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- Synthetic Biology Approaches to Copper Remediation: Bioleaching, Accumulation and Recycling
- Effect of Indigenous Microbial Consortium on Bioleaching of Arsenic from Contaminated Soil by Shewanella Putrefaciens
- Bioleaching of Chalcopyrite-Bornite and Chalcopyrite-Pyrite Mixed Ores in the Presence of Moderately Thermophilic Microorganisms
- Effect of Substrates During the Adaptation of Indigenous Bacteria in Bioleaching of Sulphide Ores
- Integrated Piloting of a Thermophilic Bioleaching Process for the Treatment of a Low-Grade Nickel- Copper Sulphide Concentrate
- Sequenced Bioleaching and Bioaccumulation of Phosphorus from Sludge Combustion – a New Way of Resource Reclaiming –
- Advancements and Use of OMIC Technologies in the Field of Bioleaching: a Review
- Microbially-Enhanced Vanadium Mining and Bioremediation Under Micro- and Mars Gravity on The
- Bioleaching of Zinc and Iron from Sphalerite Using Leptospirillum Ferriphilum: Kinetic Aspects
- Bioleaching of Pyrite and Chalcopyrite by New Isolated Thermotolerate Sulfur-Oxidizing Bacteria Acidithiobacillus Tandzuti Sp.Nov
- Peculiarities of Adhesion and Bioleaching of Pyrite by New Isolated Leptospirillum Spp. Bacteria
- Study and Optimisation of Copper Bioleaching Process for Electronic Waste Valorisation
- Ecological Roles of Dominant and Rare Prokaryotes in Acid Mine Drainage Revealed by Metagenomics and Metatranscriptomics
- Bioleaching of Major, Rare Earth, and Radioactive Elements from Red Mud by Using Indigenous Chemoheterotrophic Bacterium Acetobacter Sp
- Bioleaching of Gold from Sulfidic Gold Ore Concentrate and Electronic Waste by Roseovarius Tolerans and Roseovarius Mucosus
- BIOLEACHING of LATERITIC NICKEL ORE USING CHEMOLITHOTROPHIC MICRO ORGANISMS (Acidithiobacillus Ferrooxidans)
- Acidithiobacillus Thiooxidans DSM 26636: an Alternative for the Bioleaching of Metallic Burrs
- Bioleaching of Gold from Silicate Ore by Macrococcus Caseolyticus and Acinetobacter Calcoaceticus: Effect of Medium, Amino Acids and Growth Supernatant
- Fungal Leaching of Iron Ore: Isolation, Characterization and Bioleaching Studies of Penicillium Verruculosum
- Dephosphorization of Iron Ore Through Bioleaching Kanan Mammadov Dissertação Apresentada À Escola Superior De Tecnologia E Ge
- Analysis of the Effects of Natural Organic Matter in Zinc Beneficiation
- Biotechnology in Gold Processing
- Microbial Diversity and Community Assembly Across Environmental Gradients in Acid Mine Drainage
- Mechanism Underlying the Bioleaching Process of Licoo2 by Sulfur-Oxidizing and Iron-Oxidizing Bacteria
- Bioleaching of Copper and Zinc from Oxide Resources by a Heterotrophic Bacterium
- Bioleaching for the Removal of Arsenic from Mine Tailings by Psychrotolerant and Mesophilic Microbes at Markedly Continental Climate Temperatures
- Arsenic Precipitation in the Bioleaching of Realgar Using Acidithiobacillus Ferrooxidans
- Arsenic Bioleaching in Medical Realgar Ore and Arsenic- Bearing Refractory Gold Ore by Combination of Acidithiobacillus Ferrooxi
- Identification of Bacteria Recovered from Acid Mine Environments By
- Advances in Bioleaching As a Sustainable Method for Metal Recovery from E-Waste: a Review Baniasadi, M., Vakilchap, F., Bahaloo-Horeh, N., Mousavi, S
- Bioleaching and Biomining
- Comparison of Gold Extraction Yields by Cyanide Treatment Vs
- Development of Bioleaching: Proteomics and Genomics Approach in Metals Extraction Process
- Bioleaching of Arsenic and Antimony from Mining Waste
- Assessment of Characteristics of Acid Mine Drainage Treated with Fly Ash
- INDUSTRIAL BIOTECHNOLOGY Working Group Report
- Bioleaching of Pyrrhotite with Bacterial Adaptation and Biological Oxidation for Iron Recovery
- Influence of Dissolved Oxygen on the Bioleaching Efficiency Under Oxygen Enriched Atmosphere
- Bioleaching and Electrochemical Leaching of a Pyritic Chalcopyrite Concentrate Mohammad Khoshkhoo , Mark Dopson , Åke Sandströ
- Bioleaching of Iron, Copper, Lead, and Zinc from the Sludge Mining Sediment at Different Particle Sizes, Ph, and Pulp Density Using Acidithiobacillus Ferrooxidans
- Acid Mine Drainage in the Iberian Pyrite Belt: an Overview With
- SIOLEACHING of METALS from SOILS OR SEDIMENTSWSNG the MICROBIAL SULFUR €¥€LE Richard Tichy
- Biological Generation of Sulphuric Acid for Bioleaching of Copper Oxide Ores
- Comparison of Three Different Bioleaching Systems for Li Recovery from Lepidolite
- Microbial Mining HS Lesson 1.Pdf
- Redalyc.Arsenic Tolerance and Bioleaching from Realgar Based on Response Surface Methodology by Acidithiobacillus Ferrooxidans I
- A Concise Review of Nanoscopic Aspects of Bioleaching Bacteria-Mineral Interactions