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Tea waste derived activated carbon as a multifunctional photoactive material for visible light dye degradation with optical dielectric and electrochemical investigation

茶廃棄物由来活性炭を用いた可視光色素分解のための多機能光活性材料:光学誘電・電気化学的検討 (AI 翻訳)

Khadidja Boukhouidem, Theodore Azemtsop Manfo, Mustafa Ergin Şahin, Khaled Derkaoui, Derya Bal Altuntaş, Amel Slimani, Toufik Hadjersi, Seddik Elhak Abaidia

Discover Materials📚 査読済 / ジャーナル2026-06-19#その他
DOI: 10.1007/s43939-026-00778-1
原典: https://doi.org/10.1007/s43939-026-00778-1

🤖 gxceed AI 要約

日本語

茶廃棄物から活性炭を合成し、可視光下での有機色素分解光触媒として評価。酸素含有官能基を有する多孔質構造、狭いバンドギャップ(約1.54 eV)、高い電荷分離効率により、メチレンブルーで91%、ローダミンBで93%の分解率を達成。電子駆動型酸素還元経路が主要な機構であり、再利用性も良好。バイオマス廃棄物の価値化と環境浄化への応用可能性を示す。

English

Activated carbon derived from tea waste was synthesized and evaluated as a visible-light photocatalyst for organic dye degradation. The hierarchically porous carbon with oxygen functional groups and narrow bandgap (~1.54 eV) achieved high degradation efficiencies of 91% for methylene blue and 93% for rhodamine B. The mechanism involves electron-driven oxygen reduction with hydroxyl radicals. Good reusability demonstrates potential for sustainable water treatment and biomass valorization.

Unofficial AI-generated summary based on the public title and abstract. Not an official translation.

📝 gxceed 編集解説 — Why this matters

日本のGX文脈において

本研究成果は、廃棄物由来の材料を用いた水処理技術として、日本の循環型社会政策や廃棄物削減目標に関連する。ただし、気候変動対策としての直接的なGX(グリーントランスフォーメーション)への寄与は限定的で、むしろ環境技術開発の一環として位置づけられる。

In the global GX context

This study contributes to the growing field of biomass valorization for environmental remediation, aligning with global circular economy and UN SDG 6 (clean water). However, it does not directly address climate disclosure, carbon accounting, or transition finance, making it peripheral to mainstream GX topics.

👥 読者別の含意

🔬研究者:Materials science researchers can learn about structure-property relationships in biomass-derived photocatalysts.

📄 Abstract(原文)

Abstract The development of sustainable, metal-free photocatalysts from biomass waste is highly desirable for green energy and environmental remediation applications. In this work, a tea-waste-derived activated carbon was synthesized through controlled carbonization and chemical activation and evaluated as a multifunctional photoactive material for the visible-light-driven degradation of organic dyes. Comprehensive structural, surface, optical, dielectric, and electrochemical characterizations revealed a hierarchically porous carbon framework enriched with oxygen-containing functional groups, a narrow optical band gap (~ 1.54 eV), favorable dielectric response, prolonged charge carrier relaxation time, and efficient charge transport behavior. These intrinsic properties enable effective light harvesting, enhanced charge separation, and suppressed recombination, allowing the activated carbon to function beyond its conventional role as a passive adsorbent. The photocatalytic performance was investigated toward methyl orange, methylene blue, and rhodamine B under visible-light irradiation, achieving high degradation efficiencies of ~ 91% for methylene blue and ~ 93% for rhodamine B, with significantly faster pseudo-first-order kinetics compared to methyl orange. Reactive species trapping experiments and band structure estimation based on the Mulliken electronegativity approach revealed that the degradation mechanism is dominated by electron-driven oxygen reduction pathways, with hydroxyl radicals as the primary oxidative species. The activated carbon also exhibited good reusability and stability over multiple photocatalytic cycles. This study establishes clear structure–property–performance relationships for biomass-derived activated carbon and demonstrates its potential as a sustainable, low-cost, and metal-free photocatalyst for clean water applications. The findings provide new insights into carbon-driven photocatalysis and support the valorization of biomass waste for green energy and clean environment technologies.

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