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Materials Summit 2020 | 28, 29 & 30 August, 2020 | Online Conference 

Welcome to Materials Summit 2020 Conference Sessions and Abstract Submission page, choose your research track/topic and submit your Abstract by filling our easy submission form.

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Submit your abstract through our abstract submission system below.
All submissions will be reviewed based on technical merit, readability, relevance and originality.
If you have any question or queries about the submission process, check the FAQ below or contact us.

Conference Sessions

Session & Highlights of

Materials Summit 2020

 

Track 1: Materials Science and Engineering

  • Track 1-1: Computational materials science
  • Track 1-2: Products and services
  • Track 1-3: Teaching and technology transfer in materials science
  • Track 1-4: Global materials science market
  • Track 1-5: Modern materials needs
  • Track 1-6: Research support
  • Track 1-7: Platform for comprehensive projects
  • Track 1-8: Emerging materials and applications
  • Track 1-9: Tribology
  • Track 1-10: Forensic engineering
  • Track 1-11: Engineering apllications of materials
  • Track 1-12: Scientific and business achivements

Track 2: Nanomaterials and Nanotechnology

  • Track 2-1: Synthesis of nanomaterials and properties
  • Track 2-2: Environmental health and safety of nanomaterials
  • Track 2-3: Micro, nano and bio fluidics
  • Track 2-4: Nano and microfibrillated cellulose
  • Track 2-5: Cancer nanotechnology
  • Track 2-6: Medical nanotechnology
  • Track 2-7: Nanophotonics
  • Track 2-8: Nanoelectronics
  • Track 2-9: Coatings, surfaces snd membranes
  • Track 2-10: Carbon nano structures and devices
  • Track 2-11: Nanofibers, nanorods, nanopowders and nanobelts
  • Track 2-12: Thin Films, nanotubes and nanowires
  • Track 2-13: Graphene
  • Track 2-14: Nanotechnology startups

Track 3: Biomaterials and Medical Devices

  • Track 3-1: Body implants and prosthesis
  • Track 3-2: Biomimetic materials
  • Track 3-3: Biomedical applications
  • Track 3-4: 3D printing of organs and tissue
  • Track 3-5: Biomedical devices
  • Track 3-6: Bioinspired materials
  • Track 3-7: Tissue engineering and regenerative medicine
  • Track 3-8: Biomaterials imaging
  • Track 3-9: Drug delivery systems
  • Track 3-10: Biopolymers and bioplastics
  • Track 3-11: Friction, wear and fatigue in biomaterials
  • Track 3-12: Hard and soft tissues
  • Track 3-13: Surfaces and interfaces of biomaterials
  • Track 3-14: Radiotherapy

Track 4: Polymer Science and Technology

  • Track 4-1: Process modelling and simulation
  • Track 4-2: Engineering polymers
  • Track 4-3: Polymer membranes for environments and energy
  • Track 4-4: Polymer surface and interface
  • Track 4-5: Polymer characterization
  • Track 4-6: Polymeric gels and networks
  • Track 4-7: Polymeric biomaterials
  • Track 4-8: Polymeric catalysts
  • Track 4-9: Elastomers and thermoplastic elastomers
  • Track 4-10: Rheology and rheometry
  • Track 4-11: Extrusion and extrusion processes
  • Track 4-12: Polymer blends and alloys
  • Track 4-13: Hybrid polymer-based materials
  • Track 4-14: Neat polymeric materials
  • Track 4-15: Fiber, films and membranes

Track 5: Electronic, Optical and Magnetic Materials

  • Track 5-1: Processing, structure and properties of cermaics
  • Track 5-2: Fabrication of new composites based on light metals, polymers & ceramics
  • Track 5-3: Tribological performance of ceramics and composites
  • Track 5-4: Industrial applications of composite materials
  • Track 5-5: Composite materials in day-to-day life
  • Track 5-6: Biocomposite materials
  • Track 5-7: Glass science and technologies
  • Track 5-8: Measurement of material properties and structural performance
  • Track 5-9: Structural analysis and applications
  • Track 5-10: Matrices & reinforcements for composites
  • Track 5-11: Fabrication methods of composites
  • Track 5-12: Advanced ceramics and glass for energy harvesting and storage
  • Track 5-13: Performance in extreme environments
  • Track 5-14: Ceramic coatings
  • Track 5-15: Sintering process
  • Track 5-16: Nanostructured ceramics
  • Track 5-17: Thermal ceramics
  • Track 5-18: Bioceramics and medical applications
  • Track 5-19: The future of the ceramics industry
  • Track 5-20: Global environmental issues and standards

Track 6: Emerging Smart Materials

  • Track 6-1: Semiconductor materials
  • Track 6-2: Optical properties of metals and non-metals
  • Track 6-3: Photoconductivity
  • Track 6-4: Optical communications and networking
  • Track 6-5: Lasers
  • Track 6-6: Optical devices
  • Track 6-7: Quantum science and technology
  • Track 6-8: Spintronics
  • Track 6-9: Photonic devices and applications
  • Track 6-10: Electromagnetic radiation
  • Track 6-11: Domains and hysteresis
  • Track 6-12: Magnetic Storage
  • Track 6-13: Fabrication of intigrated circuits
  • Track 6-14: Semiconductor devices
  • Track 6-15: Soft magnetic materials
  • Track 6-16: Hard magnetic materials
  • Track 6-17: Dieletric materials
  • Track 6-18: Electronic and ionic conduction
  • Track 6-19: Ferroelectricity and piezoelectricity
  • Track 6-20: Superconductivity
  • Track 6-21: Film Dosimetry and Image Analysis

Track 7: Materials for Energy and Environmental Sustainability

  • Track 7-1: Smart building materials and structures
  • Track 7-2: Smart robots
  • Track 7-3: Smart materials in drug delivery systems
  • Track 7-4: Sensors and smart structures technologies for Civil, Mechanical, and Aerospace systems
  • Track 7-5: Thin films and thick films
  • Track 7-6: Quantum dots
  • Track 7-7: Semiconductors and superconductors
  • Track 7-8: Piezoelectric materials
  • Track 7-9: Photovoltaics, fuel cells and solar cells
  • Track 7-10: Energy storage device
  • Track 7-11: Development and characterization of multifunctional materials
  • Track 7-12: Electrochromic materials
  • Track 7-13: Novel nano and micro-devices
  • Track 7-14: Design and theory of smart surfaces
  • Track 7-15: MEMS and NEMS devices and applications
  • Track 7-16: Sensing and actuation
  • Track 7-17: Structural health monitoring
  • Track 7-18: Smart biomaterials
  • Track 7-19: Architecture and cultural heritage

Track 8: Metals, Mettalurgy and Materials

  • Track 8-1: Advanced energy materials
  • Track 8-2: Fuel cells
  • Track 8-3: Thermal storage materials
  • Track 8-4: Supercapacitors
  • Track 8-5: Smart grid
  • Track 8-6: Bio-based energy harvesting
  • Track 8-7: Turbines
  • Track 8-8: Insulation materials
  • Track 8-9: Nuclear energy materials
  • Track 8-10: Environmental friendly materials
  • Track 8-11: Earthquake materials and design
  • Track 8-12: Battery technologies
  • Track 8-13: High temperature superconductors
  • Track 8-14: Photovoltaics
  • Track 8-15: Solar energy materials
  • Track 8-16: Hydrogen energy
  • Track 8-17: Organic and inorganic solar cells
  • Track 8-18: Graphene materials
  • Track 8-19: Electrochemical energy storage and conversion
  • Track 8-20: Emerging materials and devices
  • Track 8-21: Energy storage materials
  • Track 8-22: Energy harvesting materials
  • Track 8-23: Piezeoeletric materials
  • Track 8-24: Photocatalysis
  • Track 8-25: Waste water treatement

Track 9: Physics and Cemistry of Materials

  • Track 9-1: Condensed matter physics
  • Track 9-2: Organic and inorganic Substances
  • Track 9-3: Micro and macro molecules
  • Track 9-4: Atomic structure and interatomic bonding
  • Track 9-5: Phase diagrams
  • Track 9-6: Corrosion and degradation of materials
  • Track 9-7: Corrosion prevention
  • Track 9-8: Oxidation
  • Track 9-9: Solar physics
  • Track 9-10: Green chemistry
  • Track 9-11: Analytical chemistry
  • Track 9-12: Dislocations and strengthening mechanisms
  • Track 9-13: Multifunctional materials and structures
  • Track 9-14: Magnetism and superconductivity
  • Track 9-15: Atomic structures and defects in materials
  • Track 9-16: Quantum science and technology
  • Track 9-17: Crystal structure of materials and crystal growth techniques
  • Track 9-18: Solid state physics
  • Track 9-19: Particle physics
  • Track 9-20: Nanoscale physics
  • Track 9-21: Diffusion in materials
  • Track 9-22: Catalysis chemistry

Track 10: Mechanics, Characterization Techniques and Equipments

  • Track 10-1: Metal forming
  • Track 10-2: Non-destructive testing
  • Track 10-3: Corrosion and protection
  • Track 10-4: High strength alloys
  • Track 10-5: Surface phenomena
  • Track 10-6: Solidification
  • Track 10-7: Light metals
  • Track 10-8: Aluminium, Copper, Lead and Zinc
  • Track 10-9: Iron-Carbon alloys
  • Track 10-10: Remelting technologies
  • Track 10-11: Modeling and simulation
  • Track 10-12: Foundry technology
  • Track 10-13: Iron, cast iron and steelmaking
  • Track 10-14: Ferrous and non-ferrous metals
  • Track 10-15: Alloys systems
  • Track 10-16: Powder metallurgy
  • Track 10-17: Metallurgical machinery and automation
  • Track 10-18: Hydrometallurgy
  • Track 10-19: Petroleum machinery and equipment
  • Track 10-20: Gasification
  • Track 10-21: Precious metals
  • Track 10-22: Environmental protection

Track 11: Ceramics and Composite Materials

  • Track 11-1: Mechanics of materials
  • Track 11-2: Scanning and transmission electron microscopy (SEM, TEM, STEM)
  • Track 11-3: Optical spectroscopy (Raman, FTIR, ellipsometry, etc.
  • Track 11-4: X-ray diffraction (XRD)
  • Track 11-5: X-ray photoelectron spectroscopy (XPS)
  • Track 11-6: Secondary ion mass spectrometry (SIMS)
  • Track 11-7: Rutherford backscattering
  • Track 11-8: Auger electron spectroscopy
  • Track 11-9: Sample preparation and analysis of biological materials
  • Track 11-10: Sample preparation and nanofabrication
  • Track 11-11: Computational models and experiments
  • Track 11-12: Micro and macro materials characterisation
  • Track 11-13: Ductile damage and fracture
  • Track 11-14: Fatigue, reliability and lifetime predictions
  • Track 11-15: Failure of quasi-brittle materials
  • Track 11-16: Coupled mechanics and biomaterials
  • Track 11-17: Contact, friction and mechanics of discrete systems
  • Track 11-18: Advanced modelling techniques
  • Track 11-19: Elemental analysis
  • Track 11-20: Organic analysis
  • Track 11-21: Structural analysis
  • Track 11-22: Atomic force microscopy (AFM)

Track 12: Entrepreneurs Investment Meet

*** End of Sessions***

Submit Abstract Below

Download Abstract Template

You can also email your Abstract at "info@researchwaves.com"

Our Reviewing Strategies 

Afer you fill the reqiired fields and submit your abstract, it will then be allocated to the Scientific Committee members immediately via the online platform. You should then receive the notification of acceptance/rejection once it is reviewed, the delay depends on the reviewers’ availability. We highly advise submitting as soon as possible in order to get a chance to be reviewed on time.

Guidelines for Abstract Submission

  • Abstracts submitted to the conference should be written in English only.
  • Abstracts should be submitted as per the template available above.
  • Authors can submit their abstracts in Doc, Docx and Pdf format.
  • Any act of plagiarism is totally unacceptable.
  • Each abstract should be strictly within 1 page in length, contains about 250 words.
  • The presenting author is required to ensure that all co-authors are aware of the content of the abstract before submission.
  • Along with abstract, recent head-shot photograph of good resolution and short biography (up to 100 words) must be included.
  • Oral or Poster presentation should be nominated while submitting the abstract.
  • The abstract submission can be made via conference website or by emailing the abstract to official conference email address.
  • Submissions not meeting these guidelines risk rejection without consideration of their merits.
  • Notification of acceptance or rejection of the Scientific Committee will be given after a week of submission.
  • All accepted abstracts will be published in the conference proceedings book and will be distributed to all the conference attendees at the registration desk on the day of the conference.

Frequently Asked  Questions

FAQ

Q1. How to apply to attend Materials Summit 2020 online Conference?

One can attend the conference as into two categories:

  • Presenter: Kindly proceed to submit your research abstract; if the Scientific Committee accepts it then the author can proceed for the registration.
  • Delegate/Listener: If you are willing to attend as an Listener, you can proceed to register directly as a listener without submitting any abstract.
Q2. Is it possible to submit more than one abstract for presentation ?

Yes, contact us if there are more than 2 abstracts for scheduling.

Q3. So, how to submit an abstract?

Kindly go through the submission form above and fill required star* fields, choose the track/topic of your research and type of presentation, upload your Abstract in Word/Pdf format and hit the submit button!.

If you are unable to submit the abstract online, you can also email the concern organizer or email us your details at info@researchwaves.com  with abstract.    

Q4. Are there any guidelines for the abstract submission?

We request all our presenters to submit the abstract as per our requested format. the Abstract format can be downloaded above the submission form.  

Q5. Is there any mandatory information to be mentioned in the abstract?

Yes, every abstract should have the Title, abstract content, authors (names, email id’s university details & contact details with a short biography), presentation type (workshop, oral, poster or virtual Video), related topic(s).

The abstracts will not be validated without the above information. 

Q6. What type of related topics should be included in the abstract?

Kindly refer the conference topics/tracks/sub-tracks/sessions that are the closest to the content of your abstract. It is important to choose the accurate related topic(s) because the abstract will be sent to the reviewers who are experts in the selected keyword(s).

Q7. What are the reviewing criteria?

All abstracts are reviewed based on:

The Technical Merit: How solid is the presented work? Is the evaluation methodology appropriate? Does the data seem accurate? Are there any fatal flaws in underlying assumptions?

The Readability: How easy is it to understand the submission? Factors that can affect readability include writing style, grammar, spelling, over-use (or under-use in some cases) of equations, inappropriate submission length, or improper font sizes.

The Relevance: How appropriate is this submission for this conference? Sometimes even good submissions are better suited to other locations.

Q8. How to know whether an abstract is accepted or not?

Once the Scientific Committee has reviewed the abstract, the Organizing Committee or the organizer sends an email to inform the author about the result. If the abstract is accepted then the author receives an “Acceptance Letter”. 

Q9. Is it mandatory to submit the full paper?

No

Q10. Is it possible to attend the conference without submitting any Abstract?

Yes, you can register an Delegate/listener.

Q11. Does the conference organizer provide proof of attendance?

Yes, the conference organizers will provide an E- certificate of participation and the payment invoice as required by your university / institute to allocate the grants.

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