Green Photocatalytic Semiconductors

lt;b>Dr. Seema Garg is an Associate Professor at Amity University, Noida, UP, India. She received her Ph.D. degree in 2003 in Chemistry from Dr. B. R. Ambedkar University, Agra, UP, India. Her research interests focus on water treatment, photocatalysis, including development of material for enhancing the photocatalytic activity, hydrogen generation and Carbon di-oxide reduction reactions to provide efficient and affordable solution. She has to her credit 10 patents and a number of publications in journals of repute. She is on the reviewer and editorial board of many journals too. She is supervising 5 students towards their doctoral degree and has supervised many post graduate students. She has completed an international, Indo-Hungarian project as a Principal investigator, funded by the Department of Science and Technology, New Delhi, India. Her teaching engagements include Analytical Chemistry, Analytical Techniques, Applied Chemistry, Engineering Chemistry, Spectroscopic Techniques, Spectroscopic Methods of Analysis, Catalysis and Green Chemistry to the under-graduate, post-graduate and Ph.D. students.
Dr. Amrish Chandra is an Associate Professor in Drug Regulatory Affairs at Amity Institute of Pharmacy, Amity University Uttar Pradesh, Noida. He obtained his M.Pharm. degree in Pharmaceutical Biotechnology from Birla Institute of Technology, Mesra, Ranchi. He got his PhD from Bundelkhand University, a state government University. He is also a registered Patent Agent with Govt of India. He holds advisory position in national & international companies and is on the editorial board of many reputed journals. Till date he has successfully supervised 8 PhD scholars & 35 Post graduate students, he is currently supervising 6 doctoral candidates. He holds extensive research collaborations in Hungary & Italy. He has to his credit 85 papers & 12 patents. His research involves an integrative approach to harness the herbal diversity of the country, synthesize nanoparticles and develop effective formulations. His current research interests focus on synthesis and application of nanomaterials for environmental remediation and hydrogen generation.

Photocatalysis: Introduction, Mechanism, and Effective Parameters.- Optimization of process, Mechanism and Kinetics study for Photocatalytic oxidation.- Design and synthesis of nanostructured photocatalysts for water remediation.- Graphene Based Nanocomposites for Photocatalytic Applications: Emphasis on Environmental Remediation.- Polymer Nanocomposite Films Based on Two-Dimensional Materials for Photocatalytic Applications.- Photocatalyst composites from Bi-based and carbon materials for visible light photodegradation.- New photocatalytic materials based on complexes of nanodiamonds with diphthalocyanines of rare earth elements.- Photoreactive composite coatings with tunable surface wetting properties and its application possibilities.- Rare earth doped luminescent materials as photocatalysts for enhanced photocatalytic reactions.- Enhancement of singlet oxygen generation of Radachlorin® conjugated with polyvinylpyrrolidone and nanodiamonds in aqueous media.- The role of metal nanoparticles on nanocomposites for UV and visible light active photocatalysis.- The role of oxygen vacancy and other defects  for activity enhancement.- Efficient Visible-light-driven Perovskites Photocatalysis: Design, Modification and Application.- Advanced laser methods for synthesizing photocatalysts.- Immobilization of photocatalytic material on the suitable substrate.- Photo-Catalytical and Other Similar Green Technologies for Reducing Environmental Impacts of Leather Industries.- Science and Technology Roadmap for Photo-catalytic Membrane Separation: A Potential Route for Environmental Remediation and Fouling Mitigation.- Photocatalysis degradation of dye using P-type nanoparticles.- Nano Enhanced Photocatalytic Approach for Separation of Oily Emulsion from Aqueous Effluents: Recent Trends, Future Perspective and Challenges.- Photocatalytic CO2 reduction.- Emerging Photocatalysts for Hydrogen production Electro-catalytic and Photo-catalytic water splitting.- Bandgap Engineering of Heterostructures for Visible Light Driven Water Splitting.- Novel Solid Photocatalysts for Hydrogen Generation from Aqueous Phases.- Visible Range Activated Metal Oxide Photocatalysts in New and Emerging Energy Applications.- Hybridized nanomaterials for enhancing photocatalytic activity in solar fuel production.