Materials Science and Engineering

• Track 1-1Computational materials science

• Track 1-2Products and services

• Track 1-3Teaching and technology transfer in materials science

• Track 1-4Global materials science market

• Track 1-5Modern materials needs

• Track 1-6Research support

• Track 1-7Platform for comprehensive projects

• Track 1-8Emerging materials and applications

• Track 1-9Tribology

• Track 1-10Forensic engineering

• Track 1-11Engineering apllications of materials

• Track 1-12Scientific and business achivements

Nanomaterials and Nanotechnology

• Track 2-1Synthesis of nanomaterials and properties

• Track 2-2Environmental health and safety of nanomaterials

• Track 2-3Micro, nano and bio fluidics

• Track 2-4Nano and microfibrillated cellulose

• Track 2-5Cancer nanotechnology

• Track 2-6Medical nanotechnology

• Track 2-7Nanophotonics

• Track 2-8Nanoelectronics

• Track 2-9Coatings, surfaces snd membranes

• Track 2-10Carbon nano structures and devices

• Track 2-11Nanofibers, nanorods, nanopowders and nanobelts

• Track 2-12Thin Films, nanotubes and nanowires

• Track 2-13Graphene

• Track 2-14Nanotechnology startups

Biomaterials and Medical Devices

• Track 3-1Body implants and prosthesis

• Track 3-2Biomedical applications

• Track 3-33D printing of organs and tissue

• Track 3-4Biomedical devices

• Track 3-5Bioinspired materials

• Track 3-6Tissue engineering and regenerative medicine

• Track 3-7Biomaterials imaging

• Track 3-8Drug delivery systems

• Track 3-9Biopolymers and bioplastics

• Track 3-10Friction, wear and fatigue in biomaterials

• Track 3-11Hard and soft tissues

• Track 3-12 Surfaces and interfaces of biomaterials

• Track 3-13Biomimetic materials

Polymer Science and Technology

• Track 4-1Process modelling and simulation

• Track 4-2Engineering polymers

• Track 4-3Polymer membranes for environments and energy

• Track 4-4Polymer surface and interface

• Track 4-5Polymer characterization

• Track 4-6Polymeric gels and networks

• Track 4-7Polymeric biomaterials

• Track 4-8Polymeric catalysts

• Track 4-9Elastomers and thermoplastic elastomers

• Track 4-10Rheology and rheometry

• Track 4-11Extrusion and extrusion processes

• Track 4-12Polymer blends and alloys

• Track 4-13Hybrid polymer-based materials

• Track 4-14Neat polymeric materials

• Track 4-15 Fiber, films and membranes

Ceramics and Composite Materials

• Track 5-1Processing, structure and properties of cermaics

• Track 5-2Fabrication of new composites based on light metals, polymers & ceramics

• Track 5-3Tribological performance of ceramics and composites

• Track 5-4Industrial applications of composite materials

• Track 5-5Composite materials in day-to-day life

• Track 5-6Biocomposite materials

• Track 5-7Glass science and technologies

• Track 5-8Measurement of material properties and structural performance

• Track 5-9Structural analysis and applications

• Track 5-10Matrices & reinforcements for composites

• Track 5-11Fabrication methods of composites

• Track 5-12Advanced ceramics and glass for energy harvesting and storage

• Track 5-13Performance in extreme environments

• Track 5-14Ceramic coatings

• Track 5-15Sintering process

• Track 5-16Nanostructured ceramics

• Track 5-17Thermal ceramics

• Track 5-18Bioceramics and medical applications

• Track 5-19The future of the ceramics industry

• Track 5-20Global environmental issues and standards

Electronic, Optical and Magnetic Materials

• Track 6-1Semiconductor materials

• Track 6-2Electromagnetic radiation

• Track 6-3Optical properties of metals and non-metals

• Track 6-4Photoconductivity

• Track 6-5Optical communications and networking

• Track 6-6Lasers

• Track 6-7Optical devices

• Track 6-8Quantum science and technology

• Track 6-9Spintronics

• Track 6-10Domains and hysteresis

• Track 6-11Magnetic Storage

• Track 6-12Fabrication of intigrated circuits

• Track 6-13Semiconductor devices

• Track 6-14Soft magnetic materials

• Track 6-15Hard magnetic materials

• Track 6-16Dieletric materials

• Track 6-17Electronic and ionic conduction

• Track 6-18Ferroelectricity and piezoelectricity

• Track 6-19Superconductivity

• Track 6-20Photonic devices and applications

Emerging Smart Materials

• Track 7-1Smart building materials and structures

• Track 7-2Smart robots

• Track 7-3Smart materials in drug delivery systems

• Track 7-4Sensors and smart structures technologies for Civil, Mechanical, and Aerospace systems

• Track 7-5Thin films and thick films

• Track 7-6Quantum dots

• Track 7-7Semiconductors and superconductors

• Track 7-8Piezoelectric materials

• Track 7-9Photovoltaics, fuel cells and solar cells

• Track 7-10Energy storage device

• Track 7-11Development and characterization of multifunctional materials

• Track 7-12Electrochromic materials

• Track 7-13Novel nano and micro-devices

• Track 7-14Design and theory of smart surfaces

• Track 7-15MEMS and NEMS devices and applications

• Track 7-16Sensing and actuation

• Track 7-17Structural health monitoring

• Track 7-18Smart biomaterials

• Track 7-19Architecture and cultural heritage

Materials for Energy and Environmental Sustainability

• Track 8-1Advanced energy materials

• Track 8-2Fuel cells

• Track 8-3Thermal storage materials

• Track 8-4Supercapacitors

• Track 8-5Smart grid

• Track 8-6Bio-based energy harvesting

• Track 8-7Turbines

• Track 8-8Insulation materials

• Track 8-9Nuclear energy materials

• Track 8-10Environmental friendly materials

• Track 8-11Earthquake materials and design

• Track 8-12Battery technologies

• Track 8-13High temperature superconductors

• Track 8-14Photovoltaics

• Track 8-15Solar energy materials

• Track 8-16Hydrogen energy

• Track 8-17Organic and inorganic solar cells

• Track 8-18Graphene materials

• Track 8-19Electrochemical energy storage and conversion

• Track 8-20Emerging materials and devices

• Track 8-21Energy storage materials

• Track 8-22Energy harvesting materials

• Track 8-23Piezeoeletric materials

• Track 8-24Photocatalysis

• Track 8-25Waste water treatement

Physics and Cemistry of Materials

• Track 9-1Condensed matter physics

• Track 9-2Organic and inorganic Substances

• Track 9-3Micro and macro molecules

• Track 9-4Atomic structure and interatomic bonding

• Track 9-5Phase diagrams

• Track 9-6Corrosion and degradation of materials

• Track 9-7Corrosion prevention

• Track 9-8Oxidation

• Track 9-9Solar physics

• Track 9-10Green chemistry

• Track 9-11Analytical chemistry

• Track 9-12Dislocations and strengthening mechanisms

• Track 9-13Multifunctional materials and structures

• Track 9-14Magnetism and superconductivity

• Track 9-15Atomic structures and defects in materials

• Track 9-16Quantum science and technology

• Track 9-17Crystal structure of materials and crystal growth techniques

• Track 9-18Solid state physics

• Track 9-19Particle physics

• Track 9-20Nanoscale physics

• Track 9-21Diffusion in materials

• Track 9-22Catalysis chemistry

Metals, Mettalurgy and Materials

• Track 10-1Metal forming

• Track 10-2Non-destructive testing

• Track 10-3Corrosion and protection

• Track 10-4High strength alloys

• Track 10-5Surface phenomena

• Track 10-6Solidification

• Track 10-7Light metals

• Track 10-8Aluminium, Copper, Lead and Zinc

• Track 10-9Iron-Carbon alloys

• Track 10-10Remelting technologies

• Track 10-11Modeling and simulation

• Track 10-12Foundry technology

• Track 10-13Iron, cast iron and steelmaking

• Track 10-14Ferrous and non-ferrous metals

• Track 10-15Alloys systems

• Track 10-16Powder metallurgy

• Track 10-17Metallurgical machinery and automation

• Track 10-18Hydrometallurgy

• Track 10-19Petroleum machinery and equipment

• Track 10-20Gasification

• Track 10-21Precious metals

• Track 10-22Environmental protection

Mechanics, Characterization Techniques and Equipments

• Track 11-1Mechanics of materials

• Track 11-2Scanning and transmission electron microscopy (SEM, TEM, STEM)

• Track 11-3Optical spectroscopy (Raman, FTIR, ellipsometry, etc.

• Track 11-4X-ray diffraction (XRD)

• Track 11-5X-ray photoelectron spectroscopy (XPS)

• Track 11-6Secondary ion mass spectrometry (SIMS)

• Track 11-7Rutherford backscattering

• Track 11-8Auger electron spectroscopy

• Track 11-9Sample preparation and analysis of biological materials

• Track 11-10Sample preparation and nanofabrication

• Track 11-11Computational models and experiments

• Track 11-12Micro and macro materials characterisation

• Track 11-13Ductile damage and fracture

• Track 11-14Fatigue, reliability and lifetime predictions

• Track 11-15Failure of quasi-brittle materials

• Track 11-16Coupled mechanics and biomaterials

• Track 11-17Contact, friction and mechanics of discrete systems

• Track 11-18Advanced modelling techniques

• Track 11-19Elemental analysis

• Track 11-20Organic analysis

• Track 11-21Structural analysis

• Track 11-22Atomic force microscopy (AFM)

Entrepreneurs Investment Meet