Review

. 2023 Aug 23;13(36):25093-25117.

doi: 10.1039/d3ra01217d. eCollection 2023 Aug 21.

Recent developments, applications and challenges for carbon quantum dots as a photosynthesis enhancer in agriculture

Yamuna A/P Chowmasundaram¹, Tong Ling Tan¹, Rosimah Nulit², Mashitah Jusoh³, Suraya Abdul Rashid^{1

4}

Affiliations

¹ Institute of Nanoscience and Nanotechnology, Universiti Putra Malaysia 43400 UPM Serdang Selangor Malaysia yamunaa2707@gmail.com tongling@upm.edu.my suraya_ar@upm.edu.my.
² Department of Biology, Faculty Science, Universiti Putra Malaysia 43400 UPM Serdang Selangor Malaysia rosimahn@upm.edu.my.
³ Department of Crop Science, Faculty of Agriculture, Universiti Putra Malaysia 43400 Selangor Malaysia mashitahj@upm.edu.my.
⁴ Department of Chemical and Environmental Engineering, Faculty of Engineering, Universiti Putra Malaysia 43400 UPM Serdang Selangor Malaysia.

PMID: 37622012
PMCID: PMC10445218
DOI: 10.1039/d3ra01217d

Review

Recent developments, applications and challenges for carbon quantum dots as a photosynthesis enhancer in agriculture

Yamuna A/P Chowmasundaram et al. RSC Adv. 2023.

. 2023 Aug 23;13(36):25093-25117.

doi: 10.1039/d3ra01217d. eCollection 2023 Aug 21.

Authors

Yamuna A/P Chowmasundaram¹, Tong Ling Tan¹, Rosimah Nulit², Mashitah Jusoh³, Suraya Abdul Rashid^{1

4}

Affiliations

¹ Institute of Nanoscience and Nanotechnology, Universiti Putra Malaysia 43400 UPM Serdang Selangor Malaysia yamunaa2707@gmail.com tongling@upm.edu.my suraya_ar@upm.edu.my.
² Department of Biology, Faculty Science, Universiti Putra Malaysia 43400 UPM Serdang Selangor Malaysia rosimahn@upm.edu.my.
³ Department of Crop Science, Faculty of Agriculture, Universiti Putra Malaysia 43400 Selangor Malaysia mashitahj@upm.edu.my.
⁴ Department of Chemical and Environmental Engineering, Faculty of Engineering, Universiti Putra Malaysia 43400 UPM Serdang Selangor Malaysia.

PMID: 37622012
PMCID: PMC10445218
DOI: 10.1039/d3ra01217d

Abstract

Since the world's population is expanding, mankind may be faced with a huge dilemma in the future, which is food scarcity. The situation can be mitigated by employing sustainable cutting-edge agricultural methods to maintain the food supply chain. In recent years, carbon quantum dots (CQD), a member of the well-known carbon-based nanomaterials family, have given rise to a new generation of technologies that have the potential to revolutionise horticulture and agriculture research. CQD has drawn much attention from the research community in agriculture owing to their remarkable properties such as good photoluminescence behaviour, high biocompatibility, photo-induced electron transfer, low cost, and low toxicity. These unique properties have led CQD to become a promising material to increase plant growth and yield in the agriculture field. This review paper highlights the recent advances of CQD application in plant growth and photosynthesis rate at different concentrations, with a focus on CQD uptake and translocation, as well as electron transfer mechanism. The toxicity and biocompatibility studies of CQD, as well as industrial scale applications of CQD for agriculture are discussed. Finally, the current challenges of the present and future perspectives in this agriculture research are presented.

This journal is © The Royal Society of Chemistry.

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Conflict of interest statement

The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

Figures

**Fig. 1. Properties of CQD and their effects on plants.**

**Fig. 2. The penetration pathway of CQD *via* the leaf tissue.**

Fig. 3. (i)The laser scanning microscopy (LSM) images of CQD uptake into the mung bean root, stem, cotyledon, and leaf. (ii) Laser scanning microscopy (LSM) images of longitudinal sections from root and stem treated with CQD. (Reproduced from ref. with permission from the American Chemical Society, Copyright © 2016).

Fig. 4. (i) The effect of CQD on the yield and morphology of lettuce plant (reproduced from ref. with permission from the American Chemical Society, Copyright © 2017). (ii) The CQD effect on the yield and morphology of mung bean (a) (Reproduced from ref. with permission from the American Chemical Society, Copyright © 2016). (b and c) (Reproduced from ref. with permission from the Shweta Tripathi *et al.*, Copyright © 2014).

**Fig. 5. Division of two reaction compartments within the chloroplast.**

**Fig. 6. The schematic pathway of electron transfer (reproduced from ref. with permission from the Royal Society of Chemistry, Copyright © 2014).**

**Fig. 7. PL spectrum of CQD, chloroplast and CQD conjugated CLP at 390, 420, 442 nm excitation wavelength. (Reproduced from ref. with permission from the Royal Society of Chemistry, Copyright © 2014).**

Fig. 8. Toxicological study of (a) different concentrations of CQD on zebrafish larvae at 120 hpe; (b) effects of exposure to 2000 ppm CQD in developing zebrafish embryos. (Reproduced from ref. Copyright © 2016 with permission from the Elsevier Masson SAS. All right reserved.)

See this image and copyright information in PMC

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Recent developments, applications and challenges for carbon quantum dots as a photosynthesis enhancer in agriculture

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Recent developments, applications and challenges for carbon quantum dots as a photosynthesis enhancer in agriculture

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