this article, a colloidal solution synthesis system consisting of Ludox AS-40, Aluminium isopropoxide, TMAOH, NaOH and water was used for the formation of Si-O-Al- (aluminosilicate) nanomaterials.
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