P
Prabhat K. Agnihotri
Researcher at Indian Institute of Technology Ropar
Publications - 64
Citations - 861
Prabhat K. Agnihotri is an academic researcher from Indian Institute of Technology Ropar. The author has contributed to research in topics: Carbon nanotube & Epoxy. The author has an hindex of 13, co-authored 53 publications receiving 571 citations. Previous affiliations of Prabhat K. Agnihotri include Indian Institute of Technology Kanpur & University of Groningen.
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Effect of carbon nanotube length and density on the properties of carbon nanotube-coated carbon fiber/polyester composites
TL;DR: In this paper, the dependence of the length and quantity of CNTs on the growth time was studied by varying the run time of the CVD reactor from 5 to 25 min.
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Effects of interplay of nanoparticles, surfactants and base fluid on the surface tension of nanocolloids
A. R. Harikrishnan,Purbarun Dhar,Prabhat K. Agnihotri,Sateesh Gedupudi,Sarit K. Das,Sarit K. Das +5 more
TL;DR: The present paper conclusively explains several physical phenomena observed, yet hitherto unexplained, in the case of the surface tension of such complex fluids by segregating the individual contributions of each component of the colloidal system.
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Quantitative determination of size and properties of interphases in carbon nanotube-based multiscale composites
TL;DR: In this article, the effect of filler composition, filler diameter and carbon nanotube (CNT) grafting on the properties of interphase in epoxy matrix composites was investigated.
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Augmenting mode-II fracture toughness of carbon fiber/epoxy composites through carbon nanotube grafting
TL;DR: In this paper, the effect of carbon nanotubes (CNTs) grafting on the average mechanical properties and mode-II fracture toughness of carbon fiber reinforced plastics (CFRPs) was investigated.
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Wettability of Complex Fluids and Surfactant Capped Nanoparticle-Induced Quasi-Universal Wetting Behavior.
A. R. Harikrishnan,Purbarun Dhar,Prabhat K. Agnihotri,Sateesh Gedupudi,Sarit K. Das,Sarit K. Das +5 more
TL;DR: In this article, the combined effect of surfactants and nanoparticles on the wettability of complex fluids such as nanocolloids on different substrates, ranging from hydrophilic with a predominantly polar surface energy component (silicon wafer and glass) to near hydrophobic range with a predominant dispersive component of surface energy (aluminum and copper substrates).