Enhanced Performance of Nickel–Cobalt Oxides as Selective Coatings for Flat-Plate Solar Thermal Collector Applications

Bacelis-Martínez, Reyna Dianela; Herrera-Zamora, Dallely Melissa; Ávila Santos, Manuel; García-Valladares, Octavio; Franco-Bacca, Adriana Paola; Rodríguez-Gattorno, Geonel; Ruiz-Gómez, Miguel Ángel

doi:10.3390/coatings13081329

Cited by 6 publications

(1 citation statement)

References 56 publications

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“…[5,6] Metal oxide based thin film coatings have been extensively investigated by researchers for solar selective absorber in view of improving their chemical, mechanical, optical, physical and thermal properties. [7,8] In general, expensive physical deposition techniques, such as anodization, [9] atomic layer deposition, [10] vacuum deposition, [11] plasma spraying, [12] magnetron sputtering, [13] physical vapour deposition, [14] laser cladding, [15] and electron beam evaporation [16] are being used to prepare solar selective absorber coatings. Meanwhile, facile, cheap and vacuum-free methods, like sol-gel and dip coating techniques are also used to fabricate such kind of thin film solar selective absorber coatings.…”

Section: Introductionmentioning

confidence: 99%

Solar to Thermal Energy Conversion Potential of Carbon Nanotubes Modified Copper Oxide Nanocomposite Thin Film Solar Selective Absorbers

Vinayagar,

Karthick Kumar,

Almansour

et al. 2024

ChemistrySelect

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Carbon nanotubes modified copper oxide nanocomposite (CNTs–CuO NC) selective absorbers were prepared through a sol‐gel method by varying weight percentage of CNTs and coated on aluminum (Al) substrates using a dip coating technique to form thin films (TFs). The surface morphology of CNTs–CuO NC TF examined by scanning electron microscopy disclosed linear arrangement of CNTs–CuO NC TF with average particle diameter of 200±30 nm. The X‐ray diffractometer analysis of the CNTs–CuO NC TF revealed the presence of CuO in monoclinic crystal structure. Moreover, the X‐ray diffractometer analysis disclosed good crystalline quality of the CNTs–CuO NC TF and average crystallite size of the CuO and CNTs–CuO NC TF was found to be 69.38 and 85.94 nm, respectively. The energy dispersive X‐ray spectrum of CNTs–CuO NC TF ascertained the presence of Cu, O and C elements with atomic weight proportion of 71.07, 21.61 and 7.32 %, respectively. The functional groups investigation by FTIR spectroscopy exhibited distinct spectral features of CNTs and the peaks observed at 516.78 and 588.70 cm−1 correspond to the characteristic vibrations of metal‐oxygen (M−O) bond that indicates the presence of CuO in the hybrid CNTs‐CuO NC TF. The optical property of the CNTs–CuO NC TF with CNTs weight proportion of 0.5 % inspected through UV‐Vis‐NIR spectroscopy exhibited high solar absorptance and thermal emittance values of 85.9 and 4.3 %, respectively. The observed highest solar selectivity value of 19.98 suggests that the CNTs–CuO NC TF coating can be apparently used as solar selective absorber.

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Section: Introductionmentioning

confidence: 99%

Solar to Thermal Energy Conversion Potential of Carbon Nanotubes Modified Copper Oxide Nanocomposite Thin Film Solar Selective Absorbers

Vinayagar,

Karthick Kumar,

Almansour

et al. 2024

ChemistrySelect

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Spray Black Coating for High‐Efficiency Light Absorption

Xiao,

Wang,

Piao

et al. 2024

Adv Materials Technologies

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Black coatings have emerged as a research focus due to their excellent light absorption performance over a wide wavelength range. They play a crucial role in precision optical devices and solar thermal applications. Among various preparation methods, spray coating has attracted great attention due to its simple preparation process, low cost, scalability, and applicability to complex structures. Herein, the recent progress in spray black coatings is comprehensively presented. Various spray coating methods employed in the preparation of black coatings, including air spraying, ultrasonic spraying, electrostatic spraying, spray pyrolysis, and thermal spraying are summarized and compared. Black spray coatings based on metal sulfide, metal oxide, cermet, polymer, and carbon are then reviewed. In addition to the intrinsic absorption properties of the black coatings, light‐trapping structures are key to achieving high‐efficiency light absorption. Typical structural design strategies for enhancing absorption are highlighted. Moreover, the trade‐off between absorptance and adhesion in the design of robust spray black coatings is indicated. The remaining challenges and outlook for the spray black coatings are discussed. This review is expected to provide valuable guidelines for the future development of spray black coatings.

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Influences of black nickel coating thickness on thermal behaviour of flat plate solar collector: performance evaluation

Palanikumar,

Seikh,

Kalam

et al. 2024

J Therm Anal Calorim

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Enhanced Performance of Nickel–Cobalt Oxides as Selective Coatings for Flat-Plate Solar Thermal Collector Applications

Cited by 6 publications

References 56 publications

Solar to Thermal Energy Conversion Potential of Carbon Nanotubes Modified Copper Oxide Nanocomposite Thin Film Solar Selective Absorbers

Solar to Thermal Energy Conversion Potential of Carbon Nanotubes Modified Copper Oxide Nanocomposite Thin Film Solar Selective Absorbers

Spray Black Coating for High‐Efficiency Light Absorption

Influences of black nickel coating thickness on thermal behaviour of flat plate solar collector: performance evaluation

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