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Biobased Strategies for E-Waste Metal Recovery: A Critical Overview of Recent Advances

Environments 2025 8 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 53 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Diogo A. Ferreira-Filipe, Diogo A. Ferreira-Filipe, Diogo A. Ferreira-Filipe, Diogo A. Ferreira-Filipe, Diogo A. Ferreira-Filipe, Armando C. Duarte, Diogo A. Ferreira-Filipe, Diogo A. Ferreira-Filipe, Ana L. Patrício Silva Ana L. Patrício Silva Ana L. Patrício Silva Ana L. Patrício Silva Ana L. Patrício Silva Teresa Rocha‐Santos, Teresa Rocha‐Santos, Ana L. Patrício Silva Ana L. Patrício Silva Teresa Rocha‐Santos, Ana L. Patrício Silva Ana L. Patrício Silva Teresa Rocha‐Santos, Ana L. Patrício Silva Armando C. Duarte, Armando C. Duarte, Ana L. Patrício Silva Ana L. Patrício Silva Armando C. Duarte, Armando C. Duarte, Ana L. Patrício Silva Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Andrew Hursthouse, Andrew Hursthouse, Ana L. Patrício Silva Ana L. Patrício Silva Ana L. Patrício Silva Ana L. Patrício Silva Ana L. Patrício Silva Ana L. Patrício Silva Ana L. Patrício Silva Ana L. Patrício Silva Armando C. Duarte, Ana L. Patrício Silva Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Andrew Hursthouse, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Teresa Rocha‐Santos, Ana L. Patrício Silva Diogo A. Ferreira-Filipe, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Armando C. Duarte, Armando C. Duarte, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Armando C. Duarte, Teresa Rocha‐Santos, Ana L. Patrício Silva Andrew Hursthouse, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Ana L. Patrício Silva Ana L. Patrício Silva Andrew Hursthouse, Andrew Hursthouse, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Armando C. Duarte, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Armando C. Duarte, Armando C. Duarte, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Armando C. Duarte, Armando C. Duarte, Teresa Rocha‐Santos, Armando C. Duarte, Armando C. Duarte, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Armando C. Duarte, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Ana L. Patrício Silva Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Armando C. Duarte, Ana L. Patrício Silva Ana L. Patrício Silva Ana L. Patrício Silva Armando C. Duarte, Armando C. Duarte, Teresa Rocha‐Santos, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Ana L. Patrício Silva Teresa Rocha‐Santos, Armando C. Duarte, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Ana L. Patrício Silva Ana L. Patrício Silva Ana L. Patrício Silva Armando C. Duarte, Armando C. Duarte, Ana L. Patrício Silva Armando C. Duarte, Armando C. Duarte, Ana L. Patrício Silva Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Armando C. Duarte, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Ana L. Patrício Silva Teresa Rocha‐Santos, Armando C. Duarte, Armando C. Duarte, Teresa Rocha‐Santos, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Ana L. Patrício Silva Teresa Rocha‐Santos, Armando C. Duarte, Ana L. Patrício Silva Teresa Rocha‐Santos, Ana L. Patrício Silva Teresa Rocha‐Santos, Ana L. Patrício Silva Teresa Rocha‐Santos, Andrew Hursthouse, Armando C. Duarte, Armando C. Duarte, Armando C. Duarte, Ana L. Patrício Silva Ana L. Patrício Silva Ana L. Patrício Silva Teresa Rocha‐Santos, Teresa Rocha‐Santos, Ana L. Patrício Silva Teresa Rocha‐Santos, Ana L. Patrício Silva Ana L. Patrício Silva Armando C. Duarte, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Teresa Rocha‐Santos, Ana L. Patrício Silva Teresa Rocha‐Santos, Ana L. Patrício Silva Armando C. Duarte, Teresa Rocha‐Santos, Ana L. Patrício Silva

Summary

This review examines biobased approaches to recovering metals from electronic waste as sustainable alternatives to traditional energy-intensive methods like pyrometallurgy and hydrometallurgy. Researchers evaluated strategies using inactive biomass, live biomass, and biogenic compounds, discussing their advantages, limitations, and potential for by-product valorization. The study suggests that bioprocessing methods offer lower environmental impact and the ability to handle complex e-waste streams, though further optimization of recovery efficiency and processing times is needed.

The increasing e-waste volumes represent a great challenge in the current waste management landscape, primarily due to the massive production and turnover of electronic devices and the complexity of their components and constituents. Traditional strategies for e-waste treatment focus on metal recovery through costly, energetically intensive, and environmentally hazardous processes, such as pyrometallurgical and hydrometallurgical approaches, often neglecting other e-waste constituents. As efforts are directed towards creating a more sustainable and circular economic model, biobased alternative approaches to these traditional techniques have been increasingly investigated. This critical review focuses on recent advances towards sustainable e-waste treatment, exclusively considering studies using e-waste sources. It addresses, from a critical perspective, approaches using inactive biomass, live biomass, and biogenic compounds, showcasing the diversity of strategies and discussing reaction parameters, advantages and disadvantages, challenges, and potential for valorization of generated by-products. While ongoing research focuses on optimizing operational times and metal recovery efficiencies, bioprocessing approaches still offer significant potential for metal recovery from e-waste. These approaches include lower environmental impact by reducing energy consumption and effluent treatments and the ability to recover metals from complex e-waste streams, paving the way for a more circular economy in the electronics industry.

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