Diffusion Controlled Features of Microwave Assisted ZnS/ZnO Nanocomposite with Reduced Band Gap

Phogat, Peeyush; Shreya, None; Jha, Ranjana; Singh, Sukhvir

doi:10.1149/2162-8777/acc426

Cited by 28 publications

(17 citation statements)

References 32 publications

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“…Figure 3(b) shows that the change in band gap energy is prominent in the samples C01 (2.5 eV) and P03 (2.2 eV), which shows significant deviation from the band gap of T01 sample (2.7 eV) due to the alteration of electronic properties in the vicinity of WO 3 nanoparticles by the adsorption of CTAB or PEG molecules and Refractive index of a material is also an important optical property to confirm its suitability for solar cell applications. No long-range propagation is possible because of the large number of carriers resulting in higher number of collisions, if the refractive index value is lower than 1 [32]. Lower is the reflectivity of the material, better the material will perform as a solar cell.…”

Section: Uv-visible Analysismentioning

confidence: 99%

“…The electrochemical reactions are generally dominated by any of the two mechanism [32] namely capacitive behaviour or diffusion controlled charge storage of the thin film material. The exact nature can be visualized using relation 18.…”

mentioning

confidence: 99%

“…where m here behaves as the slope of the equation, as shown in (figure 9(b)) If the value of slope is nearly 0.5, indicates the diffusion controlled behaviour, and if equal to 1, indicates the capacitive behaviour [32]. The slopes that obtained were 0.347, 0.215, 0.062, 0.219, 0.335 and 0.194 for T01, C01, C02, P01, P02 and P03 respectively, all indicating towards the diffusion controlled nature of the thin films of the deposited samples which was in accordance with the linearity of the current versus Scan rate (figure 9(a)).…”

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confidence: 99%

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Surfactant-mediated modulation of morphology and charge transfer dynamics in tungsten oxide nanoparticles

et al. 2023

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Tungsten Oxide (WO3) is a well-known transition metal oxide which exhibits non-toxicity and stability in its nanoparticle form. It is a potential candidate for a variety of applications due to its low cost and facile synthesis process. In the present work, WO3 nanoparticles were synthesized via facile acid-coprecipitation method to explore the effect of surfactants on the morphology of WO3 nanoparticles and thus, on its structural, optical and electrochemical properties. The morphology analysis revealed the formation of spherical nanoparticles in the absence of any surfactant while nanoflakes and nanosheets were observed in the presence of cetyltrimethylammonium bromide (CTAB) and polyethylene glycol (PEG), respectively. Moreover, the presence of surfactants was found to influence the crystallinity state of the samples. The different morphologies exhibited optical band gap of 2.2-2.7 eV as analyzed by UV-Vis spectroscopy along with other optical properties like absorbance range and refractive index. The electrochemical properties of the samples were studied by employing potentio electrochemical impedance spectroscopy (PEIS) and cyclic voltammetry (CV) techniques. CV analysis revealed the diffusion-controlled behavior of the samples which may be suitable for photovoltaic applications. Furthermore, impedance study showed the presence of Warburg impedance which indicates that there is an infinite layer of excitons on the surface of thin film, further suggesting WO3 as a prominent material for solar cell applications. The incorporation of surfactants resulted in the reduction of charge transfer resistance indicating more efficient charge transfer process.

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Surfactant-mediated modulation of morphology and charge transfer dynamics in tungsten oxide nanoparticles

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“…The synthesis route provides the breakage of carbon HOMO LUMO level and transitioning it to create energy levels with zinc creating larger band gap. The refractive index is an important property of a material which is calculated by using equation ( 7) [46].…”

Section: Ahvmentioning

confidence: 99%

“…As discussed above, the peak current increases with scan rate, it is confirmed by analysing the variation of scan rate versus peak current. The as-synthesized materials show a linear relationship between scan rate and peak current, it indicates that the peak current is increasing with increase in scan rate and thus showing The specific capacitance for the as synthesized materials has been calculated and studied by using equation (10) [46],…”

Section: Peismentioning

confidence: 99%

Fabrication of tunable band gap carbon based zinc nanocomposites for enhanced capacitive behaviour

Dipti,

Phogat,

Shreya

et al. 2023

Phys. Scr.

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This manuscript highlights the tunable properties of carbon nanospheres by controlling the concentration of zinc nitrate in them. Zinc nitrate has converted the phase of carbon spheres, which has also altered the optical, structural and electrochemical properties of carbon nanospheres by forming nanocomposites. Carbon nanospheres and their nanocomposites have been synthesized by using a two-step hydrothermal method. X-ray diffraction analysis of the as synthesized material revealed the formation of carbon spheres and their nanocomposites. It is also observed that the crystallinity of the as synthesized material increases as the concentration of Zn(NO₃)₂.6H2O increases. UV- visible measurements revealed a blue shift in the as-synthesized samples. With the increase in the concentration of zinc, the band gap was also found to increase from 0.6 eV to 4.7 eV. The morphological and microstructural analysis of the as-synthesized samples showed the formation of nanospheres for as-synthesized carbon, and nano flakes for carbon nanocomposites. Fourier-Transform Infrared Spectroscopy (FTIR) measurement provided the information about the molecular structure and vibrational bands present in the samples. Electrochemical analysis of the thin film revealed the capacitive behaviour of the material. The aerial capacitance and Nyquist plot represents the capacitive properties of the material. The present study on carbon nanospheres and their nanocomposites showed that the material is a potential candidate for the application in capacitors, supercapacitors and energy storage devices.

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Photocatalytic Performance of ZnO@ZnS Core–Shell Heterostructures for Malachite Green and Rhodamine B Dye Degradation

Phogat,

Shreya,

Jha

et al. 2024

Physica Status Solidi (a)

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The one‐step green synthesis of wide band gap zinc oxide@zinc sulfide (ZnO@ZnS) core–shell nanostructures offers promising prospects in wastewater treatment. These nanostructures exhibit a porous nature crucial for effective dye adsorption, as evidenced by Brunauer‐Emmett‐Teller (BET) and microscopic characterization. The synthesized material demonstrates high stability and minimal agglomeration, verified through BET analysis and zeta potential measurements. X‐ray powder diffraction confirms the presence of ZnO and ZnS phases. Transmission electron microscopy reveals the development of porous nanorods on the core surface, maximizing the surface area for dye adsorption. In wastewater treatment, the nanostructures exhibit notable performance, degrading 90% of malachite green and 50% of rhodamine B dyes within 120 min under normal conditions. Detailed discussions delve into the degradation mechanism, elucidating the major species responsible for the process. This study underscores the potential of ZnO@ZnS nanostructures in efficient organic pollutant removal, marking a significant advancement in environmental remediation.

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Diffusion Controlled Features of Microwave Assisted ZnS/ZnO Nanocomposite with Reduced Band Gap

Cited by 28 publications

References 32 publications

Surfactant-mediated modulation of morphology and charge transfer dynamics in tungsten oxide nanoparticles

Surfactant-mediated modulation of morphology and charge transfer dynamics in tungsten oxide nanoparticles

Fabrication of tunable band gap carbon based zinc nanocomposites for enhanced capacitive behaviour

Photocatalytic Performance of ZnO@ZnS Core–Shell Heterostructures for Malachite Green and Rhodamine B Dye Degradation

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