Nuclear Fuel Cycle Engineering Laboratories Japan Atomic Energy Agency

https://rdreview.jaea.go.jp/seeds/3_2.html

Japan exhibitors
Real & Online

INCHEM TOKYO 2025
Venture Business & Academia
Booth number 5-SI06

■ High-Selectivity Adsorbent with Custom Functional Groups
This novel material enables selective adsorption of rare, heavy, and precious metals by incorporating tailored functional groups. It efficiently captures target metals, offering powerful solutions for resource recovery and environmental applications.

■ Exceptional Chemical Resistance with Organofluorine Design
The unique molecular structure, featuring organofluorine groups, provides outstanding durability—even in highly acidic or alkaline conditions—where conventional adsorbents fail.

■ Verified Performance and On-Site Demonstration
We present adsorption data under harsh chemical conditions, alongside synthesis examples. Prototypes will be displayed to showcase the material’s performance and practical readiness.

■ Fully Customizable for Specific Applications
The material can be designed to match your process needs. We support custom development and collaborative design to provide the optimal solution for your specific challenges.

Exhibited products (English)	◎High-Performance Adsorbent That Selectively Captures Target Metals Jointly developed by the Japan Atomic Energy Agency (JAEA) and Ibaraki University, this advanced material embodies next-generation adsorption technology, achieving both selectivity and durability. Its unique structure combines organofluorine and functional groups on a benzene ring. By tailoring these groups, it can efficiently and selectively capture rare, precious, and heavy metals. The material remains stable and functional even in harsh acidic or alkaline conditions, offering exceptional chemical resistance. Insoluble in both water and oil, it performs reliably across diverse environments, greatly enhancing metal recovery and separation processes. This versatile material has promising applications in resource recycling, environmental cleanup, and industrial process efficiency—and could become a new standard in metal recovery.

Exhibited products (English)

◎High-Performance Adsorbent That Selectively Captures Target Metals

Jointly developed by the Japan Atomic Energy Agency (JAEA) and Ibaraki University, this advanced material embodies next-generation adsorption technology, achieving both selectivity and durability.

Its unique structure combines organofluorine and functional groups on a benzene ring. By tailoring these groups, it can efficiently and selectively capture rare, precious, and heavy metals.

The material remains stable and functional even in harsh acidic or alkaline conditions, offering exceptional chemical resistance.

Insoluble in both water and oil, it performs reliably across diverse environments, greatly enhancing metal recovery and separation processes.

This versatile material has promising applications in resource recycling, environmental cleanup, and industrial process efficiency—and could become a new standard in metal recovery.

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