Scientific sessions
Mat Congress 2021 invites speakers to submit abstract on the following sessions but 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:
2. 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:
3. Fibers and Composites | Submit
Fiber and composites are also known as Fiber-fortified composite is superior fiber composite accomplished and made conceivable by cross-connecting cellulosic fiber atoms with tars in the FRC material framework through a restrictive sub-atomic re-designing procedure, yielding a result of excellent auxiliary properties. The properties and performance of composites are far superior to those of the constituents.
Sub tracks:
4. Ceramics and Magnetic Materials | Submit
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. Magnetic material research develops new materials for such areas as data storage and super magnetism.
Sub tracks:
5. Catalytic Materials & Green Chemistry | Submit
Catalytic agents enable a broad range of chemical reactions that are fundamental to industrial and consumer products – from plastics to pharmaceuticals, solvents to soap, and fuels to food. Green chemistry is getting extended in many researches and industry areas. Not only pharmaceutical companies but also the other chemical industries started to take a step for green chemistry due to its advantages such as decreasing of waste and cost.
Sub tracks:
6. Electrical, Optical, and 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:
7. Mining, Metallurgy and Materials Science | 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
Sub tracks:
8. Polymer Science and Technology | Submit
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:
9. 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:
10. Advanced Energy Materials | Submit
Development of technology to meet the energy problems facing the industrialized countries depends strongly on the availability of improved constructional materials, in order to achieve more efficient conversion and utilization of energy. The energy demand due to growing global population and the critical relationship between Energy, environment and sustainability lead to novel discoveries and advancement in the field of Energy Materials in search of alternative resources.
Sub tracks:
11. Emerging Smart Materials | 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:
12. Advances in Nano Materials Science | Submit
Nanomaterial’s offer many advantages in energy conversion and storage applications it deals with extremely smaller particles, their behavior and other aspects which can be used in various technologies like, such as Nanorobots, materials science, Nanosensors, Microtechnology, Forensic engineering, chemical engineering, biology, biological engineering, and electrical engineering. These advances can be used to deposit protective coatings for textile-based composite materials, layer carbon nanotubes to add reinforcement, upgrade the properties of carbon ceramic matrix composites and integrate nanomaterial fibers into polymer matrix composites.
Sub tracks:
13. Nano Materials & Nanocomposites | 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. 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.
Sub tracks:
14. 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:
15. Optoelectronics, Photonics and 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:
16. Metallurgy, Corrosion and Mining | Submit
Mining and metallurgy industries are concerned with a wide range of corrosive media. Metallurgical engineering is a discipline concerned with extracting metals from their ores, and the development, production and use of metallic materials. Metallurgical engineering is based on the principles of science and engineering, which involves the shaping, alloying, heat treatment and testing of metals. The diagnosis and prevention of various types of corrosion including uniform corrosion, crevice corrosion, erosion-corrosion, and intergranular corrosion, involves in design, implementation, and improvement of processes that transform mineral resources and metals into useful products.
Sub tracks:
17. Surface Science and Engineering | Submit
Surface Science and Engineering is the study of occurring when two phases of matter interact. It is important in the fields of heterogeneous catalysis, semiconductors, electronics and nanofabrication. It also plays a major role in the development of alternative energy sources, such as solar and hydrogen fuel cells. Surface science is of specific importance to the fields of heterogeneous catalysis, electrochemistry and geochemistry.
Sub tracks:
18. Emerging Trends in Materials Science | Submit
Emerging 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:
19. Thin films, Corrosion and degradation of materials | Submit
Thin films are thin layers of materials with thickness usually ranging between some nanometers to several micrometers. The process of applying thin films on the surface of raw materials and finished components is known as thin film deposition. The applications of thin films spans also in a wide range of industrial applications in semiconductor devices, telecommunications, liquid crystal. Corrosion is the phenomenon consisting in the loss of material, usually from the surface of a metal or alloy, resulting from the formation of oxides in the presence of particular environmental conditions.
Sub tracks:
20. Advances in Instrumentation Technology | Submit
Advanced instruments are available with hygienic configurations; processors find new ways to use these capabilities to improve plant performance. Instrumentation is a multidisciplinary subject that provides a wide range of usage in several professional fields, specifically engineering. Instrumentation plays a key role in numerous daily processes. The topics that include smart sensor design, medical image processing, and atrial fibrillation.
Sub tracks:
21. Advanced Materials and Devices | Submit
Advanced Materials and Processing are important areas of research in Engineering Science and Technology, which have to focus on bridging the critical gap between researchers and engineers in order to shape the new world. Researchers and engineers strive to develop new devices and processes, using mathematical and analytical tools, in order to create technologies for a rapidly expanding range of materials and manufacturing processes.
Sub tracks:
22. Ceramics & Composites | 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:
23. Applications in Material Science Engineering | Submit
Materials science engineering is an interdisciplinary field that describes the structure, processing, and property relationships in materials for engineering applications. Basic principles of chemistry and physics are applied to provide an understanding of the structure of materials and the structure determines the properties. These applications are in current and emerging industries, and complement existing strength in ceramics, metals, electronic materials, and composites.
Sub tracks:
24. Chemical Synthesis and Catalysts Synthesis | Submit
Synthesis molecules with desirable functions such as biological activity, catalytic reactivity and thermoelectric properties. While chemistry is the central science, where synthesis is central to almost all aspects of chemistry, in this area are to develop novel, sustainable methods and reactions for the preparation of new functional molecules, and to elucidate the mechanisms by which these reactions operate. The synthesis research theme include developing new areas of homogeneous catalysis, preparing novel and functional materials, accessing new bio-active molecules, and purely curiosity-driven synthesis of molecules thought incapable of existence under ambient conditions.
Sub tracks:
25. Organic, Inorganic & Physical Chemistry | Submit
Chemistry is a branch that deals with the study of matter, properties and substance combine to form other substance. It emphasis of the essential topics in modern chemistry which focus on the general chemistry of materials. These materials can be either organic or inorganic. Physical chemistry blends the principles of physics and chemistry to study the physical characteristics, or properties, of molecules
26. Catalysis and Chemical Reactions | Submit
A catalyst is a substance that can be added to a reaction to increase the reaction rate without getting consumed in the process. Catalysts play an important part in many chemical processes. They increase the rate of reaction, are not consumed by the reaction and are only needed in very small amounts. A chemical reaction involves a chemical change, which happens when two or more particles interact.
Sub tracks:
27. Industrial Chemistry & Applied Chemistry | Submit
Applied chemistry is the application of the principles and theories of chemistry to answer a specific question or solve a real-world problem, as opposed to pure chemistry, which is aimed at enhancing knowledge within the field. Industrial chemistry deals with commercial production of chemicals and related products from natural raw materials and their derivatives.
Sub tracks:
28. Biological & Chemical Sciences | Submit
The biological and chemical sciences provide fundamental areas of biology the study of life, and chemistry the study of matter, biology encompasses other fields of research that are related to the sustainability of life, including the environment, ecosystem, food quality, causes of illnesses, and the development of medicines. Biological Sciences is an extensive study covering the minute workings of chemical substances inside living cells, to the broad scale concepts of ecosystems and global environmental changes.
Sub tracks:
29. Chemo-informatics & Computational Chemistry | Submit
Computational methods have had a place in fundamental research for decades. In theoretical and physical chemistry. Chemo informatics can be broadly defined as the field of solving chemical problems with computers. These methods are widely used in chemical industry, particularly in pharmaceutical and biotechnology research. The computational chemistry and chemo informatics are widely applied, for the development of novel biotechnological processes and products. It mainly focuses on storing, indexing, searching, retrieving, and applying information about chemical compounds.
Sub tracks:
30. Nanocatalysis & Nanochemistry | Submit
Nanocatalysis is a rapidly growing field which involves the use of nanomaterials as catalysts for a variety of homogeneous and heterogeneous catalysis applications. The application field of nanochemistry of catalysis is spreading to new areas including new nanocatalysis, surface chemistry of nanocatalysts, refining and development of catalysts, new nanoconjugates, nanophysics of catalytic materials, new organic nanocatalysts, solution chemistry of nanocatalysts.
Sub tracks:
Submit your abstract here