Development of a Hybrid Chitosan- and Niacinamide-Coupled ZnO Nanoparticle Composite for Sun Protection Application

DOI：10.1155/2019/5957606 期刊：Journal of Nanomaterials 出版年份：2019 更新时间：2025-09-12 10:27:22

摘要： Zinc oxide nanoparticles (ZnO) have long been utilized as UV-protective sunscreen components due to their high durability and lower skin irritation while maintaining capability for blocking UV rays. However, the dispersal and transparency properties of ZnO need to be enhanced in order to improve the capacity for creating effective sunscreen through control of the physiochemical properties of ZnO. In this study, chitosan or niacinamide, which are suitable functional cosmetic compounds and effective skin lightening agents, are combined with ZnO for the development of better UV-protective products. Each biocompatible coating material is individually attached on its surface after the synthesis of ZnO. The size is 70 nm using the sol-gel method. Their morphology and chemical structure are characterized by FT-IR, XRD, SEM, TEM, TGA, and zeta potential. The results indicate that approximately 50% of chitosan and 5% niacinamide were coated on the ZnO. To confirm the capacity of each surface-coated ZnO with chitosan and niacinamide as a sunscreen, we measured their transmission, reflectance, and sun protection factor (SPF) using a UV spectrophotometer and SPF. As a result, the niacinamide-coated ZnO shows remarkably lower transmission and high reflectance against UV rays than that of bare ZnO and chitosan-coated ZnO. Furthermore, niacinamide-coated ZnO exhibits great lightening effects. Consequently, these results demonstrate that niacinamide coating is highly effective for the production of sunscreen emulsions.

关键词： Zinc oxide nanoparticles TEM FT-IR SEM XRD UV-protective sunscreen TGA chitosan SPF sol-gel method zeta potential niacinamide sun protection factor

作者： Hyun-jun Jo，Sang-Myoung Joo，Jeong Yup Kim，Kook-Hyun Yu，Sang Wook Kim

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研究概述实验方案设备清单

研究目的

Investigating the development of a hybrid chitosan- and niacinamide-coupled ZnO nanoparticle composite for enhanced UV protection and skin lightening effects in sunscreen applications.

研究成果

The study successfully developed chitosan- and niacinamide-coated ZnO nanoparticles with enhanced UV protection and skin lightening effects. Niacinamide-coated ZnO showed superior performance in terms of lower UV transmission and higher SPF values compared to bare ZnO and chitosan-coated ZnO. These findings suggest that niacinamide coating is highly effective for sunscreen applications.

研究不足

The study focused on the synthesis and characterization of chitosan- and niacinamide-coated ZnO nanoparticles for sunscreen applications. Potential limitations include the scalability of the synthesis process and the need for further in vivo studies to confirm the safety and efficacy of the composites.

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设备名称型号厂家功能

Dynamic light scattering-zeta potential analyzer Zetasizer Nano ZS90 Malvern Panalytical
Analysis of particle size and zeta potential
UV Sunscreen Analyzer UV-2000S Labsphere
Measurement of sun protection factor

Fourier transform infrared spectroscopy Tendo 30 Bruker
Characterization of functional groups in synthesized materials
X-ray diffractometer Ultima IV Rigaku Corporation
Structural analysis of synthesized materials
Field-emission scanning electron microscopy SU-8010 Hitachi
Morphological analysis of synthesized materials
Biotransmission electron microscopy HT 7700 Hitachi
Morphological analysis of synthesized materials
Thermogravimetric analyzer STA 6000 PerkinElmer
Thermal analysis of synthesized materials
Ultraviolet-visible spectroscopy Carry 4000 Varian Corporation
Measurement of transmission and reflectance
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