Gotowe bibliografie tematyczne / CdO Doped Nanocomposite Electrolytes

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Gotowa bibliografia na temat „CdO Doped Nanocomposite Electrolytes”

Autor: Grafiati
Data publikacji: 7 września 2023

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Artykuły w czasopismach na temat "CdO Doped Nanocomposite Electrolytes"

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Karmakar, A., and A. Ghosh. "Ac conductivity and relaxation in CdO doped poly ethylene oxide-LiI nanocomposite electrolyte." Journal of Applied Physics 110, no. 3 (2011): 034101. http://dx.doi.org/10.1063/1.3610503.

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Joyce Stella, R., G. Thirumala Rao, B. Babu, et al. "A facile synthesis and spectral characterization of Cu2+ doped CdO/ZnS nanocomposite." Journal of Magnetism and Magnetic Materials 384 (June 2015): 6–12. http://dx.doi.org/10.1016/j.jmmm.2015.02.010.

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Rafique, Asia, Rizwan Raza, Nadeem Akram, et al. "Significance enhancement in the conductivity of core shell nanocomposite electrolytes." RSC Advances 5, no. 105 (2015): 86322–29. http://dx.doi.org/10.1039/c5ra16763a.

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Raza, Rizwan, Xiaodi Wang, Ying Ma, and Bin Zhu. "Study on calcium and samarium co-doped ceria based nanocomposite electrolytes." Journal of Power Sources 195, no. 19 (2010): 6491–95. http://dx.doi.org/10.1016/j.jpowsour.2010.04.031.

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Kundu, Ranadip, Debasish Roy, and Sanjib Bhattacharya. "Microstructure, electrical conductivity and modulus spectra of CdI2 doped nanocomposite-electrolytes." Physica B: Condensed Matter 507 (February 2017): 107–13. http://dx.doi.org/10.1016/j.physb.2016.11.036.

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Jaiswal, Nandini, Shail Upadhyay, Devendra Kumar, and Om Parkash. "Ionic conduction in Mg2+ and Sr2+ co-doped ceria/carbonates nanocomposite electrolytes." International Journal of Hydrogen Energy 40, no. 8 (2015): 3313–20. http://dx.doi.org/10.1016/j.ijhydene.2015.01.002.

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Ram, Rakesh, and Sanjib Bhattacharya. "Mixed ionic-electronic transport in Na2O doped glassy electrolytes: Promising candidate for new generation sodium ion battery electrolytes." Journal of Applied Physics 133, no. 14 (2023): 145101. http://dx.doi.org/10.1063/5.0145894.

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In the present communication, newly developed glassy electrolytes, Na2O–ZnO–CdO, have been considered to discuss their electrical transport behavior at ambient temperature. The AC conductivity and relaxation behavior of them have been studied in the light of Almond-West formalism. The electrical conductivity (mixed conduction) is found to be a function of frequency as well as temperature. In the low-frequency range, it shows a flat conductivity owing to the diffusional motion of Na+ ions, whereas at high frequency, the conductivity shows dispersion. The DC conductivity [Formula: see text] and hopping frequency have been computed from the best fitted plots of experimental data. The AC conductivity at different concentrations and a constant temperature has been reported. The variation in the conductivity data with reciprocal temperatures indicates the dynamical behavior of charge carriers via hopping conduction in sodium oxide glassy systems. Mixed conduction in the present system may be dominated by polaron hopping in the samples with a lower Na2O content with a percolation type of motion of the electron/polaron. On the other hand, three-dimensional Na+ motion is the dominating charge carrier for the samples with a higher Na2O content. A negligible small difference in pathways in the I–V characteristics in both the directions should make the present system a promising candidate for the new generation battery electrolyte.
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8

Agrawal, S. L., and Neelesh Rai. "DMA and Conductivity Studies in PVA:NH4SCN:DMSO:MWNT Nanocomposite Polymer Dried Gel Electrolytes." Journal of Nanomaterials 2015 (2015): 1–7. http://dx.doi.org/10.1155/2015/435625.

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This paper deals with findings on dynamic mechanical analysis (DMA) and ion-conduction behavior of MWNTs (multiwall carbon nanotubes) doped PVA:NH4SCN:DMSO dried gel electrolyte system prepared for four filler concentrations (2, 4, 6 & 8 wt%) by solution cast technique. XRD measurements reveal enhancement in amorphous behavior of composite gel electrolyte upon incorporation of filler particles. Better mechanical stability is noticed in the composite system upon dispersal of MWNT along with presence of dynamicTgduring DMA measurements. Enhancement in ionic conductivity has been noticed with an optimum value of 4.5 × 10−3 Scm−1for 6 wt% MWNTs filled composite electrolyte. Composite system exhibits combination of Arrhenius and Vogel-Tammam-Fulcher (VTF) behavior in temperature dependent conductivity study. The a.c. conductivity response seems to follow universal power law.
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Suchikova, Yana, Sergii Kovachov, Ihor Bohdanov, Elena Popova, Aleksandra Moskina, and Anatoli Popov. "Characterization of CdxTeyOz/CdS/ZnO Heterostructures Synthesized by the SILAR Method." Coatings 13, no. 3 (2023): 639. http://dx.doi.org/10.3390/coatings13030639.

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CdxTeyOz/CdS/ZnO heterostructures were obtained by the SILAR method using ionic electrolytes. A CdS film was formed as a buffer layer for better adhesion of the cadmium-tellurium oxides to the substrate surface. In turn, the ZnO substrate was previously prepared by electrochemical etching to form a rough textured surface. In addition, an annealing mode was used in an oxygen stream to complete the oxidation process of the heterostructure surface. The resulting nanocomposite was investigated using RAMAN, XRD, SEM, and EDX methods. We assume that the oxides CdO and TeO4 initially form on the surface and later evolve into TeO2 and TeO3 when saturated with oxygen. These oxides, in turn, are the components of the ternary oxides CdTeO3 and CdTe3O8. It should be noted that this mechanism has not been fully studied and requires further research. However, the results presented in this article make it possible to systematize the data and experimental observations regarding the formation of cadmium-tellurium films.
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Yang, Ben, Yin She, Changgeng Zhang, Shuai Kang, Jin Zhou, and Wei Hu. "Nitrogen Doped Intercalation TiO2/TiN/Ti3C2Tx Nanocomposite Electrodes with Enhanced Pseudocapacitance." Nanomaterials 10, no. 2 (2020): 345. http://dx.doi.org/10.3390/nano10020345.

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Layered two-dimensional titanium carbide (Ti3C2Tx), as an outstanding MXene member, has captured increasing attention in supercapacitor applications due to its excellent chemical and physical properties. However, the low gravimetric capacitance of Ti3C2Tx restricts its rapid development in such applications. Herein, this work demonstrates an effective and facile hydrothermal approach to synthesize nitrogen doped intercalation TiO2/TiN/Ti3C2Tx with greatly improved gravimetric capacitance and excellent cycling stability. The hexamethylenetetramine (C6H12N4) in hydrothermal environment acted as the nitrogen source and intercalants, while the Ti3C2Tx itself was the titanium source of TiO2 and TiN. We tested the optimized nitrogen doped intercalation TiO2/TiN/Ti3C2Tx electrodes in H2SO4, Li2SO4, Na2SO4, LiOH and KOH electrolytes, respectively. The electrode in H2SO4 electrolyte delivered the best electrochemical performance with high gravimetric capacitance of 361 F g−1 at 1 A g−1 and excellent cycling stability of 85.8% after 10,000 charge/discharge cycles. A systematic study of material characterization combined with the electrochemical performances disclosed that TiO2/TiN nanoparticles, the introduction of nitrogen and the NH4+ intercalation efficaciously increased the specific surface areas, which is beneficial for facilitating electrolyte ions transportation. Given the excellent performance, nitrogen doped intercalation TiO2/TiN/Ti3C2Tx bodes well as a promising pseudocapacitor electrode for energy storage applications.
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