Sunlight-induced Permanent Hair Dyeing

Ting Zhang; Bo Liang; Jian-Hua Zhang; Lei Yang; Jun-Fei Hu; Yi-Wen Li

doi:10.1007/s10118-025-3274-1

Your Location：

Home >

Browse articles >

Sunlight-induced Permanent Hair Dyeing

RESEARCH ARTICLE | Updated：2025-01-23

- Sunlight-induced Permanent Hair Dyeing
- Sunlight-induced Permanent Hair Dyeing
- 高分子科学（英文） 2025年43卷第2期页码：261-270
- Affiliations：
  
  a.College of Polymer Science and Engineering, State Key Laboratory of Polymer Materials Engineering, Sichuan University, Chengdu 610065, China
  b.School of Materials Science and Engineering, Hubei University of Automotive Technology, Shiyan 442002, China
  c.School of Emergent Soft Matter, South China University of Technology, Guangzhou 510640, China
- Author bio：
  
  hwscu@stu.scu.edu.cn (J.F.H.)
  ywli@scu.edu.cn (Y.W.L.)
- Funds：
  
  This work was financially supported by the National Natural Science Foundation of China (No. 52225311) and the Fundamental Research Funds for Central Universities.;Electronic supplementary information (ESI) is available free of charge in the online version of this article at http://doi.org/10.1007/s10118-025-3274-1.
- DOI：10.1007/s10118-025-3274-1
  中图分类号：
- 纸质出版日期：2025-02-01，
  
  网络出版日期：2025-01-17，
  
  收稿日期：2024-10-25，
  
  修回日期：2024-11-18，
  
  录用日期：2024-11-21
- Accepted：
Scan QR Code
Sunlight-induced Permanent Hair Dyeing[J]. 高分子科学（英文）, 2025,43(2):261-270.

TING ZHANG, BO LIANG, JIAN-HUA ZHANG, et al. Sunlight-induced Permanent Hair Dyeing. [J]. Chinese journal of polymer science, 2025, 43(2): 261-270.
Sunlight-induced Permanent Hair Dyeing[J]. 高分子科学（英文）, 2025,43(2):261-270. DOI： 10.1007/s10118-025-3274-1.

TING ZHANG, BO LIANG, JIAN-HUA ZHANG, et al. Sunlight-induced Permanent Hair Dyeing. [J]. Chinese journal of polymer science, 2025, 43(2): 261-270. DOI： 10.1007/s10118-025-3274-1.

摘要

This work provides a safe and convenient hair coloration approach based on melanin-like materials and photobase generators

which allows the hair to be dyed black simply by spraying a mixed solution under natural light for several days.

Abstract

Hair coloring has emerged as an integral part of the cosmetic industry

particularly in response to the increasing global aging phenomenon. The natural melanin analog

polydopamine (PDA)

has garnered considerable attention as an eco-friendly hair dye

and several kinds of polymerization ways of dopamine (DA) have been proposed including alkali catalysis

metal ion catalysis

strong oxidants

and enzyme-mediated oxidation reactions and polymerizations. Yet the controllability of polymerization and potential toxicity of involved metal ions are still in question. Inspired by the photoprotective mechanism in human skin

we have developed the melanin-inspired hair dyeing strategy that allowed for the

in situ

oxidative polymerization of DA under ultraviolet (UV) light. This polymerization was triggered by photobase generators (PBGs)

a class of compounds that produced organic bases upon UV and sunlight irradiation. The resulting hair showed an adjustable color from light brown to black by tuning the ratio of DA and PBG (DA@PBG)

the concentration of DA

and light exposure time. The dyed hairs showed excellent washing resistance and superior anti-static properties. Furthermore

Hair Color Spray DA@PBG also demonstrated a desirable hair dyeing effect and excellent biosecurity by simply spraying it on the hair under sunlight. This novel sunlight-induced method provided a new direction towards the preparation of natural hair dyes and could promote the development of green and safe hair dyes in colorful and brilliant artistic-grade hair coloring.

关键词

Keywords

PolydopamineMelaninPolymerizationHair dyePhoto-initiation

references

Wang, S.; Kang, Y.; Qi, F.; Jin, H. Genetics of hair graying with age.Ageing Res. Rev.2023,89, 107−128..

Thompson, K. G.; Marchitto, M.; Chien, A. L. Evaluation of physiological, psychological, and lifestyle factors associated with premature hair graying.J. Invest. Dermatol.2019,11, 153−158..

O'Sullivan, J. D. B.; Nicu, C.; Picard, M.; Cheret, J.; Bedogni, B.; Tobin, D. J.; Paus, R. The biology of human hair greying.Biol. Rev.2021,96, 107−128..

Haveli, S. D.; Walter, P.; Patriarche, G.; Ayache, J.; Castaing, J.; Van Elslande, E.; Tsoucaris, G.; Wang, P. A.; Kagan, H. B. Hair fiber as a nanoreactor in controlled synthesis of fluorescent gold nanoparticles.Nano Lett.2012,12, 6212−6217..

Rahman, N.; Karan, A.; Lvov, Y.; Liao, Z. Z.; Parekh, A.; Rughani, R.; Muthukrishnan, S. Lawsone and indigo-coaded sepiolite nanofibers for hair coloring with sustained release.ACS Appl. Nano Mater.2022,5, 1855−1863..

Tang, Y.; Zhang, Z.; Yang, S.; Smith, G. J.; Liu, L. Diatomite encapsulated AgNPs as novel hair dye cosmetics: preparation, performance, and toxicity.Colloids Surf., B2021,200, 111599−111608..

Luo, C.; Zhou, L.; Chiou, K.; Huang, J. Multifunctional graphene hair dye.Chem2018,4, 784−794..

Eberle, C. E.; Sandler, D. P.; Taylor, K. W.; White, A. J. Hair dye and chemical straightener use and breast cancer risk in a large US population of black and white women.Int. J. Cancer2020,147, 383−391..

Ferguson, F. J.; Pongpairoj, K.; Basketter, D. A.; White, I. R.; McFadden, J. P. Addressing the conundrums of p-phenylenediamine hair dye allergy by applying Friedmann's principles of contact sensitization.Contact Dermatitis2019,80, 234−237..

Yang, Z.; Liu, H. J.; Zhao, J. Y.; Wang, C.; Li, H. T.; Wang, X. H.; Yang, Y.; Wu, H. X.; Gu, Z. P.; Li, Y. W. UV absorption enhanced polydopamine coating.Mater. Horiz.2024,11, 2438−2448..

Yang, P.; Zhu, F.; Zhang, Z.; Cheng, Y.; Wang, Z.; Li, Y. Stimuli-responsive polydopamine-based smart materials.Chem. Soc. Rev.2021,50, 8319−8343..

Wang, C.; Zhang, R.; Zhang, J.; Zhang, X.; Zhang, H.; Cao, H.; Yang, Z.; Li, Y. Synthetic fungal melanin UV absorbers.Sci. China Chem.2024,67, 3098−3110..

Zhang, H. J.; Huang, C. H.; Zhang, J. H.; Wang, C.; Wang, T. Y.; Shi, S.; Gu, Z. P.; Li, Y. W. Synthetic fungal melanin nanoparticles with excellent antioxidative property.Giant2022,12, 100120..

Bai, W.; Yang, P.; Zhang, H.; Wang, T.; Yang, Y.; Zhang, X.; Duan, G.; Xu, Y.; Li, Y. Polycondensation-involved melanin-like polymers for enhanced solar energy utilization.Macromolecules2023,56, 4566−4574..

Bai, W.; Yang, P.; Liu, H.; Zou, Y.; Wang, X.; Yang, Y.; Gu, Z.; Li, Y. Boosting the optical absorption of melanin-like polymers.Macromolecules2022,55, 3493−3501..

Yang, P.; Bai, W.; Zou, Y.; Zhang, X.; Yang, Y.; Duan, G.; Wu, J.; Xu, Y.; Li, Y. A melanin-inspired robust aerogel for multifunctional water remediation.Mater. Horiz.2023,3..

Yang, P.; Wang, T.; Zhang, J.; Zhang, H.; Bai, W.; Duan, G.; Zhang, W.; Wu, J.; Gu, Z.; Li, Y. Manipulating the antioxidative capacity of melanin-like nanoparticles by involving condensation polymerization.Sci. China Chem.2023,66, 1520−1528..

Zou, Y.; Liu, H.; Wang, X.; Xu, Y.; Yang, Y.; Bai, W.; Li, Y. Light harvesting modulation of melanin-like polymersviathiol-michael “click” chemistry.Macromolecules2023,56, 9530−9539..

Zou, Y.; Chen, X.; Yang, P.; Liang, G.; Yang, Y.; Gu, Z.; Li, Y. Regulating the absorption spectrum of polydopamine.Sci. Adv.2020,6, eabb4696..

Ma, Z. Y.; Li, D. Y.; Jia, X.; Wang, R. L.; Zhu, M. F. Recent advances in bio-inspired versatile polydopamine platforms for "smart" cancer photothermal therapy.Chinese J. Polym. Sci.2023,41, 699−712..

Liu, Z. X.; Liu, D. Z.; Zhang, C. H.; Wang, W. J.; Huang, H.; Yang, S. G. Stabilize and reinforce hydrogen-bonded polymer complex elastic fiber by catechol chemistry and coordination.Chinese J. Polym. Sci.2023,41, 1846−1855..

Xia, L.; Yuan, L.; Zhou, K.; Zeng, J.; Zhang, K.; Zheng, G.; Fu, Q.; Xia, Z.; Fu, Q. Mixed-solvent-mediated strategy for enhancing light absorption of polydopamine and adhesion persistence of dopamine solutions.ACS Appl. Mater. Interfaces2023,15, 22493−22505..

Gao, Z. F.; Wang, X. Y.; Gao, J. B.; Xia, F. Rapid preparation of polydopamine coating as a multifunctional hair dye.RSC Adv.2019,9, 20492−20496..

Battistella, C.; McCallum, N. C.; Gnanasekaran, K.; Zhou, X.; Caponetti, V.; Montalti, M.; Gianneschi, N. C. Mimicking natural human hair pigmentation with synthetic melanin.ACS Cent. Sci.2020,6, 1179−1188..

Dong, Y.; Qiu, Y.; Gao, D.; Zhang, K.; Zhou, K.; Yin, H.; Yi, G.; Li, J.; Xia, Z.; Fu, Q. Melanin-mimetic multicolor and low-toxicity hair dye.RSC Adv.2019,9, 33617−33624..

Battistella, C.; McCallum, N. C.; Vanthournout, B.; Forman, C. J.; Ni, Q. Z.; La Clair, J. J.; Burkart, M. D.; Shawkey, M. D.; Gianneschi, N. C. Bioinspired chemoenzymatic route to artificial melanin for hair pigmentation.Chem. Mater.2020,32, 9201−9210..

Zheng, C.; Huang, J.; Li, T.; Wang, Y.; Jiang, J.; Zhang, X. H.;Huang, L.; Xia, B. H.; Dong, W. F. Permanent low-toxicity hair dye based on pregrafting melanin with cystine.ACS Biomater. Sci. Eng.2022,8, 2858−2863..

Sun, Y.; Wang, C.; Sun, M.; Fan, Z. Bioinspired polymeric pigments to mimic natural hair coloring.RSC Adv.2021,11, 1694−1699..

Jia, W.; Li, S.; Luo, Z.; Yu, H.; Zhu, W.; Mao, Q.; Zhang, X.; Liang, Z.; Dong, A. laccase-mediatedin situoxidation of dopamine for dyeing of human Hair.Fibers Polym. 2021, 22, 141-148..

Im, K. M.; Kim, T. W.; Jeon, J. R. Metal-chelation-assisted deposition of polydopamine on human hair: a ready-to-use eumelanin-based hair dyeing methodology.ACS Biomater. Sci. Eng.2017,3, 628−636..

Zhang, T.; Hu, J.; Guo, L.; Gu, Z.; Jiang, X.; Li, Y. Nature-inspired safe and efficient hair dyes: beyond the traditional hair dyes.Green Chem.2024,26, 3125−3138..

Yang, L.; Zhang, X. K.; Zhang, J. H.; Hu, J. F.; Zhang, T.; Gu, Z. P.; Li, Y. W. Synthetic melanin hair dye.Acta Polymerica Sinica(in Chinese)2024,55, 192−201..

Cao, W.; Zhou, X.; McCallum, N. C.; Hu, Z.; Ni, Q. Z.; Kapoor, U.; Heil, C. M.; Cay, K. S.; Zand, T.; Mantanona, A. J.; Jayaraman, A.; Dhinojwala, A.; Deheyn, D. D.; Shawkey, M. D.; Burkart, M. D.; Rinehart, J. D.; Gianneschi, N. C. Unraveling the structure and function of melanin through synthesis.J. Am. Chem. Soc.2021,143, 2622−2637..

Zivic, N.; Kuroishi, P. K.; Dumur, F.; Gigmes, D.; Dove, A. P.; Sardon, H. Recent advances and challenges in the design of organic photoacid and photobase generators for polymerizations.Angew. Chem. Int. Ed.2019,58, 10410−10422..

Salmi, H.; Allonas, X.; Ley, C.; Defoin, A.; Ak, A. Quaternary ammonium salts of phenylglyoxylic acid as photobase generators for thiol-promoted epoxide photopolymerization.Polym. Chem.2014,5, 6577−6583..

Lee, H. A.; Ma, Y.; Zhou, F.; Hong, S.; Lee, H. Material-independent surface chemistry beyond polydopamine coating.Acc. Chem. Res.2019,52, 704−713..

Perrot, D.; Croutxé-Barghorn, C.; Allonas, X. Towards mussel-like on-demand coatings: light-triggered polymerization of dopamine through a photoinduced pH jump.Polym. Chem.2016,7, 2635−2638..

Pei, H. W.; Ye, K.; Shao, Y. Z.; Chen, D.; Sun, Z. Y.; Gong, T.; Liu, D. D.; Sun, K. Photopolymerization activated by photobase generators and applications: from photolithography to high-quality photoresists.Polym. Chem.2024,15, 248−268..

Ju, K. Y.; Fischer, M. C.; Warren, W. S. Understanding the role of aggregation in the broad absorption bands of eumelanin.ACS Nano2018,12, 12050−12061..

Xu, Y.; Hu, J.; Hu, J.; Cheng, Y.; Chen, X.; Gu, Z.; Li, Y. Bioinspired polydopamine hydrogels: strategies and applications.Prog. Polym. Sci.2023,146, 101740..

Liu, Y.; Ai, K.; Lu, L. Polydopamine and its derivative materials: synthesis and promising applications in energy, environmental, and biomedical fields.Chem. Rev.2014,114, 5057−5115..

Deng, Y.; Liu, W.; Xu, R.; Gao, R.; Huang, N.; Zheng, Y.; Huang, Y.; Li, H.; Kong, X. Y.; Ye, L. Reduction of superoxide radical intermediate by polydopamine for efficient hydrogen peroxide photosynthesis.Angew. Chem., Int. Ed.2024,63, e202319216..

Jia, T.; Wang, W.; Zhang, C.; Zhang, L.; Wang, W. Polydopamine-mediated contact-electro-catalysis for efficient partial oxidation of methane.Angew. Chem. Int. Ed. 2024 , e202413343..

浏览量

Downloads

CSCD

文章被引用时，请邮件提醒。

Submit

工具集

关联资源

Iminopyridine Manganese and Nickel Complexes: Synthesis, Characterization and Behavior in the Polymerization of 1,3-Butadiene

Highly Conductive Ag/pCF/MVQ Composite Rubber for Efficient Electromagnetic Interference Shielding

Regio- and Stereoselective Polymerization of Bio-based Ocimene by Rare-Earth Metal Catalysts