Aerosol-based deposition of broadband antireflective silica coating with closed mesoporous structure

Aerosol-based deposition of broadband antireflective silica coating with closed mesoporous structure

Solar energy will be a crucial part of the sustainable, fossil free energy production of the future. A majority of this will be produced by solar collectors and photovoltaics. Important for the efficient utilization of the incident solar energy for both technologies are a cover glass with antireflec...

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Veröffentlicht in:Solar energy materials and solar cells 2023-01, Vol.250, p.112078, Article 112078
Hauptverfasser: Zäll, Erik, Järn, Mikael, Karlsson, Stefan, Tryggeson, Henrik, Tuominen, Mikko, Sundin, Mikael, Wågberg, Thomas
Format: Artikel
Sprache:eng
Schlagworte:
Aerosol-based deposition
Antireflective coating
Hexagonal mesoporous silica
nFOG
Solar collector
Solar glass
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Zusammenfassung:Solar energy will be a crucial part of the sustainable, fossil free energy production of the future. A majority of this will be produced by solar collectors and photovoltaics. Important for the efficient utilization of the incident solar energy for both technologies are a cover glass with antireflective coatings giving it a high solar transmittance. In the current paper we describe the development of antireflective mesoporous silica coatings on low-iron float glass using the aerosol-based nFOG™ deposition technique. The coatings exhibit a hexagonal and closed pore structure, high smoothness, superhydrophilic properties (contact angle
ISSN:0927-0248
1879-3398
1879-3398
DOI:10.1016/j.solmat.2022.112078