SESSIONS AND TOPICS
Authors are invited to submit abstracts on topics of their interest!
Our conferences has drawn top researchers from around the world to share their insights. The conference aims to serve as a dynamic platform for scientists and researchers worldwide to engage in the exchange of cutting-edge scientific information, fostering meaningful connections, and potentially forging collaborative partnerships. With a dedicated focus on the conference topics, we aspire to facilitate the advancement of knowledge and innovation in our collective pursuit of scientific excellence.
Authors are invited to submit their abstracts under one of the following topics:
- Advanced Building and Infrastructure Materials
- Advanced Energy Conversion: Solar Thermal, CSP, Thermophotovoltaics
- Advanced Photovoltaic Materials: Solar Cells, Thin Films, Perovskites, Organic and Hybrid Photovoltaics
- Carbon Capture, Utilization, and Storage (CCUS)
- Catalysis and Chemical Processes
- Electrochemical Energy Storage: Batteries, Supercapacitors, Solid-state Batteries, Flow Batteries
- Energy Harvesting Materials: Thermoelectrics, Piezoelectrics, Triboelectrics
- Energy-efficient Building Materials and Technologies
- Energy-efficient Lighting: LEDs, OLEDs, Phosphors
- Energy-efficient Sensors and Systems
- Environmental Impact and Life-cycle Analysis
- Fuel Cell Technologies: Hydrogen Production, Storage, Fuel Cells
- Grid-scale Storage Solutions: Compressed Air Energy Storage, Pumped Hydroelectric Storage
- Hydrogen Storage and Utilization
- Insulation and Thermal Management
- Materials for Electronics and Power Devices
- Nanogenerators and Piezoelectronics
- Nanomaterials for Energy Applications
- Next-Generation Batteries
- Nuclear Energy Materials
- Phase Change Materials
- Smart Grid Technologies
- Smart Windows and Transparent Solar Cells
- Sustainable Energy Applications: Biomass, Biofuels, Waste-to-energy
- Transportation Applications: Lightweight Materials, Electric Vehicles, Hybrid Vehicles, Aerospace
- Wind and Hydroelectric Energy Materials
- Advanced Characterization of Photonic Materials
- Advanced Lasers and Photodetectors
- Electro-optic and Acousto-optic Materials
- Integration of Photonic and Electronic Materials
- Light-Emitting Diodes (LEDs) and Display Technologies
- Materials for Nonlinear Optics
- Materials for Terahertz Applications
- Nanoscale Photonics
- Optical Fibers and Waveguides
- Organic and Inorganic Photovoltaic Materials
- Photonic Crystals and Metamaterials
- Photonic Materials for Communication Technologies
- Quantum Dots and Quantum Well Structures
- Semiconductor Materials and Devices
- Synthesis and Processing of Photonic Materials
- Transparent Conducting Oxides
- Advances in Electrochemical Energy Storage
- Battery Materials and Energy Storage Systems
- Catalysts for Energy Applications
- Energy-Efficient Materials and Technologies
- Environmental Impact of Materials Science
- Fuel Cells and Hydrogen Technology
- Green Materials and Sustainable Technologies
- Materials for CO2 Capture and Utilization
- Materials for Nuclear Energy
- Materials for Solar Energy Conversion and Photovoltaics
- Materials for Water Treatment and Purification
- Materials for Wind and Hydro Energy
- Photocatalytic Materials for Environmental Applications
- Supercapacitors and Energy Harvesting
- Thermoelectric Materials
- Waste Management and Recycling Materials
- Advanced Nanocomposites
- Carbon Nanotubes and Nanofibers
- Characterization and Metrology of Nanomaterials
- Commercialization and Industrial Applications of Nanomaterials
- Environmental Applications of Nanotechnology
- Functional Nanomaterials: Structure, Properties, and Applications
- Gold Nanoparticles
- Graphene and Carbon Nanostructures
- Graphene and Other 2D Materials
- MXenes—Current Research and Scope of Future Advancements
- Nano- and Smart Materials in Solar Energy, Conversion, and Storage
- Nano-Biosensors
- Nanobiotechnology
- Nanocomposites and Hybrid Nanomaterials
- Nanocrystalline Materials
- Nanodevices and Nanosensors
- Nanodiamonds
- Nanoelectronics and Nanophotonics
- Nanoelectronics and Nanosensors
- Nanofabrication and Nanomanufacturing
- Nanofluids
- Nanographene Batteries
- Nanomaterials Fabrication, Characterization, Modeling, and Simulation
- Nanomaterials for 3D Printing and Additive Manufacturing
- Nanomaterials for Advanced Coatings and Surface Engineering
- Nanomaterials for Agriculture and Food Industry
- Nanomaterials for Biomedical Applications
- Nanomaterials for Biotechnology and Bioengineering
- Nanomaterials for Catalysis and Chemical Processes
- Nanomaterials for Drug Delivery and Therapeutics
- Nanomaterials for Electronics and Optoelectronics
- Nanomaterials for Energy Applications
- Nanomaterials for Energy Storage and Conversion
- Nanomaterials for Environmental Applications
- Nanomaterials for Flexible and Wearable Electronics
- Nanomaterials for Photonics and Plasmonics
- Nanomaterials for Tissue Engineering and Regenerative Medicine
- Nanomaterials for Water Purification and Desalination
- Nanomechanics and Nanotribology
- Nanoparticle Synthesis and Characterization
- Nanophotonics and Plasmonics
- Nanostructured Coatings, Surfaces, and Membranes
- Nanostructured Materials and Devices
- Nanotechnology and Quantum Computing
- Nanotechnology for Space Exploration and Aerospace Applications
- Nanotechnology for Sustainable Development
- Nanotechnology for Water and Air Filtration
- Nanotechnology in Agriculture and Food Industry
- Nanotechnology in Medicine and Healthcare
- Nanotechnology in Optics and Photonics
- Nanotechnology in Water Treatment
- Nanotechnology-driven Solutions for Better Energy Storage
- Nanotoxicology and Safety Aspects of Nanomaterials
- Physico-chemical Nanomaterials and Nanotechnology
- Polymers, Colloids, and Soft Nanotechnology
- Quantum Dots and Their Applications
- Recent Advancements in Nanotechnology and Their Applications
- Synthesis and Characterization of Nanomaterials
- Toxicology and Safety of Nanomaterials
- 2D Materials and Their Functional Applications
- Advanced Characterization Techniques for Functional Materials
- Advanced Functional Polymers and Composites
- Biomimetic and Bioinspired Materials: Design and Functional Properties
- Commercialization and Industrial Applications of Functional Materials
- Computational Modeling and Simulation of Functional Materials
- Conductive and Transparent Materials
- Emerging Technologies and Applications of Functional Materials
- Ferroelectric and Piezoelectric Materials: Design, Properties, and Applications
- Functional Coatings and Surface Engineering
- Functional Materials for Biomedical Applications
- Functional Materials for Catalysis and Chemical Processes
- Functional Materials for Electronics and Optoelectronics
- Functional Materials for Energy Conversion and Storage
- Functional Materials for Environmental Monitoring and Remediation
- Functional Materials for Sensors and Actuators
- Functional Materials for Wearable Technology and Flexible Electronics
- Functional Nanomaterials: Synthesis, Characterization, and Applications
- Magnetic and Spintronic Materials: Properties and Applications
- Multifunctional Composite Materials: Design, Fabrication, and Properties
- Photonic and Plasmonic Materials: Design, Fabrication, and Applications
- Self-Healing Materials and Technologies
- Shape Memory Materials: Behavior, Applications, and Advancements
- Smart Materials and Structures: Responsive and Adaptive Behavior
- Smart Textiles and Wearable Materials
- Soft and Flexible Functional Materials
- Stimuli-Responsive and Adaptive Materials
- Structural-Functional Integrated Materials
- Superconducting Materials and Applications
- Additive manufacturing of composite and ceramic materials
- Advanced composite materials: Design, fabrication, and characterization
- Bio-inspired composites: Structure, mechanics, and applications
- Biomaterials and bioceramics: Design, fabrication, and biomedical applications
- Ceramic coatings and surface engineering: Deposition techniques, properties, and applications
- Ceramic materials for electronic and photonic applications
- Ceramic materials for energy applications: Fuel cells, solar cells, and batteries
- Ceramic matrix composites: Processing, properties, and applications
- Ceramic nanomaterials: Synthesis, assembly, and functionalization
- Characterization techniques for composite and ceramic materials
- Composite and ceramic materials for aerospace and automotive applications
- Composite and ceramic materials in medical and dental applications
- Electrically and thermally conductive composites
- Environmental and sustainability aspects of composites and ceramics
- Fiber-reinforced composites: Manufacturing and performance
- High-temperature ceramics and composites
- Hybrid composites: Combining different material types for enhanced performance
- Industrial applications and commercialization of composite and ceramic materials
- Lightweight and high-strength materials
- Modeling and simulation of composite and ceramic materials
- Multifunctional composite materials
- Nanocomposites and nanoceramics
- Natural and Bio-Based Composites
- Applications of Natural Fiber-Reinforced Composites
- Processing Techniques for Bio-Based Composites
- Mechanical Properties of Natural Composites
- Environmental Impact and Life Cycle Analysis of Bio-Composites
- Polymer-ceramic composites
- Polymer-matrix composites: Manufacturing, performance, and optimization
- Processing innovations in composites and ceramics
- Smart and multifunctional composites: Sensing, actuation, and self-healing capabilities
- Smart and responsive composite materials
- Structural ceramics: Processing, characterization, and mechanical properties
- Structural health monitoring of composite materials
- Advanced Materials in Cancer Therapy
- Antibacterial and Antimicrobial Biomaterials
- Bioactive Coatings and Surface Modifications for Medical Devices
- Bioactive Glasses and Ceramics for Medical Applications
- Bioactive Materials and Scaffolds
- Bioactive Materials for Wound Healing and Tissue Repair
- Biocompatibility Assessment and Testing of Biomaterials and Biodevices
- Biocompatible and Bioresorbable Materials: Design and Applications
- Biocompatible Polymers and Hydrogels for Biomedical Applications
- Biodegradable Materials and Stents for Medical Applications
- Biodevices for Drug Screening and Personalized Medicine
- Bioelectronics and Implantable Medical Devices
- Biofabrication and 3D Bioprinting of Tissues and Organs
- Bioinspired and Biointerfacing Materials for Improved Biocompatibility
- Biomaterials for Cardiovascular, Dental, and Orthopedic Applications
- Biomaterials for Drug Delivery and Controlled Release Systems
- Biomaterials for Neural Interfaces and Neuroengineering
- Biomaterials for Tissue Engineering and Regenerative Medicine
- Biomaterials: Synthesis and Characterization
- Biomechanics and Mechanobiology of Biomaterials
- Biomedical Applications of 3D Printing and Additive Manufacturing
- Biomimetic Materials and Structures for Biomedical Engineering
- Biosensors and Diagnostic Devices for Healthcare Monitoring
- Hydrogels and Smart Hydrogels
- Imaging and Visualization Devices
- Lab-on-a-Chip and Microfluidic Devices
- Materials for Medical Devices
- Nanomaterials and Nanoparticles for Targeted Drug Delivery
- Orthopedic and Dental Materials
- Polymers in Biomedical Applications
- Radio and Photo Therapy Devices
- Surface Modification of Biomaterials
- Advances in Magnetism, Electromagnetism, and Spintronics
- Applications of Electronic, Magnetic, and Optical Materials
- Electronic, magnetic and optical materials: Structure and design
- Electronic, Magnetic, and Optical Materials: Market Trends, Challenges, and Innovations
- Hybrid and Multifunctional Electronic, Magnetic, and Optical Materials
- Luminescence Mechanisms and Energy Transfer Processes
- Luminescence mechanisms and energy transfers
- Magnetism, electromagnetism and spintronics
- Magnetostrictive materials: New Developments and Device Applications
- Nanoscale electronic, magnetic and optical materials
- Nanoscale Electronic, Magnetic, and Optical Materials: Advances and Challenges
- Piezoelectric Materials: Emerging Trends and Device Innovations
- Synthesis and Characterization Techniques for Next-generation Electronic, Magnetic, and Optical Materials
- Advances in Sustainable Packaging Materials
- Bio-Based Materials and Biomass Utilization
- Biodegradable Materials, Polymers, and Composites
- Bio-Based and Natural Fiber-Reinforced Composites
- Carbon Capture and Utilization Materials
- Chemical Safety and Sustainability
- Chemicals Management and Green Economy
- Circular Economy and Materials Science
- Eco-Friendly Manufacturing Processes
- Energy-Efficient Materials
- Environmental and Green Nanotechnology
- Environmental Impact and Life-Cycle Assessment of Materials
- Green and Sustainable Chemistry Education
- Green Catalysis
- Green Chemistry in Environmental Science and Materials Science
- Green Electronics and Sustainable IT Materials
- Green Fossil Energy, Biomass, and Future Fuels
- Green Solvents
- Green Synthesis, Manufacturing, and Engineering Processes
- Green Technologies
- Innovation in Sustainable and Green Chemistry
- Innovations in Sustainable Technologies
- Life Cycle Assessment of Materials
- Materials for Carbon Capture and Sequestration
- Materials for Green Building
- Materials for Renewable Energy Technologies: Solar, Wind, and Biomass
- Materials for Sustainable Agriculture and Food Packaging
- Materials for Water and Air Purification and Treatment
- Nanomaterials for Environmental Applications
- Photocatalytic Materials for Environmental Remediation
- Recycling and Waste Management
- Smart and Responsive Materials for Environmental Monitoring
- Sustainable Nanomaterials
- Waste Reduction, Recycling, and Upcycling Technologies
- Application of biosensors in drug delivery and clinical chemistry
- Bioelectronics and bioinstrumentation
- Biological materials
- DNA Chips
- Enzyme-based biosensors
- Immunosensors
- Lab-On-A-Chip
- Nanoelectronics biosensors
- Natural and synthetic receptors
- Novel transducers and photonic sensor technologies
- Organism- and whole cell-based biosensors
- Sensors
- μ-TAS
- Activated Carbon and Porous Carbon Materials
- Advanced Characterization Techniques for Carbon Nanotubes
- Advances in Diamond Characterization Techniques
- Carbon Blacks
- Carbon Nanomaterials: Synthesis, Properties, and Applications
- Carbon Nanotube Composites and Applications
- Carbon Nanotube Fibers and Textiles
- Carbon Nanotube Innovations
- Carbon Nanotube Market Trends and Commercialization
- Carbon Nanotube-Based Sensors
- Carbon Nanotubes: Growth, Functionalization, and Device Applications
- Carbon Nanotubes for Drug Delivery and Biomedical Applications
- Carbon Nanotubes for Water Treatment
- Carbon Nanotubes in Electronics and Photonics
- Carbon Nanotubes in Energy Applications
- Carbon Nanotubes in Structural Applications
- Carbon-Based Coatings and Surface Modifications
- Carbon-Based Composites and Hybrid Materials
- Carbon-Based Electrodes and Supercapacitors
- Carbon-Based Sensors and Actuators
- Carbon Materials Characterization Techniques and Modeling
- Carbon Materials for Additive Manufacturing (3D Printing)
- Carbon Materials for Biomedical Applications
- Carbon Materials for Catalysis and Chemical Processes
- Carbon Materials for Energy Storage and Conversion
- Carbon Materials for Energy-Efficient Buildings and Infrastructure
- Carbon Materials for Environmental Applications
- Carbon Materials for Flexible Electronics and Wearable Devices
- Carbon Materials for Hydrogen Storage and Fuel Cells
- Carbon Materials for Sustainable and Green Technologies
- Carbon Materials for Thermal Management and Heat Transfer Applications
- Carbon Materials for Water Purification and Desalination
- Carbon Materials in Advanced Manufacturing and Aerospace Applications
- Diamond and Diamond-Like Carbon (DLC) in Electronics and Photonics
- Fullerenes
- Glassy Carbon
- Graphene and Graphene-Related Materials
- Graphite
- Pyrolytic Carbon
- Ab Initio Calculations
- Applications of Quantum Computing in Materials Science
- Big Data Analytics in Materials Science
- Computational Approaches to Energy Materials
- Computational Materials Design
- Computational Materials Science
- Computational Methods for Materials Discovery
- Computational Nanomaterials
- Computational Study of Nanomaterials
- Computational Techniques in Materials Science
- Computational Thermodynamics and Kinetics
- Computer-Aided Learning and Teaching
- Computer-Aided Materials Selection, Design, and Manufacturing
- Computer-Integrated Material Processing Technology
- Density Functional Theory
- Density Functional Theory and Molecular Dynamics
- Electronic Structure Calculations
- Finite Element Analysis and Mesoscale Modelling
- First-Principles Calculations and Density Functional Theory
- High-Performance Computing in Materials Research
- High-Throughput Computational Materials Design
- Internet of Things-Based Methods
- Machine Learning and AI in Materials Design
- Machine Learning in Materials Science
- Materials Genome Initiative
- Materials Modeling and Simulation
- Molecular Dynamics and Monte Carlo Simulations
- Monte Carlo and Molecular Dynamics Techniques
- Multiscale Modeling of Materials
- Nanoscale Modelling
- Phase Field Modeling
- Phase Field Modeling and Microstructural Evolution
- Predictive Modeling for Materials Development
- Predictive Modeling of Materials Behavior
- Quantum Chemical, Semi-Empirical, and Classical Approaches
- Simulation of Complex Materials Systems
- Simulation of Manufacturing Processes
- Simulation of Material Properties and Behavior
- 2D Materials
- Applications of Graphene
- Bio-Graphene
- Environmental Impact and Sustainability of Graphene Production
- Graphene Based Devices
- Graphene Based Polymers
- Graphene in Biomedical Applications
- Graphene in Electronics and Photonics
- Graphene in Energy Storage and Conversion
- Graphene Nanoplatelets
- Graphene Nanotubes
- Graphene Sheets
- Graphene Technology
- Graphene: Modification and Functionalization
- Graphene: Synthesis and Characterization
- Graphene-Based Composites
- Graphene Advanced Applications
- Graphene Materials and Properties
- Mechanical Properties of Graphene
- Additive Manufacturing and 3D Printing of Materials
- Advances in Polymerization Techniques
- Biomimetic and Bioinspired Synthesis
- Chemical Vapor Deposition (CVD) and Atomic Layer Deposition (ALD)
- Combinatorial Materials Synthesis
- Electrodeposition and Electrochemical Synthesis
- Green and Sustainable Synthesis Approaches
- High-Throughput Synthesis and Screening
- Inorganic Materials Synthesis
- Lighting Materials and Technology
- Macromolecular and Nanomaterial Synthesis
- Materials Processing, Structure, and Properties
- Materials Processing Under Extreme Conditions
- Materials Synthesis
- Metals and Alloys
- Metamaterials
- Plasma and Laser-Based Synthesis Methods
- Scale-Up and Industrial Production of Advanced Materials
- Self-Assembly and Self-Organization in Materials
- Solid-State Chemistry
- Solid-State Synthesis Techniques
- Sol-Gel Processing and Hydrothermal Synthesis
- Structural and Spectroscopic Probing
- Synthetic Materials Chemistry
- Synthesis of Nanomaterials and Nanostructures
- Thin Film Deposition Techniques
- Thin-Film Processing
- Advances in Polymer Recycling
- Applications of Polymers
- Biopolymers and Biodegradable Polymers
- Conductive and Electroactive Polymers
- Dynamics of Block Copolymers
- Dynamics of Polymer Melts and Glasses
- Functional Polymeric Materials
- Functional Polymers and Smart Polymers
- High-Performance Polymers
- Hydrogels and Superabsorbent Polymers
- Liquid Crystals and Soft Matter
- Polymer Blends and Alloys
- Polymer Blends and Composites
- Polymer Coatings and Adhesives
- Polymer Composites and Blends
- Polymer Membranes
- Polymer Nanocomposites
- Polymer Processing and Manufacturing
- Polymer Rheology and Processing
- Polymer Structure Modification by Chemical and Physical Means
- Polymer Synthesis and Characterization
- Polymer Synthesis and Processing
- Polymer-Based Sensors and Actuators
- Polymers for Biomedical Applications
- Polymers for Packaging and Consumer Products
- Polymers in Additive Manufacturing
- Polymers in Energy Applications
- Rheology and Mechanical Properties of Polymers
- Self-Healing and Shape Memory Polymers
- Semiconductors
- Soft Nanotechnology and Colloidal Systems
- Stimuli-Responsive and Sensory Polymers
- Surface and Interface Engineering of Polymers
- Surface Modification of Polymers
- Sustainable and Green Polymers
- Thermoplastic and Functional Elastomers
- Additive Manufacturing of Structural Materials
- Advanced Composite Materials
- Advanced Structural Materials
- Advanced Welding and Joining Techniques
- Computational Structural Mechanics
- Computer-Aided Design and Modelling
- Concrete and Masonry Structures
- Construction Technology and Methods
- Durability and Reliability of Materials
- Failure Analysis and Prevention
- Fatigue, Fracture, and Creep in Materials
- Glass and Ceramics
- High-Strength and High-Temperature Alloys
- Innovative Solutions in Structural Design and Construction
- Lightweight Materials for Structural Applications
- Materials for Aerospace and Automotive Industries
- Materials Processing and Manufacturing
- Mechanical Properties and Performance
- Mechanical Testing and Characterization
- Membrane Structures
- Metal and Alloys
- Microstructural Design for Mechanical Performance
- Numerical Methods and Algorithms
- Shape Memory Alloys
- Smart Materials and Structures
- Stress, Strain, and Deformation Mechanisms
- Structural Analysis and Design
- Structural Ceramics and Glasses
- Structural Failures
- Structural Health Monitoring and Nondestructive Evaluation
- Structural Stability, Safety and Reliability
- Advanced Characterization of Thin Films and Coatings
- Advanced Coating Techniques (Laser, Plasma, Electrochemical)
- Anti-Corrosion and Anti-Oxidation Coatings
- Biomolecules, Biointerfaces, and Applications
- Biomedical Coatings and Thin Films
- Coatings for Thermal Management
- Corrosion Engineering
- Deposition Techniques for Thin Films (CVD, PVD, ALD, Sputtering, etc.)
- Environmental Stability and Durability of Thin Films
- Functional Thin Films: Properties and Applications
- Mechanical Properties and Stress in Thin Films
- Nanostructured Materials, Micelles, Colloids, and Thin Films
- Optical Thin Films and Coatings
- Protective and Wear-Resistant Coatings
- Self-Assembled Monolayers and Molecular Coatings
- Smart Coatings and Stimuli-Responsive Films
- Solid Thin Films and Layers
- Surface and Interface Analysis, Properties, and Phenomena
- Surface Coating Technology
- Surface Modification and Functionalization
- Thin Film Electronics and Optoelectronics
- Thin Film Growth, Epitaxy, and Characterization
- Thin Film Multilayers and Superlattices
- Thin Film Photonics and Plasmonics
- Thin Film Sensors and Actuators
- Thin Films for Energy Applications (Solar Cells, Fuel Cells, Batteries)
- Thin Films for MEMS/NEMS Devices
- Thin Films in Catalysis
- Transparent Conductive Films
- 3D Printing in Biomedical Applications
- Additive Manufacturing for Aerospace and Automotive Industries
- Additive Manufacturing of Ceramics and Glass
- Additive Manufacturing of Composite Materials
- Additive Manufacturing of Metals and Alloys
- Additive Manufacturing of Smart Materials
- Advanced Software and Modeling for Additive Manufacturing
- Biocompatible and Biomedical Materials in Additive Manufacturing
- Challenges and Opportunities in Additive Manufacturing
- Design for Additive Manufacturing
- Functional Materials for Additive Manufacturing
- High-Performance Materials for Additive Manufacturing
- Innovations in Additive Manufacturing Techniques
- Innovative Materials for Additive Manufacturing
- Large-Scale Additive Manufacturing
- Lightweight Materials in Additive Manufacturing
- Materials Characterization and Testing in Additive Manufacturing
- Mechanical Properties of Additively Manufactured Materials
- Nanomaterials in Additive Manufacturing
- Polymer-Based Additive Manufacturing
- Process Optimization and Control in Additive Manufacturing
- Surface Modification and Post-Processing of Additive Manufactured Materials
- Additive Manufacturing and 3D Printing
- Advanced Manufacturing Processes and Technologies
- Advances in Composite Materials
- Advances in Metamaterials
- Biomimetic and Bioinspired Materials
- Functionally Graded Materials
- High-Performance Alloys
- Industrial Applications of Advanced Materials
- Lightweight Materials
- Materials for Aerospace and Automotive Applications
- Materials for High-Temperature Applications
- Shape Memory Alloys and Polymers
- Smart Materials and Structures
- Superconducting Materials
- Surface Engineering and Coatings
- Welding and Joining Technologies
- Additive Manufacturing of Metals
- Advanced High-Strength Steels
- Casting, Forging, and Forming Processes
- Corrosion and Oxidation of Metals
- Heat Treatment and Surface Engineering
- Intermetallic Compounds
- Light Metals and Alloys (Aluminum, Magnesium, Titanium)
- Mechanical Behavior of Metals and Alloys
- Metal Matrix Composites
- Metallurgical Characterization Techniques
- Metallurgy and Phase Transformations
- Recycling and Sustainability in Metal Production
- Refractory Metals and Alloys
- Shape Memory Alloys
- Superalloys for High-Temperature Applications
- Advanced Tomography Techniques
- Atomic Force Microscopy and Scanning Probe Techniques
- Characterization of Nanomaterials
- Electron Microscopy and Spectroscopy Techniques
- Environmental and Corrosion Testing
- High-Resolution Imaging Techniques
- In Situ Characterization Methods
- Magnetic and Electrical Characterization
- Mechanical Testing and Nanoindentation
- Multiscale Characterization Approaches
- Optical and Spectroscopic Methods
- Rheological and Dynamic Mechanical Analysis
- Surface and Interface Analysis
- Synchrotron Radiation Applications
- Thermal Analysis and Calorimetry
- 2D Materials Beyond Graphene
- Advanced Coatings and Surface Treatments
- Emerging Trends in Material Science and Engineering
- Hybrid and Composite Materials
- Innovations in Biomimetic Materials
- Innovative Fabrication Techniques
- Materials for Flexible Electronics
- Materials for Quantum Computing
- Materials for Soft Robotics
- Materials for Wearable Technology
- Metamaterials and their Applications
- Perovskite Materials for Solar Cells
- Photonic and Plasmonic Materials
- Self-Healing Materials
- Smart and Intelligent Materials
- Sustainable and Green Materials