Jagadeesh Sriramoju | Snist - Academia.edu (original) (raw)
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Papers by Jagadeesh Sriramoju
International Journal of Hydrogen Energy, 2021
In recent years, magnetic materials have emerged as potential alternatives for easy and complete ... more In recent years, magnetic materials have emerged as potential alternatives for easy and complete separation of catalysts in heterogeneous catalyst-employed liquid-phase reactions. In this chapter, general definitions of photocatalysis, mechanism, and materials employed in the iron oxide-based magnetic photocatalytic systems, their synthesis methods, and their applications are described. Synthesis methods such as hydrothermal, solvothermal, coprecipitation, thermal decomposition, sol–gel, microemulsion, and other coating methods used for the preparation of these magnetic photocatalytic systems and their applications for degradation of dyes, nondye-based pollutants such as phenolics, pharmaceutical pollutants degradation, reduction of heavy metal ions in the aqueous system, and microbial disinfections are summarized.
Results in Surfaces and Interfaces, 2021
Materials Research Bulletin, 2021
Emergent Materials, 2021
The lithium-sulfur cathode material is one of the potential electrode materials used in the Li-su... more The lithium-sulfur cathode material is one of the potential electrode materials used in the Li-sulfur battery due to its high capacity. A rapid heating process was used to synthesis the sulfur nanosheets. Hierarchical porous carbon materials were prepared by carbonization of silk cocoon (sC). The sulfur nanosheets and carbonized silk cocoon nanocomposite were prepared by simple melt-diffusion method. The morphology and anchoring of sulfur nanosheets on carbonized silk cocoon were confirmed by SEM and TEM studies. The Raman spectroscopy measurement was employed to verify the formation of graphitic carbon nanostructure. The electrochemical performance of sulfur and carbonized silk cocoon (S-sC) nanocomposite sample showed 1231 mAh/g discharge capacity at 0.05 C. The capacity retention of the sample was about 997 mAh/g after 50 cycles. This nanocomposite material plays a vital role in improving electrochemical performance. The sulfur nanosheets anchored on silk fiber will be an ideal cathode candidate material for lithium-sulfur batteries.
Ceramics International, 2020
International Journal of Hydrogen Energy, 2021
In recent years, magnetic materials have emerged as potential alternatives for easy and complete ... more In recent years, magnetic materials have emerged as potential alternatives for easy and complete separation of catalysts in heterogeneous catalyst-employed liquid-phase reactions. In this chapter, general definitions of photocatalysis, mechanism, and materials employed in the iron oxide-based magnetic photocatalytic systems, their synthesis methods, and their applications are described. Synthesis methods such as hydrothermal, solvothermal, coprecipitation, thermal decomposition, sol–gel, microemulsion, and other coating methods used for the preparation of these magnetic photocatalytic systems and their applications for degradation of dyes, nondye-based pollutants such as phenolics, pharmaceutical pollutants degradation, reduction of heavy metal ions in the aqueous system, and microbial disinfections are summarized.
Results in Surfaces and Interfaces, 2021
Materials Research Bulletin, 2021
Emergent Materials, 2021
The lithium-sulfur cathode material is one of the potential electrode materials used in the Li-su... more The lithium-sulfur cathode material is one of the potential electrode materials used in the Li-sulfur battery due to its high capacity. A rapid heating process was used to synthesis the sulfur nanosheets. Hierarchical porous carbon materials were prepared by carbonization of silk cocoon (sC). The sulfur nanosheets and carbonized silk cocoon nanocomposite were prepared by simple melt-diffusion method. The morphology and anchoring of sulfur nanosheets on carbonized silk cocoon were confirmed by SEM and TEM studies. The Raman spectroscopy measurement was employed to verify the formation of graphitic carbon nanostructure. The electrochemical performance of sulfur and carbonized silk cocoon (S-sC) nanocomposite sample showed 1231 mAh/g discharge capacity at 0.05 C. The capacity retention of the sample was about 997 mAh/g after 50 cycles. This nanocomposite material plays a vital role in improving electrochemical performance. The sulfur nanosheets anchored on silk fiber will be an ideal cathode candidate material for lithium-sulfur batteries.
Ceramics International, 2020