S
Sundara Ramaprabhu
Researcher at Indian Institute of Technology Madras
Publications - 402
Citations - 17465
Sundara Ramaprabhu is an academic researcher from Indian Institute of Technology Madras. The author has contributed to research in topics: Graphene & Carbon nanotube. The author has an hindex of 64, co-authored 385 publications receiving 15285 citations. Previous affiliations of Sundara Ramaprabhu include University of Geneva & Indian Institutes of Technology.
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Tribological properties of graphite oxide derivative as nano-additive: Synthesized from the waster carbon source
TL;DR: Graphite oxide (GO) with N doping is synthesized from the waste carbon source as discussed by the authors, where the GO products obtained at 1200-1400°C are utilized as nano-additive in synthetic engine oil.
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An efficient and durable novel catalyst support with superior electron-donating properties and fuel diffusivity for a direct methanol fuel cell
Arpita Ghosh,Sundara Ramaprabhu +1 more
TL;DR: In this paper, the authors present the evidence that the methanol oxidation reaction (MOR) kinetics can be increased by employing nitrogen-doped partially exfoliated carbon nanotubes (PECNTs) as an efficient anode catalyst support material for DMFCs wherein the partial exfoliation of CNT gives rise to abundant straight edges which possess superior electron-donating properties and can also act as active anchoring sites for catalyst dispersion.
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Hydrogen absorption–desorption characteristics, kinetics of hydrogen absorption and thermodynamics of dissolved hydrogen in Zr0.1Tb0.9Fe1.5Co1.5
TL;DR: In this article, the authors investigated the hydrogen absorption and desorption properties of the PuNi 3 type rhombohedral Zr 0.1 Tb 0.9 Fe 1.5 Co 1.1.
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Directed Self Assembly Of Copper-Based Hierarchical Nanostructures on Nitrogen-Doped Graphene and Their Field Emission Studies
Pranati Nayak,Sundara Ramaprabhu +1 more
TL;DR: In this article, a large scale root to assemble hierarchical copper-based nanostructures on nitrogen-doped graphene sheets by a pH followed by a temperature-directed self-assembly process and their electron field emission studies was reported.
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Diatom frustule-graphene based nanomaterial for room temperature hydrogen storage
TL;DR: In this paper, the use of naturally occurring diatom frustule for the synthesis of a novel nanomaterial that can achieve a hydrogen storage capacity of 4.83% at 25°C and 20 bar H2 equilibrium pressure.