Repeatable Perming via Thiol–Michael Click Reaction: Using Amide Derived from Maleic Acid and Cystine
Zezhi Liu, Ling Ma, Timson Chen, Zhizhen Li, Ya Chen, Jinhua Li, Kuan Chang, Jing Wang

TL;DR
A new perming method using a thiol–Michael click reaction avoids hair damage and allows repeat use without oxidative agents.
Contribution
A novel thiol–Michael click perming molecule, MA2-CySS, enables repeatable perming with minimal damage.
Findings
MA2-CySS perming showed no cytotoxicity and reached reaction plateau within 30 minutes.
MA2-CySS perming reduced color change and cuticle damage while maintaining hair strength across three cycles.
Raman spectroscopy showed MA2-CySS preserved hair keratin structure better than oxidative perming.
Abstract
Conventional perming relies on oxidative agents that significantly damage hair. The thiol–Michael click perming strategy derived from linear aliphatic diols and diamines has been developed to avoid oxidative damage, but lacks repeatable perming capabilities. In this study, a novel thiol–Michael click perming molecule was proposed for repeatable perming while avoiding oxidative damage. N,N′-bis(maleoyl)-l-cystine (MA2-CySS) was synthesized and characterized through Raman spectroscopy and 1H NMR with MTT assay demonstrated no cytotoxicity up to 1000 μg/mL. Click reactivity analysis revealed that the reaction reached a plateau after 30 min, with alkaline pH and elevated temperatures significantly enhancing reactivity. MA2-CySS perming achieved efficiency comparable to oxidative perming, exceeding 1300% across three perming cycles. MA2-CySS perming significantly reduced both color change…
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Taxonomy
TopicsDyeing and Modifying Textile Fibers · Hair Growth and Disorders · Silk-based biomaterials and applications
