- Metals | An Open Access Journal from MDPI
Metals is an international, peer-reviewed, open access journal published monthly online by MDPI The Portuguese Society of Materials (SPM), and the Spanish Materials Society (SOCIEMAT) are affiliated with Metals and their members receive discounts on the article processing charges
- Metal-Free C (sp3)–S Bond Cleavage of Thioethers to . . . - MDPI
Previous research in this area has mainly focused on the insertion of different transition metals into C–S bonds, thereby achieving selective cleavage of these bonds [12, 13, 14, 15, 16, 17]
- Assessment of Ecological Recovery Potential of Various Plants in Soil . . .
Microorganisms influence the migration and transformation of heavy metals in soil Therefore, studies on the diversity and community structure of microbes in polluted soils near mines can contribute to a better understanding of soil ecology
- Recent Developments in Heavy Metals Detection: Modified . . . - MDPI
This paper aims to review commonly used methods for detecting heavy metals, with a particular emphasis on electrochemical techniques
- Mechanisms of Heavy Metal Tolerance in Bacteria: A Review - MDPI
This calls for sustainable approaches to the cleanup of heavy metals This review explores metal tolerance mechanisms of bacteria such as the formation of biofilms, efflux systems, and enzymatic detoxification
- Metals | Instructions for Authors - MDPI
Manuscripts for Metals should be submitted online at susy mdpi com The submitting author, who is generally the corresponding author, is responsible for the manuscript during the submission and peer review process
- Heavy Metal(oid)s Contamination and Potential Ecological Risk . . .
The bioavailability of metals and their toxicity to the biota depend on their chemical forms, which can be determined by a multi-step sequential extraction procedure, which provides acid extractable exchangeable, reducible, oxidizable and residual immobile fractions of metals in the soil
- Sustainable Remediation: Advances in Red Mud-Based Synergistic . . . - MDPI
Pyrolysis converts biowaste to biochar through anaerobic high temperature and the co-pyrolysis modification of transition metals (Fe, Al, etc ) in red mud to enhance adsorption performance, Figure 1 c Biochar removes dyes HMs and recovers energy (pyrolysis of oil, syngas) [119, 130, 131]
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