An Integration of Phycoremediation Processes in Wastewater Treatment

<p>1. Lipid extraction and biodiesel production from microalgae: Recent advances</p> <p>2. Algal Biomass Production Coupled to Wastewater Treatment</p> <p>3. Bioprospecting of novel algal species with nanobiotechnology</p> <p>4. ROLE OF MICROALGAE IN DEGRADATION OF PHARMACEUTICAL COMPOUNDS FROM WATER</p> <p>5. Algae mediated technologies in biotreatment of phenolic wastewaters</p> <p>6. Microalgae: A potential tool for wastewater treatment and its biotechnological applications</p> <p>7. Trends in Photobioreactor technology for microalgal biomass production via CO2 sequestration: bottlenecks and breakthroughs</p> <p>8. Algae: The High Potential Resource for Biofuel Production</p> <p>9. Bioactive compounds from microalgae cultivated in wastewaters</p> <p>10. Wastewater treatment coupled with algal biomass production</p> <p>11. Microbial Communities: An Effective Tool for Cleaning Environment</p> <p>12. An overview of various algal biomolecules and its applications</p> <p>13. Use of Bioprospecting approach to reveal the potential of various algal species for value added compounds</p> <p>14. Algal biomass production coupled with wastewater treatment </p> <p>15. An Innovative Role of Bioactive Compounds from Microalgae</p> <p>16. Bioactive Compounds from Microalgae</p> <p>17. Algal biofuels</p> <p>18. Genetic Engineered Algae: Recent Developments and the Promising Engender for Wastewater treatment</p> <p>19. Waste gas and wastewater into biodiesel: Closing the loop on the circular energy economy</p> <p>20. Agriculture waste bioremediation with algae and potential for methane production</p> <p>21. Microalgae: Classification, bioactives, medicinal properties, industrial applications and future prospective</p> <p>22. Genetic Engineering of Algae</p> <p>23. Bioactive Compounds from Microalgae</p>