Leila Zouridi scite author profile

Vanadium dioxide (VO2) is a well-known thermochromic material that can potentially be used as a smart coating on glazing systems in order to regulate the internal temperature of buildings. Most growth techniques for VO2 demand high temperatures (>250 °C), making it impossible to comply with flexible (polymeric) substrates. To overcome this problem, hydrothermally synthesized VO2 particles may be dispersed in an appropriate matrix, leading to a thermochromic coating that can be applied on a substrate at a low temperature (<100 °C). In this work, we reported on the thermochromic properties of a VO2/Poly-Vinyl-Pyrrolidone (PVP) nanocomposite. More specifically, a fixed amount of VO2 particles was dispersed in different PVP quantities forming hybrids of various VO2/PVP molar ratios which were deposited as films on fused silica glass substrates by utilizing the drop-casting method. The crystallite size was calculated and found to be 35 nm, almost independent of the PVP concentration. As far as the thermochromic characteristics are concerned, the molar ratio of the VO2/PVP nanocomposite producing VO2 films with the optimum thermochromic properties was 0.8. These films exhibited integral solar transmittance modulation (overall wavelengths) ΔTrsol = 0.35%–1.7%, infrared (IR) switching at 2000 nm ΔTrIR = 10%, visible transmittance at 550 nm TrVis = 38%, critical transition temperature TC = 66.8 °C, and width of transmittance hysteresis loop ΔTC = 6.8 °C. Moreover, the critical transition temperature was observed to slightly shift depending on the VO2/PVP molar ratio.

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High performance hydrogen gas sensors based on PdO-decorated p-type CoV2O6 nanoparticles

Moschogiannaki

Zouridi

Sukunta

et al. 2020

Sensors and Actuators B: Chemical

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Advances in Inkjet‐Printed Solid Oxide Fuel Cells

Zouridi

Garagounis

Vourros

et al. 2022

Adv Materials Technologies

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With energy demands increasing globally, [1] the prevention of an upcoming energy crisis has been established as a crucial challenge of our era. [2] While fossil fuels still constitute the primary Solid oxide fuel cells (SOFCs) are high temperature galvanic devices able to electrochemically convert chemical energy of fuels to electrical energy at remarkably high efficiencies. However, several challenges, associated with the complexity, scalability, and cost of the current fabrication processes, remain to be resolved for their large-scale deployment. Additive Manufacturing (AM) methods are proposed to address such fabrication-related issues, with Inkjet Printing (IJP) being one of the most promising. In this review, the use of IJP is examined as a potential AM method to deposit electrode and electrolyte thin films for SOFCs. The most important aspects of IJP for SOFCs fabrication processes, including ink formulation of active materials, inkjet deposition, printing optimization, and characterization of inkjet-printed thin films, are described in detail. Additionally, the effect on electrochemical performance of inkjet-printed SOFCs highlights the overall potential of this fabrication technique. Challenges and opportunities for the future development of the topic are also discussed.

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Leila Zouridi

Thermochromic Behavior of VO2/Polymer Nanocomposites for Energy Saving Coatings

High performance hydrogen gas sensors based on PdO-decorated p-type CoV2O6 nanoparticles

Advances in Inkjet‐Printed Solid Oxide Fuel Cells

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