Spectral Engineering with Quantum Dot Films for Enhanced Crop Growth

Kristine Q. Loh; Nathan J. Eylands; Vivian E. Ferry; Uwe R. Kortshagen

doi:10.1021/acsaom.5c00338

Spectral Engineering with Quantum Dot Films for Enhanced Crop Growth

Research output: Contribution to journal › Article › peer-review

Abstract

Passive spectral manipulation strategies tune transmitted sunlight to more optimal wavelengths for plant growth. Quantum dots (QDs) embedded in polymer films are a promising material system for this application. Here, we simulate lettuce growth under nine different nontoxic QD films. QDs that strongly absorb blue/green light and downshift it to red/far-red wavelengths result in yield enhancements of up to 45%. We find that these QD films can be utilized broadly in greenhouses in the United States. Contrary to prevailing belief, increasing the intensity of down-shifted photoluminescence does not further increase yield, indicating that QD absorption is the most important factor.

Original language	English (US)
Pages (from-to)	2251-2256
Number of pages	6
Journal	ACS Applied Optical Materials
Volume	3
Issue number	10
DOIs	https://doi.org/10.1021/acsaom.5c00338
State	Published - Oct 24 2025

Bibliographical note

Publisher Copyright:
© 2025 The Authors. Published by American Chemical Society

Keywords

Crop Growth
Passive Spectral Manipulation
Quantum Dots
Spectral Shifting
Sunlight Filter

PubMed: MeSH publication types

Journal Article

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10.1021/acsaom.5c00338

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abstract = "Passive spectral manipulation strategies tune transmitted sunlight to more optimal wavelengths for plant growth. Quantum dots (QDs) embedded in polymer films are a promising material system for this application. Here, we simulate lettuce growth under nine different nontoxic QD films. QDs that strongly absorb blue/green light and downshift it to red/far-red wavelengths result in yield enhancements of up to 45\%. We find that these QD films can be utilized broadly in greenhouses in the United States. Contrary to prevailing belief, increasing the intensity of down-shifted photoluminescence does not further increase yield, indicating that QD absorption is the most important factor.",

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AU - Loh, Kristine Q.

AU - Eylands, Nathan J.

AU - Ferry, Vivian E.

AU - Kortshagen, Uwe R.

PY - 2025/10/24

Y1 - 2025/10/24

N2 - Passive spectral manipulation strategies tune transmitted sunlight to more optimal wavelengths for plant growth. Quantum dots (QDs) embedded in polymer films are a promising material system for this application. Here, we simulate lettuce growth under nine different nontoxic QD films. QDs that strongly absorb blue/green light and downshift it to red/far-red wavelengths result in yield enhancements of up to 45%. We find that these QD films can be utilized broadly in greenhouses in the United States. Contrary to prevailing belief, increasing the intensity of down-shifted photoluminescence does not further increase yield, indicating that QD absorption is the most important factor.

AB - Passive spectral manipulation strategies tune transmitted sunlight to more optimal wavelengths for plant growth. Quantum dots (QDs) embedded in polymer films are a promising material system for this application. Here, we simulate lettuce growth under nine different nontoxic QD films. QDs that strongly absorb blue/green light and downshift it to red/far-red wavelengths result in yield enhancements of up to 45%. We find that these QD films can be utilized broadly in greenhouses in the United States. Contrary to prevailing belief, increasing the intensity of down-shifted photoluminescence does not further increase yield, indicating that QD absorption is the most important factor.

KW - Crop Growth

KW - Passive Spectral Manipulation

KW - Quantum Dots

KW - Spectral Shifting

KW - Sunlight Filter

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Spectral Engineering with Quantum Dot Films for Enhanced Crop Growth

Abstract

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Keywords

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