Hybrid biocompatible carbon dots-ZnO nanoparticles with enhanced broadband

Name: Pattaraporn Nuntahirun

Organization : Thammasat University. Faculty of Science and Technology

Name: Siriwas Suptawornkul

Organization : Thammasat University. Faculty of Science and Technology

Name: Rattanavinan Hanchaina

Organization : Mahidol University. Faculty of Science

Name: Thaned Kangsamaksin

Organization : Mahidol University. Faculty of Science

Name: Peerasak Paoprasert

Organization : Thammasat University. Faculty of Science and Technology

Email : peerasak@tu.ac.th

keyword: Carbon dots

LCSH: Biocompatible materials

LCSH: Zinc oxide

LCSH: Nanoparticles

Abstract: The deterioration of depletion of ozone (O,) layers resulting in ozone holes in the atmosphere permits too much light from ultraviolet (UV) rays to penetrate the earth. This causes a variety of harmful health risks, including skin toxicity, sunburn, photoaging, and carcinogenesis. In addition, commercial sunscreen agents have limitations in terms of safety and biocompatibility. The carbon dots (CDs) are biocompatible carbon- based nanomaterials that exhibit photocatalysis properties, antioxidant activity, UV protection, low toxicity, and excellent biocompatibility. Whereas the absorption of CDs is limited to the UVC region, zinc oxide (ZnO), a widespread physical sunscreen agent, can provide protection against ultraviolet radiation from UVB to UVA regions. In order to seek the optimal strategy for developing hybrid ZnO-CDs nanomaterials with antioxidant and broad-spectrum UV protection properties, the mixture of varied ratios of the green tea CDs and ZnO nanoparticles has been tentatively formulated. The characteristics of CDs and ZnO were investigated by FTIR. The CDs exhibited the highest SPF value of 99.79 and 8.87 in the UVC and UVB region, respectively. While the ZnO-CDs (8:2) presented the highest SPF value of 5.41 in the UVA region. Moreover, the UV absorbance of the ZnO-CDs (5:5) was in a range from 200 to 400 nm, which provide a broad band UV protection. Not only did the CDs-ZnO nanoparticles demonstrate biocompatible and antioxidant properties, but they likewise manifest simultaneous UV-light absorption and scattering (Figure 1). Therefore, they show the potential as the broad-spectrum UV absorbers and can be used safely in sunscreens

King Mongkut's University of Technology North Bangkok. Central Library

Address: BANGKOK

Email: library@kmutnb.ac.th

Created: 2023

Modified: 2023-06-19

Issued: 2023-06-19

บทความ/Article

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BibliograpyCitation : In Mae Fah Luang University. School of Science. The Pure and Applied Chemistry International Conference 2023 (PACCON 2023) (pp.563-569). Chiang Rai : Mae Fah Luang University

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