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17th International Conference on Emerging Materials and Nanotechnology (CSE...

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17th International Conference on Emerging Materials and Nanotechnology

About Conference
By the splendid achievement of Emerging Materials Congress 2018, we take immense pleasure and privilege to announce and welcome you to join, submit your proposals for the “17th International Conference on Emerging Materials and Nanotechnology” (Emerging Materials Congress 2019) with exciting theme "Unearthing the Researches in Materials Science and Nanotechnology" which is going to be held in Berlin, Germany during March 07-08, 2019.

Emerging Materials Congress 2019 is a unique event and platform for global scientists, researchers, directors, professors, engineers from the research areas of Materials Science, Nanotechnology, Chemistry and Physics to share their knowledge and research experiences with interactive panel discussion and sessions by Keynote Lectures, Oral Presentations, and Poster Presentation. The scientific sessions will comprise research areas of Biomaterials, Polymer Science, Materials Science, Nanotechnology, Tissue Engineering, Carbon Materials, Energy Materials, Biopolymers, 3D Printing, Ceramics, Conductive Materials, Electrical, Optical and Magnetic Materials, Materials Applications, etc.

Submission of proposals for Oral presentations and Poster presentations are invited. The Conference will also provide space for companies and/or institutions to present their services, products, inventions and researches.

Importance and Scope:

Emerging Materials Congress 2019 provides best opportunity for delegates from various Institutes and Universities to interact with superlative scientists and Materials experts worldwide. This conference acts as a dais in linking Academicians and Industries to transform the innovative research works into products.

The sphere of Materials Science is the interdisciplinary field connecting chemistry and physics which concentrates on the properties of a material and their microstructure. The advancement in Materials Science leads to the designing of novel materials and provides acquittance for engineering applications. Materials are dynamic for the industrial and social-economic development of the society. The emerging materials and its remarkable technology in the new era exposes exciting advances in micro and nano-engineering. The preceding importance of the material science is to recognize the required material, or a combination of materials based on its cost and performance for intended use of a specific product. The insight of material science domain involves the behavior of materials and the variability in their properties by understanding the quantum mechanics at the sub-atomic or atomic measure. Material science is also an important part of forensic engineering and failure analysis of materials, products, structures or component.

This zone of study focusses on the processing of new materials which facilitates its applications to the next generation of engineers and its high marketability has a great impact on the economy of the country. In the new decade, the sustainability and influence on the environment lie in the core of the materials development. Emerging Materials Congress-2019 covers the areas of Material Science and Engineering, Mining and Metallurgy, Biomaterials, Materials Chemistry, Energy Materials, Polymer Technology, Nanotechnology.

Nanotechnology tailor the structure of materials to smaller scales in the range of 1 to 100 nanometers to attain precise properties so that the materials performance is improved. Average commercial products on the market depends on nanoscale materials and has its application in Electronics, Information technology, Medical, Healthcare, Environmental remediation and future transportation.

Why to attend?

Emerging Materials Congress 2019 affords outstanding opportunity to meet and make new contacts that associates you with delegates in the field of Nanotechnology, Materials Science and Engineering, by providing break-out space with tea and lunch for delegates between sessions with helpful networking time to uncover new ideas. The important subjects are lectured by the globally recognized key note speakers thus discussing on the emerging technologies and advancements in the sphere of Materials Science and Nanotechnology.

Target Audience

Materials Scientists/Researchers/Professors
Junior/Senior research fellows of Materials Science/ Nanotechnology/ Polymer Science/Biomaterials
Materials Science and Nanotechnology Students
Directors of Materials/ chemical companies
Materials Engineers
Members of Materials science and Nanotechnology associations.
Polymer Companies.


Track 1: Materials Science and Engineering

Materials Science and engineering is an interdisciplinary study of all materials from glass to those used in aircrafts, which combines extensive natural and manufactured materials that relays the extraction, synthesis, properties, structural characterization, its performance and material processing. The engineering of materials has progression in healthcare industries, medical devices, electronics and photonics, transportation, energy industries as batteries and fuel cells, and nanotechnology. Materials science and engineering aims at developing materials at the macro, micro and Nanoscales and includes quite a few subjects such as biomaterials, structural materials, chemical and electrochemical materials science, computational materials science. The advancement in materials science primes to novel revolutions in every discipline of engineering. Material scientist and engineers can develop novel materials with improved performance by altering the surface properties. Generally, materials are classified into two major divisions as crystalline and non-crystalline materials. The outmoded materials are metals, semiconductors, polymers, and ceramics. The emerging technologies in materials science comprise of energy materials, nanomaterials, biomaterials, graphene, fullerene, conductive polymers, superalloy, carbon Nanotubes, etc.,

Track 2: Materials and Devices

Materials are being used in devices because of their absolute properties such as electrical, magnetic, thermal, optical, mechanical and piezoelectric properties. The extensively used material components are polymers, semiconductors, oxides and liquid crystals. The electronic materials are the leading elements in several device applications and has its usage have regular electronic tools such as computers, mobile phones, LED bulbs and GPS devices. Modernistic materials and devices are intended to advance the optical, electronic, thermal and chemical performance of the current devices. The present-day approaches of emerging electronic materials and devices encompass the synthesis and fabrication of materials with predictable properties. The topics intricate in the development of Materials and devices are solid state physics and chemistry, microelectronics, photonics, chemical physics, etc.,

Track 3: Nanotechnology in Materials Science

Nanotechnology is well-defined as the handling of matter on an atomic, molecular, and supramolecular scale. Earlier, Nanotechnology was defined as the area of employing atoms and molecules to produce nanoscale products, which is also referred to as molecular nanotechnology. The National Nanotechnology Initiative has defined nanotechnology as the management of material with the measurement of 1 to 100 nm. Nanomaterials are physical materials with a characteristic measurement between 1-150nm that are the building blocks of applied nanotechnology. Nanomaterials have led to the production of several materials with the help of Interface and colloid science such as carbon nanotubes, fullerene, nanorod, and nanoparticles as well as the properties of nanomaterials differ from those of bulk materials because of their exceptional optical, electronic and mechanical properties. Engineered nanomaterials (ENMs) are produced with novel physico-chemical properties for a precise application of minerals and other chemical substance. Nanomaterial exploration is a material science-based method that has its application in optics, catalysis, healthcare, electronics, cosmetics, pharmaceutics, and energy conservation.

Track 4: Energy Materials

As the global demand for energy is increasing on a higher frequency, materials are the key aspects of new technologies for renewable energy sources, supercapacitors, energy storage in batteries, thermoelectric devices, energy conversion through solar cells and fuel cells. The dynamic research areas comprise clean energy conversion, biofuels, hydrogen generation and fuel cells. Materials for energy can help to produce efficient sources of energy to meet the present concerns and is a key driver for our society. Materials with emerging energy technologies are the supportable energy foundations to withstand the geophysical alteration. Solar energy is superior and the development of photovoltaic cells is needed for the existing development. The piezoelectric, ferroelectric materials and thin films are the valuable materials for the conversion of energy.

Energy Materials Societies and Associations:

Europe: Federation of European Materials Societies| The European Semiconductor Industry Association | Spanish Association for Composite Materials| Austrian Society for Metallurgy and Materials| Czech Society for New Materials and Technologies| European Materials Research Society| Danish Metallurgical Society| European Composites Industry Association

Track 5: Surface Science and Engineering

The study of the physical and chemical process that rises by incorporation of two phases, with solid-liquid/ solid–gas/ solid–vacuum/ liquid-gas interfaces is named as Surface Science. The actual application of surface science in related areas like chemistry, mechanical engineering, electrical engineering, and physics is recognized as Surface Engineering. Surface Chemistry achieves the alteration of a chemical configuration of a surface by presenting functional groups and additional elements while Surface physics deals with the physical deviations that arise at interfaces. Techniques tangled in Surface engineering are spectroscopy methods such as X-ray photoelectron spectroscopy, low-energy electron diffraction, electron energy loss spectroscopy, Auger electron spectroscopy, Thermal desorption spectroscopy, ion scattering spectroscopy and secondary ion mass spectrometry, etc. The chemical reactions at the interface are generally termed as Surface Chemistry and are also linked to surface engineering. The significant areas of Surface Science and Engineering is heterogeneous catalysis, electrochemistry, and geochemistry.

Track 6: Biomaterials and Tissue Engineering

The biomaterial is defined as a substance that has been engineered to interact with components of a living system for both therapeutic and diagnostic purpose. Biomaterials are natural components or it can be synthesized in the laboratory employing metals, ceramics, polymers and composite materials. Biomaterials cover the fundamentals of medicine, biology, chemistry, tissue engineering and materials science. The biomaterial science also includes polymer synthesis, drug design, self-assembly of materials, immunology and toxicology. Biomaterials have its wide usage in drug delivery, dental application, surgery and regenerative medicine that mimics the natural function. The current research focuses on combining biomedical science and material engineering to produce materials for numerous medical application. The application of biomaterials includes joint replacements, stents, vascular grafts, Heart valves, bone plate, bone cement, dental implants, breast implants, surgical sutures, etc.,

Track 7: Ceramic Engineering

The Science and technology of generating substances from inorganic, non-metallic materials in the presence of heat or by the help of high purity chemical solutions is termed as Ceramic Engineering. It comprises of the study of structure, composition, and properties of raw materials. Ceramics are crystalline materials with partly crystalline structure in the long-range order on the atomic scale. The glass-ceramics is in the short-range atomic scale with an amorphous structure. Ceramics has a unique advantage where it is can be replaced because of its heat resistant capacity. These materials are produced by sol-gel synthesis or by hydrothermal method. Ceramic materials rise the applications in materials science, chemical, electrical and mechanical engineering. It has an exceptional usage in mining, medicine, chemical industry, aerospace, electronics, optical and automotive industries.

Track 8: Polymer Technology

Polymer technology is one of the most prevalent zones of existing research as it includes the study and applications of nanoscience to polymer-nanoparticle matrices, where nanoparticles are those with at least in the dimension of less than 100 nm. Polymer nanotechnology emphases on polymer-based biomaterials, self-assembled polymeric films, nanofabrication of polymers, polymer blends and nanocomposites. Polymer matrix based nanocomposites consist of polymer or copolymer having nanoparticles dispersed in the matrix. Silicon Nanospheres is the extensively known Nano polymer which shows discrete features and harder than silicon. Preceding the age of nanotechnology phase, polymer blends, block copolymer domain frequently attains Nanoscale sizes. Nano-sized silica particles, zeolites, and nanoparticle fillers have controlled the expansion of products with enhanced properties such as thermal stability & conductivity, chemical resistance, and tensile strength. Some of the natural and synthetic polymers are collagen, enzymes, elastin, cellulose, chitin, plastics, fibers and adhesives.

Track 9: Graphene and Carbon Nanotubes

Graphene is the crystalline form of carbon that has two dimensional (2D) properties where it consists of single layer of carbon atom arranged in hexagonal lattice. This allotrope of carbon is the basic structure of other allotropes such as diamond, carbon nanotubes, graphite, fullerenes. Graphite which is one of the allotropes of carbon is the softest material with is a very good lubricant and is the conductor of electricity. Because of its known unique property, it is being used as thermal insulation. Natural graphite is of three types of crystalline, amorphous and vein. Carbon has numerous essential application in the living system. Carbon fibers which are composed mostly of carbon events, in the range of 5-10 micrometers have its application in composite materials, textiles, microelectrodes, Flexible heating.

Track 10: Electrical, Optical, Magnetic Materials

Materials which can be magnetized and attracted to a magnet are termed as ferromagnetic materials. These kinds of ferromagnetic materials comprise of iron, nickel, cobalt, some alloys of rare earth metals, and some naturally occurring minerals such as lodestone. Magnetic Smart Materials also have medical applications and it is predictable that they will increase in the future. Examples are carrying medications to exact locations within the body and the use as a contrasting agent for MRI scans, evaluating the risk of organ damage in hereditary hemochromatosis, defining the dose of iron chelator drugs mandatory for patients with thalassemia, and Nowadays Scientists are also occupied on the advancement of synthetic magnetic particles which can be inoculated into the human body for the diagnosis and treatment of disease.

Track 11: Advanced Materials

The utilization of Materials science and engineering implies a novel group of materials with its individual logic of effect that cannot be defined just in terms of the normal classes of heavy and light or form, construction, and surface. Materials are the core for scientific and industrial advancements in our life and advancement in the field of electronic materials, biomaterials, sensors, energy materials, light alloys are vital for the information technology, improvement of health, smart atmosphere, renewable energy, improved transportation and other deliberate applications. Coelux lightening system where the scientists used a thin coating of nanoparticles to exactly simulate sunlight through Earth’s atmosphere and the effect known as Rayleigh scattering. Soft materials are the additional evolving class of materials that includes gels, colloids, liquids, foams, and coatings.

Track 12: Materials Characterization and Applications

Characterization is the crucial process in the field of Materials Science, by means of which the materials features, and properties are explored and restrained. Few basic characterization techniques that have been used for centuries include microscopy, spectroscopy and macroscopic testing. Evolving technologies are categorized by vital innovation, moderately fast progression, consistency, prominent impact, and ambiguity. The characterization of materials can limit them to techniques such as microscopic structure and properties of materials, while others use the term to mention to any materials analysis process including macroscopic techniques such as mechanical testing, thermal analysis, and density calculation. The measure of the structures observed in materials characterization ranges from angstroms, such as in the imaging of individual atoms and chemical bonds, up to centimeters, in the imaging of coarse grain structures in metals. Materials make up the existing world, from the concrete in buildings and bridges to the advanced carbon fibers and ceramics in high-performance cars and even to the nanoparticles in self-cleaning bricks. Materials exploration is varying based on the design, build and new products. The materials in the industrial sector embrace zones of mining, transport, chemical, oil and gas, pharmaceutical, aeronautical, food and medical. The existing and future needs of human can be fulfilled by industries in accomplishing the anticipated resolution on goods. The main materials formed by industries are metals, inorganic nonmetals, and plastics.


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