With the magnificent success of Advanced Materials 2019, Conference Series is proud to announce the 25^th International Webinar on Advanced Materials and Nanotechnology, to be held during November 23-24, 2020.

Advanced Materials-2020 is comprised of various tracks and sessions designed to offer comprehensive sessions that address current issues in the field of Materials Science.

Track 1: Advanced Materials Engineering

Materials Science and Engineering is an acclaimed scientific discipline, expanding in recent decades to surround polymers, ceramics, glass, composite materials and biomaterials. Materials science and engineering involve the discovery and design of new materials.  Many of the most pressing scientific problems humans currently face are due to the limitations of the materials that are available and, as a result, major breakthroughs in materials science are likely to affect the future of technology significantly. Materials scientists lay stress on understanding how the history of a material influences its structure, and thus its properties and performance. All engineered products from airplanes to musical instruments, alternative energy sources related to ecologically-friendly manufacturing processes, medical devices to artificial tissues, computer chips to data storage devices and many more are made from materials.  In fact, all new and altered materials are often at the heart of product innovation in highly diverse applications. The global market is projected to reach $6,000 million by 2020 and lodge a CAGR of 10.2% between 2015 and 2020 in terms of worth. The North American region remains the largest market, accompanied by Asia-Pacific. The European market is estimated to be growing at a steady rate due to economic redeem in the region along with the expanding concern for building insulation and energy savings.

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Materials Science and Engineering Societies & Associations:

Europe: Federation of European Materials Societies, 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

U.S.A: American Physical Society, Magnetic Materials Producers Association, Materials Research Society, Society for Biomaterials, The Minerals, Metals & Materials Society, The Materials Information Society, American Chemical Society

Asia-: International Association of Advanced Materials, Materials Research Society of Singapore, The Association of East Asian Research Universities, Australian Composite Structures Society, Chinese Society for Composite Materials, Japan Society for Composite Materials, Chinese Society for Metals

Track 2: Materials Science and Engineering

Materials science and engineering constitute the discovery and design of new materials.  Many of the most pressing scientific problems humans currently face are due to the limitations of the materials that are currently available and, as a result, major breakthroughs in materials science are likely to affect the future of technology significantly. Materials scientists lay stress on understanding how the history of a material influences its structure, and thus its properties and performances. All engineered products from airplanes to musical instruments, alternative energy sources related to ecologically-friendly manufacturing processes, medical devices to artificial tissues, computer chips to data storage devices and many more are made from materials.  In fact, all new and altered materials are often at the heart of product innovation in highly diverse applications. The global market is projected to reach $6,000 million by 2020 and lodge a CAGR of 10.2% between 2015 and 2020 in terms of worth. The North American region remains the largest market, accompanied by Asia-Pacific. The Europe market is estimated to be growing at a steady rate due to economic redeem in the region along with the expanding concern for building insulation and energy savings.

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Materials Science and Engineering Societies & Associations:

Europe: Federation of European Materials Societies, 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

U.S.A: American Physical Society, Magnetic Materials Producers Association, Materials Research Society, Society for Biomaterials, The Minerals, Metals & Materials Society, The Materials Information Society, American Chemical Society

Asia-: International Association of Advanced Materials, Materials Research Society of Singapore, The Association of East Asian Research Universities, Australian Composite Structures Society, Chinese Society for Composite Materials, Japan Society for Composite Materials, Chinese Society for Metals

Track 3: Advancement Optical Materials

New electronic and photonic nanomaterials assure dramatic breakthroughs in communications, computing devices and solid-state lighting. Current research involves bulk crystal growth, organic semiconductors, thin film and nanostructure growth, and soft lithography along with researches related to Optics. Several of the major photonics companies in the world views on different technologies and opinions about future challenges for manufacturers and integrators of lasers and photonics products. The silicon photonics market is anticipated to grow to $497.53 million by 2020, expanding at a CAGR of 27.74% from 2014 to 2020. The silicon carbide semiconductor market is estimated to grow $3182.89 Million by 2020, at an expected CAGR of 42.03% from 2014 to 2020.

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Electronic, Optical and Magnetic Materials Societies & Associations

Europe: European Optical Society, United Physical Society of Russian Federation, Danish Optical Society, Italian Optical Society, Austrian Physical Society, Finnish Optical Society, French Physical Society

USA: Optical Society of America (OSA), American Physical Society, IEEE Photonics Society, IEEE Lasers and Electro-Optics Society, International Society of Optical Engineering

Asia-Pacific: Optical Society of Japan, Optical Society of Hong-Kong, Optical Society of Korea, Optical Society of China

Track 4: Carbon and Graphene-based Materials

Carbon is connected with about all that we see around us. Due to its remarkable properties, like high robustness at normal conditions, differing hybridizations, strong covalent bond game plan and straightforward of blends advancement, carbon has been of consistent excitement for a couple of districts. A nanostructure is a structure of fair size among minute and nuclear structures. Nanostructural detail is a microstructure at the nanoscale.

Graphene is an allotrope of carbon as a two-dimensional, atomic-scale, hexagonal cross-segment in which one particle shapes each vertex. It is the basic helper segment of various allotropes, including graphite, charcoal, carbon nanotubes and fullerenes. It can moreover be considered as an uncertainly significant sweet-noticing iota, an authoritative occurrence of the gathering of level polycyclic fragrant hydrocarbons.

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Track 5: Polymer Science and Engineering

Material science has a wider range of applications which includes ceramics, composites and polymer materials. Bonding in ceramics and glasses uses both covalent and ionic-covalent types with SiO₂ as a basic building block. Ceramics are as soft as clay or as hard as stone and concrete. Usually, they are crystalline in form. Most glasses contain a metal oxide fused with silica. Applications range from structural elements such as steel-reinforced concrete, to the gorilla glass. Polymers are also an important part of materials science. Polymers are the raw materials that are used to make what we commonly call plastics.  Specialty plastics are materials with distinctive characteristics, such as ultra-high strength, electrical conductivity, electro-fluorescence, high thermal stability. Plastics are divided not on the basis of their material but on its properties and applications. The global market for carbon fiber reached $1.8 billion in 2014, and further the market is expected to grow at a five-year CAGR (2015 to 2020) of 11.4%, to reach $3.5 billion in 2020. Carbon fiber reinforced plastic market reached $17.3 billion in 2014, and further the market is expected to grow at a five-year CAGR (2015 to 2020) of 12.3%, to reach $34.2 billion in 2020. The competition in the global carbon fiber and carbon fiber reinforced plastic market is intense within a few large players, such as Toray Toho, Mitsubishi, Hexcel, Formosa, SGL carbon, Cytec, Aksa, Hyosung, Sabic, etc.

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Polymers Societies and Associations

Europe-The Polymer Society UK, Telford Polymer Association, European Polymer Dispersion and Latex Association, Polish Chemical Society, British Plastic Association.

USA-American Chemical Society (Division of Polymer Chemistry), American Physical Society, American Plastics Council, Brazilian Polymer Association, Plastic Industry Association, USA

Asia:Asian Polymer Association, Society for Polymer Science, Asia, Polymer Society of Thailand, Federation of Polymer Societies, Polymer society of Japan

Track 6: Emerging Areas of Materials Science

The ability of a nation to harness nature as well as its ability to cope up with the challenges posed by it is determined by its complete knowledge of materials and its ability to develop and produce them for various applications. Advanced Materials are at the heart of many technological developments that touch our lives. Electronic materials for communication and information technology, optical fibers, laser fibers sensors for intelligent environment, energy materials for renewable energy and environment, light alloys for better transportation, materials for strategic applications and more. Advanced materials have a wider role to play in the upcoming future years because of their multiple uses and can be of greater help for whole humanity. The global market for conformal coating on electronics market the market is expected to grow at a CAGR of 7% from 2015 to 2020. The global market for polyurethanes has been growing at a CAGR (2016-2021) of 6.9%, driven by various application industries, such as, automotive; bedding and furniture; building and construction; packaging; electronics and footwear. In 2015, Asia-Pacific dominated the global polyurethanes market, followed by Europe and North America. BASF, Bayer, Dow Chemical, Mitsui Chemicals, Nippon Polyurethanes, Trelleborg, Woodbridge are some of the major manufacturers of polyurethanes across regions.

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Europe: Federation of European Materials Societies, 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

U.S.A: American Physical Society, Magnetic Materials Producers Association, Materials Research Society, Society for Biomaterials, The Minerals, Metals & Materials Society, The Materials Information Society, American Chemical Society

Asia-Pacific: International Association of Advanced Materials, Materials Research Society of Singapore, The Association of East Asian Research Universities, Australian Composite Structures Society, Chinese Society for Composite Materials, Japan Society for Composite Materials, Chinese Society for Metals.

Track 7: Advancement in Nanomaterials Science and Nanotechnology

Nanotechnology is the handling of matter on an atomic, molecular, and supramolecular scale.  The interesting aspect of nanotechnology is that the properties of many materials alter when the size scale of their dimensions approaches nanometres. Materials scientists and engineers work to understand those property changes and utilize them in the processing and manufacture of materials at the nanoscale level. The field of materials science covers the discovery, characterization, properties, and use of nanoscale materials. Nanomaterials research takes a materials science-based approach to nanotechnology, influencing advances in materials metrology and synthesis which have been developed in support of microfabrication research. Materials with structure at the nanoscale level o have unique optical, electronic, or mechanical properties. Although much of nanotechnology's potential still remains un-utilized, investment in the field is booming. The U.S. government distributed more than a billion dollars to nanotechnology research in 2005 to find new developments in nanotechnology. China, Japan and the European Union have spent similar amounts. The hopes are the same on all fronts: to push oneself off a surface on a growing global market that the National Science Foundation estimates will be worth a trillion dollars. The global market for activated carbon totaled $1.9 billion, in 2013, driven primarily by Asia-Pacific and North American regions for applications in water treatment and air purification.

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Nanotechnologies Societies and Associations

Europe: European Nanoscience and Nanotechnology Association, Nanotechnology Industries Association, Russian Society of Scanning Probe Microscopy and Nanotechnology

USA: American Nano Society, International Association of Nanotechnology, Nanotechnology and Nanoscience Student Association (NANSA), American Bar Association Section Nanotechnology Project, American Chemical Society, Microscopy society of America

Asia: Asian Nanoscience and Nanotechnology Association, International association of Nanotechnology, Chinese Society of Nanotechnology , Korean Society of Nanotechnology, Japanese Society of Nanotechnology

Track 8: Advanced Ceramics and Composite Materials

The primeval ceramics made by humans were pottery objects, including 27,000-year-old figurines, made from clay, either by itself or blended with other materials like silica, hardened, sintered, in fire. Later ceramics were glazed and fired to produce smooth, colored surfaces, decreasing porosity through the use of glassy, amorphous ceramic coatings on top of the crystalline ceramic substrates. Ceramics currently include domestic, industrial and building products, as well as a broad range of ceramic art. In the 20th century, new ceramic materials were developed for use in advanced ceramic engineering, such as in semiconductors. Polymers are investigated in the fields of biophysics and macromolecular science, and polymer science (which encompass polymer chemistry and polymer physics). Historically, products arising from the linkage of repeating units by covalent chemical bonds have been the primary focus of polymer science; emerging important areas of the science currently focus on non-covalent links. Composite materials are generally used for buildings, bridges and structures like boat hulls, swimming pool panels, race car bodies, shower stalls, bathtubs, storage tanks, imitation granite and cultured marble sinks and countertops. The most advanced examples perform routinely on spacecraft in demanding environments. Now standing at USD 296.2 billion, the ceramics market is forecast to grow to USD 502.8 billion by 2020, as every industry achieves upgraded manufacturing efficiency along with high renewable energy efficiency. As per the global market analysis, in 2014, the Composite materials industry is expected to generate revenue of approximately 156.12 billion U.S. dollars.

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Ceramics Societies and Associations

Europe:Swedish Ceramic Society,British Composites Society, European Ceramic Society,European Society for Composite Materials,Italian Ceramic Society,German Ceramic Society.

USA:American Ceramic Society,American Composites Manufacturers Association,American Chemical Society,Brazilian Ceramic Society,Canadian Ceramic Society

Asia: Chinese Ceramic Society, China, ,Australian Ceramic Society, Australia, Ceramics Society of Japan, Ceramic Society of Thailand , Ceramic society of Korea

Track 9: Advanced Bio-Materials & Bio-devices

Biomaterials from healthcare viewpoint can be defined as materials those possess some novel properties that makes them appropriate to come in immediate association with the living tissue without eliciting any adverse immune rejection reactions. Biomaterials are in the service of mankind through ancient times but subsequent evolution has made them more versatile and has increased their usage. Biomaterials have transformed the areas like bioengineering and tissue engineering for the development of strategies to counter life-threatening diseases.  These concepts and technologies are being used for the treatment of different diseases like cardiac failure, fractures, deep skin injuries, etc.  Research is being performed to improve the existing methods and for the innovation of new approaches. With the current progress in biomaterials, we can expect future healthcare which will be economically feasible to us. Equipment and consumables was worth US$ 47.7 billion in 2014 and is further expected to reach US$ 55.5 billion in 2020 with a CAGR (2015 to 2020) of 3%. Dental equipment is the fastest-growing market due to continuous technological innovations. The overall market is driven by increasing demand for professional dental services and growing consumer awareness. The major players in the Global Dental market are 3M ESPE, Danaher Corporation, Biolase Inc., Carestream Health Inc., GC Corporation, Straumann, Patterson Companies Inc., Sirona Dental Systems Inc., Planmeca Oy, DENTSPLY International Inc. A-Dec Inc. 3

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Biomaterials Societies and Associations

Europe: Swiss Society for Biomaterials, UK Society for Biomaterials, European Society for Biomaterials, Netherlands Society For Biomaterials and Tissue Engineering, Biomaterials and Tissue Engineering Society, Turkey, The Hellenic Society for Biomaterials,Greece

USA: Canadian Biomaterials Society, Society for Biomaterials, USA, The Minerals, Metals & Materials Society, The Materials Information Society, American Chemical Society

Asia:The Korean Society For Biomaterials, Japanese Society for Biomaterials, Japan, Chinese Society for Biomaterials, China,

Track 10:  Energy Materials and Harvesting

Different geophysical and social pressures are providing a shift from conventional fossil fuels to renewable and sustainable energy sources. We must create the materials that will support emergent energy technologies. Solar energy is a top priority of the department, and we are devoting extensive resources to developing photovoltaic cells that are both more efficient and less costly than current technology. We also have extensive research around next-generation battery technology. Materials performance lies at the heart of the development and optimization of green energy technologies and computational methods now plays a major role in modeling and predicting the properties of complex materials. The global market for supercapacitor is expected to grow from $1.8 billion in 2014 to $2.0 billion in 2015 at a year-on-year (YOY) growth rate of 9.2%. In addition, the market is expected to grow at a five-year CAGR (2015 to 2020) of 19.1%, to reach $4.8 billion in 2020. The competition in the global supercapacitor market is intense within a few large players, such as, AVX Corp., Axion Power International, Inc., Beijing HCC Energy Tech. Co., Ltd., CAP-XX, Elna Co. Ltd., Elton, Graphene Laboratories INC., Jianghai Capacitor Co., Ltd, Jiangsu Shuangdeng Group Co., Ltd., Jinzhou Kaimei Power Co., Ltd, KEMET, LS MTRON, Maxwell Technologies INC., Nesscap Energy Inc., Nippon Chemi-Con Corp., Panasonic Co., Ltd., Shanghai Aowei Technology Development Co., Ltd., Skeleton Technologies, Supreme Power Systems Co., Ltd., XG Sciences.

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Materials for Energy and Environmental Sustainability Societies and Associations

Europe: The European Semiconductor Industry Association (ESIA), Federation of European Materials Societies, 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

U.S.A: American Physical Society, Magnetic Materials Producers Association, Materials Research Society, Society for Biomaterials, The Minerals, Metals & Materials Society, The Materials Information Society, American Chemical Society

Asia-Pacific: International Association of Advanced Materials, Materials Research Society of Singapore, The Association of East Asian Research Universities, Australian Composite Structures Society, Chinese Society for Composite Materials, Japan Society for Composite Materials, Chinese Society for Metals.

Track 11: Physics and Chemistry of Materials

Materials Chemistry provides the loop between atomic, molecular and super molecular behavior and the useful properties of a material. It lies at the core of numerous chemical-using industries. This deals with the atomic nuclei of the materials, and how they are arranged to provide molecules, crystals, etc. Much of properties of electrical, magnetic particles and chemical materials evolve from this level of structure. The length scales involved are in angstroms. The way in which the atoms and molecules are bonded and organized is fundamental to studying the properties and behavior of any material. The forecast for R&D growth in the chemical and advanced materials industry indicates the improving global economy and the key markets the industry serves. U.S. R&D splurging in chemicals and advanced materials is forecast to grow by 3.6% to reach $12 billion in 2014. Overall global R&D is forecast to expand at a slightly higher 4.7% rate to $45 billion in 2014.

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Physics and Chemistry of Materials Societies and Associations

Europe: Belgian Physical Society, Croatian Physical Society, Czech Physical Society, Danish Physical Society, Finnish Physical Society, German Physical Society

USA: American Chemical Society, American chemical society division of polymer chemistry, American Institute of Physics, American Physical Society, Magnetic Materials Producers Association

Asia: Chemical Society of Japan, Chemical Society of Pakistan, Chemical Society of China, The Chinese Physical Society, Japan society of Applied Physics, ASEAN Federation of Physics Association

Track 12: Metals and Metallurgy

Material science plays a important role in metallurgy too. Powder metallurgy is a term covering a wide range of ways in which materials or components are made from metal powders. They can avoid, or greatly reduce, the need to use metal removal processes and can reduce the costs. Pyrometallurgy includes thermal treatment of minerals and metallurgical ores and concentrates to bring about physical and chemical transformations in the materials to enable recovery of valuable metals. A complete knowledge of metallurgy can help us to extract the metal in a more feasible way and can used to a wider range. Global Metallurgy market will develop at a modest 5.4% CAGR from 2014 to 2020. This will result in an increase in the market’s valuation from US$6 bn in 2013 to US$8.7 bn by 2020.  The global market for powder metallurgy parts and powder shipments was 4.3 billion pounds (valued at $20.7 billion) in 2011 and grew to nearly 4.5 billion pounds ($20.5 billion) in 2012. This market is expected to reach 5.4 billion pounds (a value of nearly $26.5 billion) by 2017.

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Metals, Metallurgy and Materials Societies and Associations

Europe: European Association of Mining Industries, Austrian Society for Metallurgy and Materials, Danish Metallurgical Society, Italian Association of Mechanics, Association of European Producers of Steel for Packaging.

USA: Alaska Miners Association, American Exploration & Mining Association, Colorado Mining Association, Brazilian Association of Composites Materials, Brazilian Metallurgy, Materials and Minerals Association, Latin American Steel Association

Asia: Chinese Society for Composite Materials, Japan Aluminium Association, The Polymer Society of Thailand, All India Stainless Steel Industries Association

Theme: Exchange of Technological Advances in the field of Advanced Materials & Nanotechnology

Summary:

Advanced Materials Science or Materials Engineering is the study of all of the materials we see around us every day. Materials Science or Engineering forms a bridge between the sciences and engineering. It allows theory to be put into practice in a way which benefits everybody. Materials Scientists or Engineers look at all of the different groups of materials, metals and alloys, polymers, ceramics and composites. They develop new materials for new applications, improve existing materials to give improved performance and look at ways in which different materials can be used together.

The organizing committee is gearing up for an exciting and informative conference program this year also which includes plenary lectures, symposia, workshops on a variety of topics, poster presentations and various programs for participants from all over the world. We invite you to join us at the Advanced Material Science 2020, where you will be sure to have a meaningful experience with scholars from around the world. All members of the Polymer Science organizing committee look forward to meeting you in Zurich, Switzerland.
For more details please visit: http://europe.materialsconferences.com/

Why Barcelona?

Barcelona is the capital city of autonomous community of Catalonia in Spain and is the second largest city of Spain. It is a roman city and had population of about 1.6millions and it is the largest metropolis on the Mediterranean Sea. It is one of the leading cities in tourism and economically. Barcelona is considered as the 14th most livable city in the world. Economically it is Europe’s 4th best business city with an annual growth of 17%.

Important and Scope:

Advanced  Materials Science and process is designed to offer comprehensive sessions that address recent advancements and new strategies for development of new materials for global requirements with an objective to install a dialogue between industries and academic organizations and knowledge transfer from research to industry. Advanced Materials 2020 covers the areas of Materials Science and Engineering, Energy Materials, Mining and Metallurgy, Nanotechnology, Biomaterials and Tissue Engineering, Materials Chemistry, Polymer Technology, Emerging fields in Materials Science and Nanotechnology.

Advanced Materials Science or Materials Engineering is the study of all of the materials we see around us every day. Materials Science or Engineering forms a bridge between the sciences and engineering. It allows theory to be put into practice in a way which benefits everybody. Materials Scientists or Engineers look at all of the different groups of materials, metals and alloys, polymers, ceramics and composites. They develop new materials for new applications, improve existing materials to give improved performance and look at ways in which different materials can be used together.

Why to attend?

Advanced Materials 2020 offers a fantastic opportunity to meet and make new contacts in the field of Materials Science and Engineering, by providing collaboration spaces and break-out rooms with tea and lunch for delegates between sessions with invaluable networking time for you. It allows delegates to have issues addressed on Materials Science by recognized global experts who are up to date with the latest developments in the Materials Science field and provide information on new techniques and technologies. This International Materials Science conference will feature world renowned keynote speakers, plenary speeches, young research forum, poster presentations, technical workshops and career guidance sessions.

Benefits of Attending Materials -2020:

1) Meet Experts & Influencers Face to Face
2) Networking Opportunities
3) New Tools, Innovation and ideas
4) Learning in a New Space
5) Break Out of Your Comfort Zone
6) New Tips & Tactics
7) The Serendipity of the Random Workshop
8) Invest In Yourself

Target Audience

• Materials Scientists/Research Professors
• Physicists/Chemists
• Junior/Senior research fellows of Materials Science/ Nanotechnology/ Polymer Science/
• Biotechnology
• Materials Science Students
• Directors of chemical companies
• Materials Engineers
• Members of different Materials science associations.
• Polymer companies.

For more information please visit here.

The joy of attending Advanced Materials 2020 brings with improvement and incremental growth in approaching the innovative research in a broader perspective and the beauty to live international diversity.

Come and be a part of it...!