C
Chandran Sudakar
Researcher at Indian Institute of Technology Madras
Publications - 157
Citations - 3797
Chandran Sudakar is an academic researcher from Indian Institute of Technology Madras. The author has contributed to research in topics: Magnetization & Thin film. The author has an hindex of 32, co-authored 140 publications receiving 3204 citations. Previous affiliations of Chandran Sudakar include Wayne State University & Indian Institute of Science.
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Whispering Gallery Mode Enabled Efficiency Enhancement: Defect and Size Controlled CdSe Quantum Dot Sensitized Whisperonic Solar Cells
TL;DR: The reported efficiency of QDSWSC is the highest compared to other CdSe based QDSSC made using TiO2 photoanode and I−/I3− liquid electrolyte and the concept of using whispering gallery for enhanced scattering is very promising for sensitized whisperonic solar cells.
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Candle soot carbon nanoparticles as high-performance universal anode for M-ion (M = Li+, Na+ and K+) batteries
TL;DR: In this paper, the effect of annealing conditions on the structural and electrochemical performance of CSC-np was evaluated, and the results indicated that crystallinity, surface area, and chemical composition of two-step anneal of carbon nanostructure chains are most favorable for high capacity M-ion storage.
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Suppression of Fe Li Antisite Defects in Fluorine-Doped LiFePO 4
TL;DR: In this article, the suppression of antisite defects in LiFe(PO4)1−xF3x with 0.04-approximation was investigated using both sol-gel and hydrothermal methods.
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Well-connected microsphere-nanoparticulate TiO2 composites as high performance photoanode for dye sensitized solar cell
TL;DR: Anatase TiO2 microspheres with smooth and fibrous morphology (SμS and FμS) resembling laddu and dandelion are synthesized by solvothermal and hydrothermal methods, respectively.
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Mn substitution controlled Li-diffusion in single crystalline nanotubular LiFePO4 high rate-capability cathodes: Experimental and theoretical studies
TL;DR: In this article, carbon-coated single crystalline nanotubular (NT) and nanoparticular (NP) LiFe1-xMnxPO4 cathodes are fabricated to study the effect of compositional and microstructural changes on Li+ diffusion and electrochemical properties.