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Metallurgy and Material Science
Metals Biotechnology (Web)
Syllabus
Co-ordinated by :
IISc Bangalore
Available from :
2013-03-27
Lec :
1
Modules / Lectures
Foreword
Foreword
Microbiology, mechanisms and methods in metals biotechnology
Biology – Materials Interface And Biomaterials Processing
Biogenesis Of Metals And Minerals
History And Methods In Biohydrometallurgy
Microorganisms In Biohydrometallurgy
Reactor Bioleaching And Developments In Bioleaching Of Concentrates
Bioleaching Mechanisms
Bacterial Attachment To Minerals
Metal Toxicity In Leaching Bacteria
Development Of Metal-tolerant Acidithiobacillus ferrooxidans
Biohydrometallurgy of base metal sulfides
Biohydrometallurgy Of Copper – General Principles, Mechanisms And Microorganisms
Biohydrometallurgy Of Copper – Dump And Heap Leaching
Biohydrometallurgy Of Copper – Modern Developments
Bioleaching Of Nickel From Sulfides And Laterites
Heap Bioleaching Technology For Nickel
Bioleaching Of Zinc Sulfide Ores And Concentrates
Biohydrometallurgy of nuclear and precious metals
Biohydrometallurgy Of Uranium – Microorganisms And Mechanisms
Biohydrometallurgy Of Uranium – Dump, Heap and In situ Leaching
Biohydrometallurgy Of Uranium – Industrial Aspects And Remediation
Biotechnology For Gold – Biogenesis, Microorganisms And Gold Nanobiotechnology
Biotechnology For Gold – Biooxidation Of Refractory Sulfidic Concentrates
Biotechnology For Gold – Recent Developments
Bioprocessing of unconventional resources
Biomineralization and Bioprocessing of Ocean ferromanganese nodules
Bioprocessing Of Industrial Wastes
Electrochemical aspects of bioleaching
Electrochemistry Of Sulfide Minerals With Respect To Bioleaching
Galvanic And Electrobioleaching Of Sulfide Minerals
Electrobioleaching For Mixed Sulfides And Ocean Nodules
Biomineral beneficiation
Principles Governing Microbe-Mineral Interfacial Phenomena
Biobeneficiation Of Sulfide Minerals Using Acidithiobacillus Bacteria
Biobeneficiation Of Sulfide Minerals Using Paenibacillus Polymyxa
Biobeneficiation Of Iron Ores – Bacillus subtilis, SRB And Yeasts
Biobeneficiation Of Iron Ores Using Paenibacillus Polymyxa
Alumina Separation And Environmental Control In Iron Ore Beneficiation
Biobeneficiation Of Industrial Minerals
Biofouling, biocorrosion and biomaterials
Microorganisms In Biofouling And Biocorrosion
Biofilms And General Mechanisms In Biocorrosion
Biocorrosion And Biofouling – Mechanisms, Failure Analysis And Control
Biomaterials And Human Implants
Microbiological aspects of environmental pollution and control
Acid Mine Drainage – Mechanisms And Control
Bioremediation Technologies In Mining
Industrial Aspects And In Situ Remediation
Experimental Determination Of Acid Mine Drainage
Bioremediation Using Sulfate Reducing Bacteria - Copper, Iron, Zinc And Arsenic
Laboratory and research techniques in metals biotechnology
LaborLaboratory Experiments In Metals Biotechnology - I
Laboratory Experiments In Metals Biotechnology - II
Laboratory Experiments In Metals Biotechnology - III
References
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