A novel and stable way for energy harvesting from Bi2Te3Se alloy based semitransparent photo-thermoelectric module

Fatima, Noshin; Karimov, Khasan S.; Qasuria, T. A.; Ibrahim, Mohd Adib

doi:10.1016/j.jallcom.2020.156702

Cited by 14 publications

(6 citation statements)

References 36 publications

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“…Thermoelectric (TE) materials offer direct and reversible conversion of waste heat to electricity, representing an optimistic green energy source candidate with great potential to aid in overcoming pollution problems once effectively produced [1]. Unlike solar energy, TE devices are less expensive, sunlight-independent, and produce stable voltage over time [2]. Nonetheless, the usage of TE materials in devices has been continually limited by their conversion efficiencies, which mainly depend on the figure of merit (ZT) calculated as…”

Section: Introductionmentioning

confidence: 99%

Optimization of the Consolidation Parameters for Enhanced Thermoelectric Properties of Gr-Bi2Te2.55Se0.45 Nanocomposites

El-Makaty,

Hamouda,

Abutaha

et al. 2024

Nanomaterials

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Hot pressing represents a promising consolidation technique for ball-milled bismuth telluride alloys, yet deep investigations are needed to understand its effect on the thermoelectric properties. This paper studies the effect of hot-pressing parameters (temperature and pressure) on the thermoelectric properties of the n-type Gr-Bi2Te2.55Se0.45 nanocomposite. Ultra-high pressure, up to 1.5 GPa, is considered for the first time for consolidating Bi2(Te,Se)3 alloys. Results from this study show that increasing the temperature leads to changes in chemical composition and causes noticeable grain growth. On the contrary, increasing pressure mainly causes improvements in densification. Overall, increments in these two parameters improve the ZT values, with the temperature parameter having a higher influence. The highest ZT of 0.69 at 160 °C was obtained for the sample hot-pressed at 350 °C and 1 GPa for 5 min, which is indeed an excellent and competitive value when compared with results reported for this n-type Bi2Te2.55Se0.45 composition.

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Section: Introductionmentioning

confidence: 99%

Optimization of the Consolidation Parameters for Enhanced Thermoelectric Properties of Gr-Bi2Te2.55Se0.45 Nanocomposites

El-Makaty,

Hamouda,

Abutaha

et al. 2024

Nanomaterials

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“…On the whole, the severity of COVID-19 has been indicated in its high infectivity (e.g., directly or indirect contact with viruliferous object surfaces/waste, airborne/respiratory droplets and oral-fecal transmission) as well as the absence of a safe and effective vaccine. Compared with the mentioned severities, employing considerable antiviral agents under the COVID-19 pandemic may more severely jeopardize the natural ecosystem and human health [2] . Antiviral pollution agents fail to trigger acute intoxication, whereas its bioaccumulation and chronic toxicity caused severe and irreversible harm.…”

Section: Introductionmentioning

confidence: 99%

Magnetic field assisted α-Fe2O3/Zn1−xFexO heterojunctions for accelerating antiviral agents degradation under visible-light

Ren

et al. 2022

Journal of Environmental Chemical Engineering

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Reducing the recombination efficiency of photo-induced carriers has been found as an effective means to improve the degradation of antiviral agents. Given that the Lorentz forces can cause the abnormal charge to move in the opposite direction, external magnetic field improved α-Fe 2 O 3 /Zn 1-x Fe x O heterojunctions (FZHx) were developed to remove increasing antiviral agents that were attributed to the COVID-19 pandemic under visible light. The characterization of the mentioned FZHx in the external magnetic field indicated that FZHx had perfect photocatalytic activity for degrading antiviral agents. In the external magnetic field, the quantities of photo-generated carriers and free radicals (•OH and •O 2 - ) derived from FZHx increased significantly, which improved antiviral agent removal by 30.0%. Though the band structure (α-Fe 2 O 3 ) is unlikely to change due to some orders of magnitude weaker of Zeeman energy in magnetic fields, which insignificantly impacts photocatalytic performance. However, this study proposed a strategy of negative magnetoresistance effects and heterojunctions to facilitate the separation and transfer of photo-induced carriers in magnetic fields. Based on the proposed strategy, spin oriented electrons were selected and accumulated on the conduction band, which contributed to the degradation of antiviral agents. Overall, this study presented novel insights into the improved degradation performance of antiviral agents by applying Fe-based heterojunctions in an external magnetic field.

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“…[4][5][6] On the other hand, inorganic devices are expensive, toxic and require high temperatures, although they are more stable, and have a long carrier lifetime. [7][8][9][10] However, among semiconductors, current developments in metal phthalocyanine (MPc) have led to an innovative class of organic colourant materials with multifunctional properties in the field of microelectronics devices, such as humidity, thermoelectric, gas, pressure, temperature, electrochemical, optical and magnetic sensors. [11][12][13][14] Multi-walled carbon nanotubes (MWCNTs) have also been investigated for powder-based multifunctional pressure, displacement, electrolyte cells and the gradient of temperature sensors.…”

Section: Introductionmentioning

confidence: 99%

Multifunctional organic shockproof flexible sensors based on a composite of nickel phthalocyanine colourant, carbon nanotubes and rubber created with rubbing‐in technology

Asghar

Karimov

Ibrahim

et al. 2021

Coloration Technology

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An organic multifunctional sensor based on a composite of nickel phthalocyanine colourant, multi-walled carbon nanotubes and rubber is investigated in this work. The whole surface-type device was fabricated over rubber substrate with rubbing-in technology, including multi-walled carbon nanotubes-based electrodes. The proposed shockproof and flexible sensor is investigated in terms of its electric parameters, that is, its resistance and impedance, while varying the humidity (42%-90% relative humidity), frequency (0.1-200 kHz) and temperature (30-68°C). The effect of each parameter is explained in depth to enhance the physics behind each outcome. The results demonstrate that impedance and resistance decrease with increases in temperature and humidity, while the sensitivity of the device decreases with an increase in frequency. These types of devices can be utilised by the medical industry for monitoring the humidity and temperature of patients while undergoing physiotherapy treatment.How to cite this article: Asghar U, Karimov KS, Ibrahim MA, Fatima N. Multifunctional organic shockproof flexible sensors based on a composite of nickel phthalocyanine colourant, carbon nanotubes and rubber created with rubbing-in technology.

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A novel and stable way for energy harvesting from Bi2Te3Se alloy based semitransparent photo-thermoelectric module

Cited by 14 publications

References 36 publications

Optimization of the Consolidation Parameters for Enhanced Thermoelectric Properties of Gr-Bi2Te2.55Se0.45 Nanocomposites

Optimization of the Consolidation Parameters for Enhanced Thermoelectric Properties of Gr-Bi2Te2.55Se0.45 Nanocomposites

Magnetic field assisted α-Fe2O3/Zn1−xFexO heterojunctions for accelerating antiviral agents degradation under visible-light

Multifunctional organic shockproof flexible sensors based on a composite of nickel phthalocyanine colourant, carbon nanotubes and rubber created with rubbing‐in technology

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