Dose-Dependent Effect of Carbon Quantum Dots as a Photosynthesis Enhancer on Soybean Plant Growth

When carbon quantum dots (CDs) are used for enhancing photosynthesis, they inevitably enter the plant. However, the dose-dependent effects of CDs on plant growth are poorly understood. In this study, we investigated the dose-dependent effects of CDs on soybean growth. CDs were synthesized from citric acid and urea via a hydrothermal procedure. The analysis of structure, chemical composition, and optical properties revealed that synthetic CDs have a sphere-like shape with rich hydrophilic groups on their surface. CDs exhibited superior upconverted photoluminescence property and emitted strong fluorescence (exciting wavelength 220 nm; emitting wavelength 438 nm). Various concentrations of synthetic CDs (0–1000 mg L−1), as a photosynthesis enhancer, were applied on soybean plants under hydroculture for 1–10 days. CDs positively affected soybean growth at concentrations less than 200 mg L−1. However, at higher concentrations (500 or 1000 mg L−1), they exhibited significant toxicity to plant growth, which was evidenced by mass accumulation of CDs in the damaged leaves. Metabolomic and transcriptomic analyses indicated that CDs at low concentration (100 mg L−1) could increase the antioxidant and biomass accumulation in soybean to promote plant growth. This study provided valuable insights into the impacts of CDs on plants in sustainable agricultural practices involving the use of nanomaterials.

Keywords: Nanomaterials, Carbon quantum dots, Dose-dependent, Agriculture, Soybean.

Suggested Citation: Suggested Citation

Wang, Qianyuyue and Lv, Kun and Song, Jian and Li, MoYan and Ouyang, Xingnan and Liu, Cheng Cheng and Gong, Shuang and Wang, Jinxing and Li, Jianming and Zhang, Zhe, Dose-Dependent Effect of Carbon Quantum Dots as a Photosynthesis Enhancer on Soybean Plant Growth. Available at SSRN: https://ssrn.com/abstract=5192981 or http://dx.doi.org/10.2139/ssrn.5192981