Speaker Guidelines

Scientific sessions

You can select any of the topics to present your abstract. The topics are not limited to, 

1. Material Science & Engineering | Submit

Material science and engineering is a career path that has grown in importance and impact of Technology. The well-known and established materials by creating and manipulating atoms into something completely new. Materials engineer creates new tools and processes to bring technology furthermore. Materials Science centers which interacts among the processing, structure, properties and performance of materials. These field magnets upon many areas in both the scientific and engineering lands. Also, includes the study of physics, chemistry, mathematics and computer science each play a part in explaining the origin of unique properties found in a substance.

Sub tracks:

  • Material physics
  • Material Chemistry
  • Computational material science
  • Biomaterials

2. Advanced Materials Design & Processing | Submit

The role of the materials engineer is the design and processing of today's highly sophisticated products is varied, complex, exciting and ever-changing. The materials and its processing, product design, cost, environmental impact, performance and service have become inseparable. The new advanced materials development which enable the major parts of the economy. Advanced engineering materials that offer the prospect of better life-cycle performance. The designing and manufacturing of these new materials must be treated as an integrated process. These materials makes possible to form parts and systems in larger and combined operations than are possible with traditional metals technology.

Sub tracks:

  • Defence and Security
  • Energy Generation and Supply
  • Smart and Multi-functional Materials
  • Materials for Portable Power Sources

3. Bio Materials & Healthcare | Submit

Biomaterials are the healthcare applications which can be defined as materials those possess some novel properties that make them to come in immediate contact with the living tissue without causing any adverse immune rejection reactions. The Material used in a medical device, intended to interact with biological systems. The scope of this material covers the wide range of physical, biological and chemical sciences of biomaterials and the clinical disciplines in which they are used. The purpose of this biomaterial is to replace a missing piece of a body part and by replicating the structure or to enhance function.

Sub tracks:

  • Metals
  • Ceramics
  • Glass
  • Polymers
  • Biomaterials derived from animals

4. Computational Materials Science | Submit

Computational methods that play a major role in many materials and become more prevalent as computer power advances in the decades.  Computational materials science involves in computational tools for solving materials related problems which different mathematical models are used in investigating problems at multiple length and time scales which helps in understanding the evolution of material structures and these structures effectively control the material properties. It involves in exchange the information between computational tools at different scales.

Sub tracks:

  • Density functional theory
  • Characterization and utilization of materials
  • Design of materials
  • Multiscale material
  • Modelling of deformation behavior of materials

5. Electronic and Magnetic Materials | Submit

Electronic materials are those which have some specific features at the electromagnetic field, and are used in electronics according to their features. The Magnetic materials that can be used in casting, and gives a more precise property and high magnetic property suitable for various applications. The aspects of electronic and magnetic materials include semiconductors, oxides, memory devices, ferroelectrics, and molecular electronics.

Sub tracks:

  • Electromagnetic radiation
  • Optical properties of metals and non-metals
  • Photoconductivity
  • Optical devices
  • Ferroelectricity and piezoelectricity
  • Conductors, Semiconductors, and Insulators

6. Fundamentals of Materials Science | Submit

The Fundamentals of materials mostly found in macro to micro structures. It focuses on the fundamentals of structure, energetics, and bonding materials science. It Advances basis for understanding a broad range of materials phenomena, heat capacities, phase transformations, and multiphase equilibrium to chemical reactions and magnetism. Fundamentals are imparted using real-world such as engineered alloys, electronic and magnetic materials, ionic and network solids, polymers, and biomaterials.

Sub tracks:

  • Tensile Test
  • Polymer Structures
  • Solid Solution Strengthening
  • Ceramics Structures
  • Bio-inorganic nanomaterial

7. Materials for Energy Application | Submit

The materials research which undergoes into the synthesis, characterization and theoretical understanding of functional materials that are used in energy applications. It mainly focuses on research into new and novel materials. Materials which includes polymeric, complex oxide, nonionic, caloric and porous materials for potential future energy applications.

Sub tracks:

  • Magnetocaloric
  • Solar cell materials
  • Corrosive resistant coatings
  • Low friction materials
  • Metal oxide nanoparticles for solar cells and catalysis

8. Materials in Energy | Submit

Energy materials which includes a broad class of materials that have applications in energy conversion or transmission. It plays a major role in reducing the power consumption or efficiency of existing devices. The research in energy materials includes Materials for photovoltaic cells, thermoelectric materials, Superconductors and Optoelectronic materials in which charges can be manipulated by light, rather than a voltage

Sub tracks:

  • Geothermal energy
  • Nuclear energy
  • Renewable energy
  • Thermal energy

9. Materials in Green Technology | Submit

Green technology is also a clean technology or environmental technology. It deals with science and technology to conserve the environment. A lot of techniques fall under this term including the use of green chemistry, environmental monitoring. Green materials which includes biomass-based source that can be developed as a source for biodiesel and bioethanol production. The Materials in Green Technology which involves in Recycling process, Conserving Energy, Rejuvenating Ecosystems

Sub tracks:

  • Solar fuels
  • Green Chemistry
  • Geothermal and ocean Energy,
  • Solid electrolytes and characterization
  • Economics of materials
  • Nuclear -waste management and disposal

10. Materials in Industry | Submit

Industrial materials are the future processing, manufacture, or conversion. The materials in industries which includes the related topics of Metal and Non-metallic industries, Minerals and non-energy extractive industries and some of the industrial materials are porous materials, Aluminum materials, Materials for tools, Laser optics, Superconducting Products, Magnesium alloy parts.

Sub tracks:

  • Ceramic Materials
  • Material Requirement for glass container
  • Plastic packing Industry structure and flow
  • Metal Packing
  • Ferrous Materials in Automotive Industry
  • Solar energy materials

11. Materials in Research | Submit

Materials Research is frequently evolving and associating between process, structure, properties and performance which are applicable at the macro-, micro- and Nano-scale. The materials in research which involves in the field of biological, physical and chemical. The development of research technologies that are involved such as biotechnology, nanotechnology, advanced electronics. The role of a materials scientist is to develop new materials, whereas a materials engineer creates new products using existing materials to develop techniques for processing material.

 

Sub tracks:

  • Nano Medicines
  • Nano Sensors
  • Resorbable biomaterials
  • Bioengineering
  • Soft Materials
  • Functional materials
  • Nanomaterial’s

12. Metal Casting Technology | Submit

Metal casting is a complex and sophisticated process which requires exact chemistry and flawless execution. The role of metal casting involves manufacturing, properties of metals, patterns design and production, molding sand properties, mold making, metal preparation and melting, pouring metal and finishing. The most widely used method for small to medium-sized castings is green sand molding and Other casting and molding processes include shell molding, permanent molding, investment casting, plaster molding, and die casting. Metal casting is well suitable for mass production, because large numbers of a casting may be produced very rapidly. Some of the cast materials are iron, steel, aluminum, and copper.

Sub tracks:

  • Casting form
  • Critical passageways
  • Burr
  • Slag residue
  • Video borescope

13. Metals, Mining, Metallurgy and Materials | Submit

The role of the materials engineer to develop, design and operate processes that transform raw materials into useful engineering products. The industrial revolution placed metals to the fore of technology, and has become the very foundation of our modern society and its growth. Metallurgy is the study and understanding of the physical and chemical behavior of metallic elements. Material science plays an important role in metallurgy which covers a wide range of ways in materials or components. They reduce the need to use metal removal processes and can reduce the costs. Pyro metallurgy includes thermal treatment of minerals and metallurgical ores and concentrates to bring about physical and chemical transformations in the materials.

Sub tracks:

  • Ceramics and glass materials
  • Powder metallurgy
  • Corrosion, heat treatment
  • Metallurgical machinery and automation
  • Mineral Processing

14. Nano Biomedicine | Submit

Nanobiomedicine involves in nanotechnology which improves the ability of medicine to study, diagnose and treat the most common illnesses of the population. Nanobiomedicine covers the different aspects of diagnosis, therapy and toxicity, which involves the use of nanostructured materials. It syntethizes, characterizes and functionalizes the nanomaterials which are used in biomedical applications of Nanotherapy, Nanodiagnosis and Toxicity determination.

Sub tracks:

  • Nano scale drug delivery
  • Nano toxicology
  • Nano surgery
  • Nano carriers commercialization of Nano biomedical technology
  • Nanomaterials

15. Nano Composites | Submit

Nanocomposites are the materials in which one or more phases with nanoscale dimensions are implanted in a metal, ceramic, or polymer matrix. Most of the nanocomposite applications are either special properties or multifunctionalities. In recent years the research advances have been made in the scientific base for Nano materials and this has been allowed significant improvements in the technology of carbon nanotube-based composites. The carbon nanotube-based nanocomposites are widely used in electronics & semiconductor application due to their desired electrical properties.

Sub tracks:

  • Polymer nanocomposites
  • Chitosan nanocomposite
  • Optic adjustment
  • Photochromism
  • Nanocomposite and their applications

16. Nanotechnology in Materials Science | Submit

Nanotechnology is the study and application of small things that can be used in the field such as chemistry, biology, physics, materials science, and engineering. Nanotechnology which refers to manipulate the structure of matter on a length scale of small number of nanometers and involves in understanding, manipulation, and control of matter at dimensions. Some of the materials that are developed with nanotechnology include nanomaterial Carbon nanotubes, Metal oxide nanoparticles, Quantum dots.

 

Sub tracks:

  • Nanobiomaterials
  • Nano photonics
  • Quantum dots
  • Materials metrology and synthesis
  • Carbon nanotubes

17. Soft Materials & Polymers | Submit

A soft material is a general term usually used for polymeric materials deals with materials in solution. This research focuses on the properties of common soft materials, colloids, emulsions, drops, polymers and gels. Polymers are materials made of long, repeating chains of molecules. The most common natural polymer is cellulose, an organic compound found in the cell walls of plants. It is used to produce paper products, textiles, and other materials. This includes Reflectivity, Brittleness, Elasticity, and Impact Resistance.

Sub tracks:

  • Crystallinity
  • Polymer photochemistry
  • Impact Resistance
  • Immunoassay

18. Nano Scale Materials & Nanotechnology | Submit

Nanoscale materials are defined as substances that have at least one dimension less than 100 nanometers and possess unique optical, magnetic, or electrical properties. The research program on this focuses on manufactured nanoscale materials of projected commercial importance and includes evaluation of the biological disposition of Nano scale crystalline semiconductors, carbon-based nanoscale materials and photogoxicology which representative nanoscale metal oxide particles used in industrial settings and consumer products.

Sub tracks:

  • Nanotechnology for environmental, health and safety
  • Synthesis and analysis of nano structures
  • Electrodeposition of nano structure materials
  • Biomedical applications and translational aspects of nanomaterials

19. Graphene and 2D Materials | Submit

Graphene is predicted to impact different industry application areas such as solar cells, biosensors, displays, composites, flexible electronics and energy storage. The Combinations of these 2D materials are called heterostructures which means new materials can be built from the ground on an atomic level to create materials. Different methodologies of measurement for Graphene and 2D materials Determines the uncertainties associated in measurement, sample preparation, and data analysis.

Sub tracks:

  • Benefits of 2D Materials
  • 2D materials beyond Graphene
  • 2D materials beyond Graphene
  • Chemical functionalization of Graphene

20. Physics and Chemistry of Materials | Submit

Material science is an interdisciplinary research field involving the properties of matter and its applications to various areas of science and engineering and it incorporates elements of applied physics and chemistry. This involves the topics of materials including inorganic, metallic, semiconductor, hybrid, organic, polymer, and biology.

Sub tracks:

  • Sustainable chemistry
  • Functional materials
  • Applied physics
  • Mechanics of materials
  • Materials characterization techniques

21. Emerging Smart Material | Submit

Emerging Smart materials are a class of materials that are designed to change their properties in a controlled manner using external stimuli such as stress, temperature, moisture, pH level and electrical or magnetic fields. Electronic materials for communication and data technology, optical fibers, optical maser fibers sensors for the intelligent surroundings, energy materials for renewable energy and materials for strategic applications.

Sub tracks:

  • Smart Materials and Structures
  • Material Synthesis & Characterization
  • Piezoelectric materials & 3-D printing
  • Ceramics and textiles industries
  • Materials in aerospace and defense
  • Architecture Materials

22. Electronic, Optical & Magnetic Materials | Submit

The synthesis, processing and characterization of new magnetic, optical and electronic materials. Electronic material research explores new applications of semiconductors, dielectrics, nanomaterial and photonic materials in electronics. Optical material science designs, synthesizes, characterizes and finds applications to novel optical materials while magnetic material research develops new materials for such areas as data storage and super magnetism.

Sub tracks:

  • Film Dosimetry and Image Analysis
  • Fabrication of intigrated circuits
  • Electronic and ionic conduction
  • Ferroelectricity and piezoelectricity
  • Optical communications and networking
  • Optical devices
  • Quantum science and technology

23. Ceramics and Composite Materials | Submit

Composite materials made from metal and ceramics which metallic substrate material is reinforced with ceramic hardened particles. Ceramic matrix composites are a special type of composite material in which both the reinforcement and matrix material are ceramics. The materials include Carbon, Silicon Carbide, Alumina, Mullite or Alumina Silica. The majority of applications use short fiber, whisker or continuous fiber reinforcement.

Sub tracks:

  • Ceramic matrix Composites
  • Polymer matrix Composites
  • Metal matrix Composites
  • Composite laminates
  • Porous Ceramics
  • Ceramics Modeling
  • Ceramic coatings

24. Green and Energy Materials | Submit

Green materials are materials that are local and renewable. Local materials often are unique to the place and connect whatever people make within an area or region. A green material suits most tunefully within ecosystem practices and donates to the achievement of a service based economy. Plant materials such as grasses, straw, wood and bamboo are also materials that have been used by humans since they started building.

Sub tracks:

  • Geothermal Energy
  • Green Energy Technologies
  • Solar Power
  • Renewable Energy
  • Bioenergy
  • Green Technology

 

25. Functional and Structural materials | Submit

Structural materials are used primarily to define the form of industrial objects. By giving form to a specific article, the structural material acquires the remarkable property of acting as an interface between production and consumption. The importance of structural materials is considerable both in the industries which make them and in those which incorporate them into industrial objects.

Sub tracks:

  • Optical Materials
  • Electrical Properties
  • Dielectrics
  • Magnetic Properties
  • Thermal Prop
  • Corrosion and Oxidation
  • Elastic Modulus
  • Plasticity: Dislocations
  • Yield Strength

26. Semiconductors and Superconductors | Submit

Semiconductors and super conductors is that semiconductors are the materials that have properties lie between conductors and insulators, while super conductors are those materials that act strangely when cooled down. Semiconductor can potentially conduct electricity. A superconductor is a material that has zero resistance. Their potential flexibility is what makes these materials functional in many electronics.

Sub tracks:

  • Semiconductor alloy system
  • Nano-Electronic Devices
  • Photovoltaic Cells
  • Lithium ion batteries
  • Super capacitors and batteries

27. Materials Manufacturing and Processing | Submit

Materials processing, the series of operations that transforms industrial materials from a raw-material state into finished parts or products. Industrial materials are defined as those used in the manufacture of hard goods, such as more or less durable machines and equipment produced for industry and consumers, as contrasted with disposable soft goods, such as chemicals, foodstuffs, pharmaceuticals, and apparel.

Sub tracks:

  • Machining
  • Casting process
  • Forming process
  • Fabrication process
  • Material Removal

28. Surfaces, Coatings and Films | Submit

A substance applied to other materials to change the surface properties, such as color, gloss, resistance to wear or chemical attack, or permeability, without changing the bulk properties. Surface coatings include such materials as paints, varnishes, enamels, oils, greases, waxes, concrete, lacquers, powder coatings, metal coatings, and fire-retardant formulations. In general, organic coatings are based on a vehicle, usually a resin, which, after being spread out in a relatively thin film, changes to a solid.

Sub tracks:

  • Polymer Coatings
  • Industrial coatings
  • Functional gradient coatings
  • Characterization of coatings
  • Thin films
  • Surface modification

29. Condensed Matter Physics | Submit

Condensed Matter Physics addresses cooperative phenomena involving large numbers of interacting particles. As well studying the properties of ordered and disordered solids; our work extends its scope to liquids, surfaces, clusters, and biological materials and organisms. As the largest branch of physics, it has the greatest impact on our daily lives by providing foundations for technology developments.

Sub tracks:

  • Polymer Physics
  • High-Pressure Physics
  • Surface Physics
  • Solid-State Physics
  • Gravitation Theory
  • Condensed-Matter and Materials Physics

30. Bio-polymers and Polymer Chemistry | Submit

Biopolymers are polymers that are decomposable. The input resources for the manufacture of these polymers may be either renewable or synthetic. There are four main types of biopolymer based respectively on: 1. Starch, 2. Sugar 3.Cellulose, 4.Synthetic materials. Polymer chemistry deals with the chemical synthesis and chemical properties of polymers, as well as the reaction kinetics of polymerization of monomers. Polymer chemists have long endeavored to gain control over the accurate chemical structures of the polymers they synthesize.

Sub tracks:

  • Novel synthetic and polymerization methods
  • Supramolecular polymers
  • Reactions and chemistry of polymers
  • Sources and preparation of biopolymers
  • Applications of biopolymers

31. Nonlinear Dynamics | Submit

Nonlinear dynamics is the study of classifications that are described by nonlinear equations of motion.  Nonlinear Dynamics has been applied to Point Process Systems profitably. Such systems manifest themselves by Series of Events in space or time that are then assimilated to Point Processes, i.e. countable collections of points in continua. Arguments are illustrated here with univariate one-dimension Point Processes representing spike trains from nerve cells. These are described fully by their "timing", i.e. the instants {… ti-1<ti<ti+1 …} when events occur.

Sub tracks:

  • Stable and unstable manifolds
  • Elementary bifurcations
  • Discrete time dynamics
  • Elementary bifurcations
  • Two-dimensional flows

32. Pharmaceutical Nanotechnology | Submit

Pharmaceutical Nanotechnology has played a very key role to overcome several disadvantages of conventional dosage forms for like tablets, capsules etc. The conventional forms suffered with drawbacks like low bioavailability, poor patient compliance, and damage to healthy cells etc. which were rectified using pharmaceutical nanotechnology. Pharmaceutical nanotechnology has developed as a new area of interest having a great potential as carrier for many potent drugs and diagnostics.

Sub tracks:

  • Nano crystalline materials
  • Polymeric Nanoparticles
  • Metallic nanoparticles
  • Polymeric micelles
  • Liposomes

33. Tissue Engineering | Submit

It concerned with the growth of biological substitutes capable of replacing diseased or injured tissue in humans. Tissue engineering integrates biological components, such as cells and development issues, with engineering principles and synthetic resources. Substitute tissues can be produced by first seeding human cells onto scaffolds, which may be made from collagen or from a biodegradable polymer. Tissue engineering is to gather functional constructs that restore, maintain, or recover damaged tissues or whole organs.

Sub tracks:

  • Regenerative Medicine
  • Bioreactors
  • Smart Materials
  • Gene Therapy
  • Biodegradable

Speaker Guidelines

  • Speakers are encouraged to arrive at the venue at least an hour before their presentation is due to start. You will be given the opportunity to go through your slides in the break prior to your speech.
  • Oral sessions allow authors to present papers for discussion detailing their presenting for 20 minutes, with 5 minutes allocated for questionnaire.
  • Speakers are strongly encouraged to dress in business formals during presentations.
  • The conference secretariat will provide a letter of invitation upon request. This letter is to facilitate participant's travel and visa arrangements only.

Presentation Format

  • Technicians will assist you in pre-loading your presentation to the networked system either by their presentation in an USB flash drive/external device or authors can present using their own devices.
  • Prepare notes that highlight the salient points of your talk. Make sure your slides are readable, concise & uncluttered.
  • LCD projectors, Screens, Laser pointers and Microphones are provided.
  • Basic AV setup would be provided; slider with pointer, cordless mike, desktop mike, lapel, basic sound system.
  • Please stop when signaled by the Chair to do so.
  • Speakers who have video clips in their presentation should check the compatibility with the computer projection equipment

Abstract Submission Guidelines

  • Abstracts must be submitted on the understanding that they have not been presented elsewhere (except in the form of a thesis) and are not currently under consideration by another conference. The submitting speaker should ensure that the abstract publication has been approved by all other co-authors.
  • The abstracts must be submitted in English language (including title, abstract text, author names and affiliations).
  • Presenting author’s contact details including full mailing address, office phone number, email address and contact number
  • Name(s) of presenting author and co-authors: first name(s) or initials of first name(s), family name
  • Affiliation details of all authors: Department, institution/hospital, city, state (if relevant), country
  • The presenting author of an abstract must register for the Mat Conference - 2020.
  • Abstract must be submitted online or can be e – mailed to the organizer.
  • You will receive a confirmation when the abstract has been received. Please contact the organizer if you did not receive confirmation within 3 working days.
  • You can submit your work in any broad themes (or) other topics related to Material Science.
  • All the abstracts must be submitted before the deadlines provided.
  • Abstracts will be published in the conference proceedings.

Submit your abstract here or email us at mat@globalepisteme.com