E
Edamana Prasad
Researcher at Indian Institute of Technology Madras
Publications - 111
Citations - 2786
Edamana Prasad is an academic researcher from Indian Institute of Technology Madras. The author has contributed to research in topics: Dendrimer & Ether. The author has an hindex of 27, co-authored 100 publications receiving 2263 citations. Previous affiliations of Edamana Prasad include Texas Tech University & Indian Institutes of Technology.
Papers
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Biogenic synthesis of ZnO–Ag nano custard apples for efficient photocatalytic degradation of methylene blue by sunlight irradiation
S. Kaviya,Edamana Prasad +1 more
TL;DR: Kaviya et al. as discussed by the authors proposed a biogenic synthesis of ZnO-Ag nano custard apples for efficient photocatalytic degradation of methylene blue by sunlight irradiation.
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Photoinduced Electron Transfer in Hydrogen Bonded Donor−Acceptor Systems. Study of the Dependence of Rate on Free Energy and Simultaneous Observation of the Marcus and Rehm−Weller Behaviors†
TL;DR: In this article, the free energy dependence of electron transfer in a few small-molecule donor-acceptor systems, having hydrogen bonding appendages, were studied by fluorescence lifetime quenching measurements.
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Effect of solvent-controlled aggregation on the intrinsic emission properties of PAMAM dendrimers
TL;DR: In this paper, solvent-induced aggregation and its effect on the intrinsic emission properties of amine, hydroxy and carboxylate terminated poly(amidoamine) (PAMAM) dendrimers have been investigated in glycerol, ethylene glycol, methanol, and ethylene diamine and water.
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Enhanced Resonance Energy Transfer and White-Light Emission from Organic Fluorophores and Lanthanides in Dendron-based Hybrid Hydrogel.
TL;DR: Partial RET in the system has been utilized to generate white-light emission from the gel by incorporating an additional lanthanide ion, Tb(III), along with the organic donors and Eu(III).
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Fractal Growth of PAMAM Dendrimer Aggregates and Its Impact on the Intrinsic Emission Properties
Maria J. Jasmine,Edamana Prasad +1 more
TL;DR: The present study suggests that electrostatic self-assembly can be utilized as an effective synthetic strategy to generate highly stable, nano- to microscale higher order complex structures from PAMAM dendrimers, which significantly reduces the nonradiative pathways of the excitons, resulting in many fold enhancements in the intrinsic emission intensity from the system.