N. S. Negi scite author profile

Summary Recent increase in energy demand and associated environmental degradation concern has triggered more research towards alternative green energy sources. Eco‐friendly energy in facile way has been generated from abundantly available iron oxides using only few microliters of water without any external energy source. Hydroelectric cell (HEC) compatible to environment benign, low cost oxygen‐deficient mesoporous hematite nanoparticles has been used for splitting water molecules spontaneously to generate green electricity. Hematite nanoparticles have been synthesized by coprecipitation method. Chemidissociated hydroxyl group presence on hematite surface has been confirmed by infrared spectroscopy (IR) and X‐ray photoelectron spectroscopy (XPS). Surface oxygen vacancies in nanostructured hematite have been identified by transmission electron microscopy (TEM), XPS, and photoluminescence (PL) measurement. Hematite‐based HEC delivers 30 mA current with 0.92 V emf using approximately 500 μL water. Maximum off‐load output power 27.6 mW delivered by 4.84 cm2 area hematite‐based HEC is 3.52 times higher than reported 7.84 mW power generated by Li‐magnesium ferrite HEC. Electrochemistry of HEC in different irreversible polarization loss regions has been estimated by applying empirical modeling on V‐I polarization curve revealing the reaction and charge transport mechanism of cell. Tafel slope 22.7 mV has been calculated by modeling of activation polarization overvoltage region of 0.11 V. Low activation polarization indicated easy charge/ion diffusion and faster reaction kinetics of Ag/Zn electrode owing to lesser energy barrier at interface. Dissociated H3O+ ions diffuse through surface via proton hopping, while OH− ions migrate through interconnected defective crystallite boundaries resulting into high output cell current.

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Improved dielectric and ferromagnetic properties in Fe-doped PbTiO3 nanoparticles at room temperature

Verma

Kotnala

Negi

2008

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Fe-doped PbTiO 3 nanoparticles have been synthesized by chemical route using polyvinyl alcohol as a surfactant. The results indicate that the dielectric constant and magnetization value of these nanoparticles depends upon their size and Fe dopents. The x-ray diffraction analysis, and transmission and scanning electron microscopies show that the particle's sizes in the specimens lie in the range of 19-30 nm. It is observed that the magnetization is enhanced with reduction in particle size. The largest value of saturation magnetization ͑M s = 41.6ϫ 10 −3 emu/ g͒ is observed for 1.2 mol % Fe dopents. Dielectric constant and dielectric losses are controlled up to 15 MHz at room temperature.

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Improvement in magnetic behaviour of cobalt doped magnesium zinc nano-ferrites via co-precipitation route

Sharma

Thakur

Kumar

et al. 2016

Journal of Alloys and Compounds

179

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Effect of In and Mn co-doping on structural, magnetic and dielectric properties of BiFeO₃nanoparticles

Arya¹,

Negi²

2013

J. Phys. D: Appl. Phys.

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Dielectric Relaxation of Mixtures of N-Methylacetamide and N,N-Dimethylformamide Solved in Benzene Using Microwave Absorption Data

Kumar

Rangra

Sharma

et al. 2006

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N. S. Negi

Significance of interface barrier at electrode of hematite hydroelectric cell for generating ecopower by water splitting

Improved dielectric and ferromagnetic properties in Fe-doped PbTiO3 nanoparticles at room temperature

Improvement in magnetic behaviour of cobalt doped magnesium zinc nano-ferrites via co-precipitation route

Effect of In and Mn co-doping on structural, magnetic and dielectric properties of BiFeO₃nanoparticles

Dielectric Relaxation of Mixtures of N-Methylacetamide and N,N-Dimethylformamide Solved in Benzene Using Microwave Absorption Data

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N. S. Negi

Significance of interface barrier at electrode of hematite hydroelectric cell for generating ecopower by water splitting

Improved dielectric and ferromagnetic properties in Fe-doped PbTiO3 nanoparticles at room temperature

Improvement in magnetic behaviour of cobalt doped magnesium zinc nano-ferrites via co-precipitation route

Effect of In and Mn co-doping on structural, magnetic and dielectric properties of BiFeO3nanoparticles

Dielectric Relaxation of Mixtures of N-Methylacetamide and N,N-Dimethylformamide Solved in Benzene Using Microwave Absorption Data

Contact Info

Product

Resources

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Effect of In and Mn co-doping on structural, magnetic and dielectric properties of BiFeO₃nanoparticles