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Optimizing spectral quality with quantum dots to enhance crop yield in controlled environments.

Authors :
Parrish II, Charles H.
Hebert, Damon
Jackson, Aaron
Ramasamy, Karthik
McDaniel, Hunter
Giacomelli, Gene A.
Bergren, Matthew R.
Source :
Communications Biology; 1/27/2021, Vol. 4 Issue 1, p1-9, 9p
Publication Year :
2021

Abstract

Bioregenerative life-support systems (BLSS) involving plants will be required to realize self-sustaining human settlements beyond Earth. To improve plant productivity in BLSS, the quality of the solar spectrum can be modified by lightweight, luminescent films. CuInS<subscript>2</subscript>/ZnS quantum dot (QD) films were used to down-convert ultraviolet/blue photons to red emissions centered at 600 and 660 nm, resulting in increased biomass accumulation in red romaine lettuce. All plant growth parameters, except for spectral quality, were uniform across three production environments. Lettuce grown under the 600 and 660 nm-emitting QD films respectively increased edible dry mass (13 and 9%), edible fresh mass (11% each), and total leaf area (8 and 13%) compared with under a control film containing no QDs. Spectral modifications by the luminescent QD films improved photosynthetic efficiency in lettuce and could enhance productivity in greenhouses on Earth, or in space where, further conversion is expected from greater availability of ultraviolet photons. Parrish et al. demonstrate the modification of an incoming solar spectrum through downconversion of high energy UV/blue photons into orange/red photons using luminescent quantum dot films, leading to improved growth of leaf vegetables. Such technology can improve greenhouse productivity while reducing energy costs and can be useful to realize self-sustaining human settlements beyond Earth. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
23993642
Volume :
4
Issue :
1
Database :
Complementary Index
Journal :
Communications Biology
Publication Type :
Academic Journal
Accession number :
148341433
Full Text :
https://doi.org/10.1038/s42003-020-01646-1