Nanostructured Ge-Based Glass Coatings for Sustainable Greenhouse Production: Balancing Light Transmission, Energy Harvesting, and Crop Performance

Benko, Božidar; Salamon, Krešimir; Periša, Ivana; Fabek Uher, Sanja; Radman, Sanja; Opačić, Nevena; Mičetić, Maja (2025) Nanostructured Ge-Based Glass Coatings for Sustainable Greenhouse Production: Balancing Light Transmission, Energy Harvesting, and Crop Performance. Agronomy, 15 (11). ISSN 2073-4395

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Abstract

Greenhouse horticulture is an energy-intensive production system that requires innovative solutions to reduce energy demand without compromising crop yield or quality. Functional greenhouse covers are particularly promising, as they regulate solar radiation while integrating energy-harvesting technologies. In this study, six nanostructured glass coatings incorporating semiconductor-based quantum dots (QDs) and quantum wires (QWs) of Ge and TiN are developed using magnetron sputtering—an industrially scalable technique widely applied in smart window and energy-efficient glass manufacturing. The coatings’ optical properties are characterized in the laboratory, and their agronomic performance is evaluated in greenhouse trials with lamb’s lettuce (Valerianella locusta) and radish (Raphanus sativus). Plant growth, yield, and leaf color (CIELAB parameters) are analyzed in relation to spectral transmission and the daily light integral (DLI). Although uncoated horticultural glass achieves the highest yields, several Ge-QD coatings provide favorable compromises by selectively absorbing non-photosynthetically active radiation (non-PAR) while maintaining acceptable crop performance. These results demonstrate that nanostructured coatings can simultaneously sustain crop growth and enable solar energy conversion, offering a practical pathway toward energy-efficient and climate-smart greenhouse systems.

Item Type:	Article
Uncontrolled Keywords:	energy efficient greenhouse; greenhouse coverings; nanostructured glass; Ge quantum dots; sustainable horticulture; agrivoltaics; crop growth
Subjects:	NATURAL SCIENCES > Physics
Divisions:	Division of Materials Physics
Projects:	Project title Project leader Project code Project type Foto-osjetljive kvantne strukture za primjenu u senzorima, fotoćelijama i cijepanju vode Maja Mičetić IP-2022-10-3765 HRZZ
Depositing User:	Lorena Palameta
Date Deposited:	27 Nov 2025 12:38
URI:	http://fulir.irb.hr/id/eprint/10260
DOI:	10.3390/agronomy15112559

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