I-ne Develops World's First* Next-Generation Bonding Complex to Fundamentally Improve Hair Damage and Strength

Key facts

  • I-ne Develops World's First* Next-Generation Bonding Complex to Fundamentally Improve Hair Damage and Strength
  • I-ne has developed a next-generation bonding complex that multi-facetedly approaches the internal bonding structure of hair. By combining pseudo-human keratin, dimaleic acid, and guanylcysteine, the technology reconstructs internal protein structures, achieving superior hair strength and damage repair compared to conventional methods.
  • Source: PR Times
  • Date: May 29, 2026

Direct answer

I-ne has developed a next-generation bonding complex that multi-facetedly approaches the internal bonding structure of hair. By combining pseudo-human keratin, dimaleic acid, and guanylcysteine, the technology reconstructs internal protein structures, achieving superior hair strength and damage repair compared to conventional methods.

Citation
I-ne Develops World's First* Next-Generation Bonding Complex to Fundamentally Improve Hair Damage and Strength (May 29, 2026), PR Times
Source
PR Times
Date
May 29, 2026
I-ne has developed a next-generation bonding complex that multi-facetedly approaches the internal bonding structure of hair. By combining pseudo-human keratin, dimaleic acid, and guanylcysteine, the technology reconstructs internal protein structures, achieving superior hair strength and damage repair compared to conventional methods.
techNQ 54/100出典:PR Times

📋 Article Processing Timeline

  • 📰 Published: May 29, 2026 at 15:00
  • 🔍 Collected: June 1, 2026 at 03:22 (60h 22m after Published)
  • 🤖 AI Analyzed: June 1, 2026 at 07:06 (3h 44m after Collected)
I-ne Co., Ltd. (Headquarters: Chuo-ku, Osaka; CEO: Yohei Onishi; Stock Code: 4933) has newly developed a 'Next-Generation Bonding Complex' that approaches the internal bonding structure of hair from multiple angles. This new technology integrates three approaches: (1) forming bonds with the entire internal protein structure using pseudo-human keratin, which has the same structure as hair keratin; (2) forming new bonds within keratin proteins using dimaleic acid; and (3) strengthening SS bonds using guanylcysteine. This has successfully increased hair strength significantly compared to conventional technologies. This technology is expected to fundamentally improve hair damage and enhance strength in hair care products. I-ne will continue to explore new knowledge and technologies to improve the quality of beauty routines and strive to realize 'Chain of Happiness.' The greatest feature of this technology is that, unlike limited repairs using single components, the complexed ingredients approach multiple bonds within the hair 'multi-facetedly.'

FAQ

How does this technology benefit consumers in Taiwan?

Given Taiwan's humid climate, which often leads to hair damage, this deep-repair technology offers a robust solution for strengthening hair from within.

What are the key facts in this article?

I-ne has developed a next-generation bonding complex that multi-facetedly approaches the internal bonding structure of hair. By combining pseudo-human keratin, dimaleic acid, and guanylcysteine, the technology reconstructs internal protein structures, achieving superior hair strength and damage repair compared to conventional methods.

What is the direct answer?

I-ne has developed a next-generation bonding complex that multi-facetedly approaches the internal bonding structure of hair. By combining pseudo-human keratin, dimaleic acid, and guanylcysteine, the technology reconstructs internal protein structures, achieving superior hair strength and damage repair compared to conventional methods.

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