ISBN13: | 9780443134647 |
ISBN10: | 0443134642 |
Kötéstípus: | Puhakötés |
Terjedelem: | 408 oldal |
Méret: | 234x190 mm |
Súly: | 450 g |
Nyelv: | angol |
691 |
Metal Sulfide Nanomaterials for Environmental Applications
EUR 186.99
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Metal Sulfide Nanomaterials for Environmental Applications presents the fundamentals necessary to understand the latest developments and possibilities of applied use, specifically for chemical detection/sensing and monitoring in air, soil, and water matrices as well as for chemical reaction engineering purposes (conversion, photocatalysis, adsorption) to facilitate removal of pollutants. Organic contaminants, volatile organic compounds, and heavy metals pose long-term threats to natural ecosystems and human health. Particularly in the last decade, metal sulfide nanomaterials have piqued researchers’ interest due to their outstanding physicochemical characteristics that make them amenable to modulation, as well as their qualitative and quantitative structure-activity relationship.
2. Substitutional structural modifications and optoelectronic properties of metal sulphide
3. Defects and band gap engineering in metalsulfides heterostructure nanomaterials
4. Conventional synthetic routes and structural characterization of metal sulphide nanomaterials
5. Advances in biogenic synthesis of metal sulfide nanomaterials
Part 2. Detection and Monitoring of Environmental Pollutants
6. Metal sulfide nanomaterials for gas sensing
7. Metal sulfide-based electrochemical sensors for the detection of organic water contaminants
8. Metal sulfide nanomaterial composites for electrochemical detection of heavy metal ions
Part 3. Removal of Environmental Pollutants
9. Interface dynamics in metal sulphides and metal oxides for photodegradation of organic contaminants
10. Carbon-metal sulfide nanomaterial photocatalysts for environmental remediation
11. Metal sulfide nanomaterial-based photocatalysts for remediation of gaseous air pollutants
12. Hybrid metal sulfide nanomaterials for the removal of heavy metal water contaminants
13. Recent advances in metal sulphide nanomaterials for antimicrobial activity and disinfection self-cleaning
14. Advances in sulfur-doped nanomaterials for environmental remediation