Basic and applied sciencera international

Basic and Applied Science Institute research areas

Nanoscience Program

1) Nanoscience Program

  • Carbon-Based Nanostructures (Carbon Nanofibers, CNTs, Graphene, etc.) Materials for Energy Generation, Conversion and Storage (Photo-Hydrogen Generation, Supercapacitors, Batteries, Fuel Cells, QDDSCs.)
  • Inorganic and Organic Thermoelectric Materials
  • Sensing and Remediation of Water for the Toxic and Radioactive Elements
  • Conducting Polymer Nanofilms and Their Application in Sensors and Catalysis
  • Nanocatalyts for Micro-Reaction Systems and High and Low Temperature Synthesis Applications (Pharmaceutical and Petrochemical)
  • Electro-Optical Characterization of Carbon Nanostructures by Using Advanced Laser Photolysis Techniques
  • Inorganic Material/ Organic Polymer Nanocomposites and Their Application In Sensors, Catalysis, Photocatalysis, Drug Delivery and Super Adsorbents
  • Electrical Conductive Carbon Nanofibers, Graphene, Carbon Nanotubes for Flexible Printed Electronics, Mechanical and Gas Sensing Applications.
  • Mesoporous Materials and their Application in Sensors , Catalysis and Drug Delivery
  • Carbon Nanostructures for Medical Applications (Light Therapy and Drug Delivery)
  • Nanostructured Conducting Polymers and their Application for Absorbing and Sensing Pollutants
  • Nanostructured Coatings for Corrosion Protection and Thermal Management
Biotechnology Program

2) Biotechnology Program

  • Medical / Pharmaceutical Biotechnology: Diagnostics ; Therapeutics
  • Industrial Biotechnology
  • Environmental Biotechnology: Bioremediation/ Pollutants, Ecosystems.
  • Food and Agricultural Biotechnology
  • Bioinformatics : Analysis and Interpretation of Biological Data
Applied and Computational Mathematics (ACM) Program

3) Applied and Computational Mathematics (ACM) Program

  • Computational Methods for Ordinary , Fractional and Partial Differential Equations
  • Fractional Calculus and Applications
  • Dynamical Systems
  • Stochastic Modelling
  • Quantum Computing
  • Optimization
  • Applications of Computational Mathematics to Science And Engineering
Energy Materials Program

4) Energy Materials Program

  • Physics of Solar Cells Devices
  • Physics of Semiconductors for Energy Applications
  • Quantum Structures for Optoelectronics
  • Physics of Nanoelectronics and Spintronics Materials
  • Solar Fuels: Conversion of Light Energy into Chemical Energy
  • Nanocrystalline Thin Film Solar Cells
  • Nanocrystalline Carbon Quantum Dots for Photoenergy and Medical Therapy
  • Thin Film and Bulk Thermoelectric Materials
  • Characterization of Novel Semiconductors Materials in Space Missions
  • Impact of Radiation on Energy Materials in Space Environment