D
Dinesh Jagadeesan
Researcher at Indian Institutes of Technology
Publications - 42
Citations - 1290
Dinesh Jagadeesan is an academic researcher from Indian Institutes of Technology. The author has contributed to research in topics: Catalysis & Chemistry. The author has an hindex of 18, co-authored 35 publications receiving 1060 citations. Previous affiliations of Dinesh Jagadeesan include Jawaharlal Nehru Centre for Advanced Scientific Research & University of Toronto.
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Journal ArticleDOI
Intrinsically Fluorescent Carbon Nanospheres as a Nuclear Targeting Vector: Delivery of Membrane-Impermeable Molecule to Modulate Gene Expression In Vivo
B. Ruthrotha Selvi,Dinesh Jagadeesan,B. S. Suma,G. Nagashankar,Mohammed Arif,Karanam Balasubramanyam,Muthusamy Eswaramoorthy,Tapas K. Kundu +7 more
TL;DR: In this paper, the authors demonstrate that glucose-derived carbon nanospheres are an emerging class of intracellular carriers and demonstrate that the intrinsic fluorescence property of carbon nanosphere helps in tracking their cellular localization without any additional fluorescent tags.
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Microbubbles loaded with nanoparticles: a route to multiple imaging modalities.
Jai Il Park,Dinesh Jagadeesan,Ross Williams,Wendy Oakden,Siyon Chung,Greg J. Stanisz,Eugenia Kumacheva +6 more
TL;DR: The proposed approach yielded microbubbles with a narrow size distribution, long-term stability, and multiple functions originating from the attachment of metal oxide, metal, or semiconductor nanoparticles onto the bubble surface.
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Hollow Spheres to Nanocups: Tuning the Morphology and Magnetic Properties of Single-Crystalline α-Fe2O3 Nanostructures†
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Iron-based nanocatalyst for the acceptorless dehydrogenation reactions.
TL;DR: This work replaces expensive noble metal catalysts with an inexpensive, benign, and sustainable nanoscale iron catalyst for the efficient acceptorless dehydrogenation of N-heterocycles and alcohols with liberation of hydrogen gas.
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Microfluidic Study of Fast Gas–Liquid Reactions
Wei Li,Kun Liu,Ryan Simms,Jesse Greener,Dinesh Jagadeesan,Sascha Pinto,Axel Günther,Eugenia Kumacheva +7 more
TL;DR: The proposed strategy relies on the microfluidic generation of highly monodisperse gas bubbles in the liquid reaction medium and subsequent analysis of time-dependent changes in bubble dimensions to enable rapid determination of reaction rate constant and conversion.