Main Topics
The Main Topics of CST 2025 are the following:
- Biological and Pharmaceutical Science
- Biopolymers for tissue engineering and regenerative medicine
- Genetic engineering
- Pharmaceutical engineering
- Biopharmaceutics and biotechnology medicine
- Microbial engineering in health
- Therapeutic bioengineering
- Drug delivery systems
- Electrochemistry for clinical diagnosis
- Biopolymers in biomedical applications
- Biomedical composites
- Bioinstrumentation
- Biomedical signal and image processing
- Bioinformatics
- Biosensors
- Biomaterials and nanomedicine
- Development in food science and engineering
- Food chemistry & nutraceuticals
- Electrochemical Sensors
- Biopolymers & food packaging
- Crop protection & entomology
- Agricultural biotechnology and sustainability
- Nanoscience and nanotechnology in the food sector
- Advances in chemical engineering and environmental
- Chemical process safety and hazards
- Green chemistry
- Major challenges of chemical reaction engineering
- Modeling and simulation of chemical process
- Electrochemical engineering
- Water science and technology advancement
- Air, soil & water pollution and treatment
- Environmental impact assessment
- Environmental electrochemistry
- Environmental chemical engineering
- Environmental management
- Nanoscience and nanotechnology in environmental processes
- Recent development in materials science and engineering and Environmental
- Smart materials
- Electrochemical materials science
- Carbon and graphene materials
- Supramolecular chemistry
- Corrosion
- Electrospinned
- Electrosynthesis
- Electroplating
- Electromachining
- Biopolyelectrolytes
- Mineral extraction
- Major challenges in energy
- Petroleum engineering
- Catalysis for renewable sources
- Photoelectrochemistry, photocatalysis and photoreactors
- Catalytic materials
- Biocatalysis and biotransformation
- Industrial catalysis
- Renewable energy
- Electrochemical energy conversion and storage
- Electrocatalysis
- Fuelcells
- Batteries and supercapacitors
- Polymer membranes for energy
- Nanoscale in catalysis and energy application
- Frontiers in inorganic, organic and analytical chemistry
- Application of analytical chemistry
- Flow injection analysis (FIA)
- Development of new analytical methods
- Validation of analytical methods
- Innovation in chemical sensors
- Analytical instrumentation
- Advanced organic synthesis
- Computational chemistry and cheminformatics
- Organometallic chemistry
- Separation techniques
- Natural products
- Electroanalysis
- Spectroscopy
- Ceramics
- X-ray structure analysis
