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Theme
Advancement and Extensive Study on Material Science and Nanotechnology
- Emerging Materials 2018

About


Allied Academies amiably summons all the participants to attend “Annual congress on Emerging Materials and Nanotechnology”during September 06-07, 2018 at Bangkok, Thailand. Emerging Materials 2018 will focus on the latest innovations in research fields of Materials Science, Materials Engineering, Nanotechnology, Biomaterials and Nanomaterials. Emerging Materials 2018 aims in proclaim knowledge and share new ideas amongst the professionals, industrialists and students from research areas of  Nanotechnology, Materials Science, Chemistry and Physics to share their research experiences and indulge in interactive discussions and technical sessions at the event. The Conference will also have a space for companies and/or institutions to present their services, products, innovations and research results. If your company/organization is interested in participating in this event, contact us here.  
Nanotechnology is a between disciplinary subject of science, designing and innovation that arrangements with the devising matter at nuclear, sub-nuclear, atomic level at Nano scale measurements of 1-100 nm. The capacity to see Nano-sized particles have offered ascend to an assortment of potential results in enterprises and logical endeavors. It empowers us to control the extraordinary properties of the mixes by controlling the issue at the atomistic level that aids the development of novel practical materials and designed gadgets.
 The nanotechnology is expected to be the noteworthy progressive power thatoutcomes in affecting the human life and economy. It is emphatically trustedthat consolidated effect of mechanical and data innovation may approach the sizeof progress that could come about because of commercialization ofnanotechnology.

Targetaudience
Major Materials Science Associations aroundthe Globe
Materials Scientists/Research Professors/ Nanotechnologists
Junior/Senior Research Fellows of Materials Science/ Nanotechnology/ Polymer Science/
Materials Science/ Nanotechnology Students
Directors of Chemical/ Materials/ Nano companies
Materials Engineers

Members of different Materials Science, Physics, Nanotechnology associations
       ·        American Chemical Society (ACS)
      ·        American Physical Society (APS)
      ·        The Materials Information Society (ASM International)
      ·        The Materials Research Society (MRS)
      ·        Microscopy Society of America (MSA)
      ·        The Minerals, Metals& Materials Society (TMS)
      ·        Sigma Xi: The Scientific Research Society
      ·        International Societyfor Optical Engineering (SPIE)
      ·        The American Ceramic Society (ACerS)

 MajorNanotechnology Associations around the Globe
       ·        National Center for Nanoscience and Technology (China)
      ·        National Institute for Nanotechnology (Canada)
      ·        Iranian Nanotechnology Laboratory Network
      ·        Russian Nanotechnology Corporation
      ·        National Nanotechnology Center (NANOTEC), Thailand
      ·        National Nanotechnology Initiative (United States)
      ·        National CancerInstitute Alliance for Nanotechnology in Cancer
      ·        National Institutes of Health Nanomedicine Roadmap Initiative
      ·        American National Standards Institute Nanotechnology Panel (ANSI-NSP)

                                                  Welcome Message

                                                  Allied Academies invites all the participantsfrom all over the world to attend "Annual congress on Emerging Materials andNanotechnology”, on September 6-7 , 2018in Bangkok, Thailand which includes prompt keynote presentations, or  talks,poster presentations, sponsors and exhibitions.
                                                  Allied Academies is a scientific association known for promoting scientific temperament and has been performing very well in Business and Management and is a perfect platform for our readers.It is established in the year 1997.
                                                  The main motto is making the information on science and technology. It is a specialized medical and science publisher that operates in collaboration with the association and societies. Emerging Materials aims to bring together the prominent researchers, academic scientists, and research scholars  to exchange and share their experiences on all aspects of Emerging Materials 2018.

                                                  Session and Tracks

                                                  Track: Material Science
                                                  The Stone Age, Bronze Age, Iron Age, reminds us that the history of our civilization goes hand in hand with materials science. Understanding the behaviour of material has given rise to countless innovation and breakthrough ranging from stone tools, which led to the discovery of fire in the prehistoric period, to silicone chips and silicone cell in our modern era. The engineering of materials has advancement in healthcare industries, medical device, electronics and photonics, energy industries, batteries, fuel cells, transportation, and nanotechnology.  While the field of materials science has evolved from metals, ceramics, polymers, and their various composites, in recent years there has been increasing focus creating novel nanostructure materials.

                                                  Track: Nanotechnology
                                                  Nanotechnology is the craftsmanship and study of controlling issue at the nanoscale to make new and one of a kind materials and items. Nanotechnology can possibly change society. An expected worldwide innovative work venture of nearly $9 billion every year is foreseen to lead new restorative treatment and apparatuses; more efficient vitality creation, stockpiling and transmission; better access to clean water; more viable contamination lessening and anticipation; and capacity, lighter materials.Nanotechnology combines solid state physics, chemistry, electrical engineering, chemical engineering, biochemistry and biophysics, and materials science.  It is a highly interdisciplinary area meaning that it involves ideas integrated from  many traditional discipline. 


                                                  Track: Advanced Nanomaterials
                                                  Nano materials refer to the matter whose length scale, in any dimension, is approximately 1 to 100 nanometers. It can be metals, ceramics, polymeric materials or composite materials. The processing, structure and properties of materials with grain size in the tens to several hundreds of nanometer range are research areas of considerable interest over the past years. On nanoscale, some physical and chemical material properties can differ significantly from those of the bulk structured materials of the same composition. The theoretical strength of nanomaterials can be reached or quantum effects may appear; crystals in the nanometer scale have a low melting point and reduced lattice constants, since the number of surface atoms or ions becomes a significant fraction of the total number of atoms or ions and the surface energy plays a significant role in the thermal stability.
                                                   
                                                  Track: Emerging Nanotechnology in Material Science
                                                  Nanotechnology involves the ability to see and to control individual atoms and molecules. It is the designing the building machine in which every atom and chemical bond is specified precisely. There are many promises of nanotechnology in the fields of environment, transportation and health nanotechnology will enable control of matter at the nanometer scale, using mechanochemistryShortly after this envisioned, molecular machinery is created, it will result in a manufacturing revolution, probably causing severe disruption. It also has serious economical, social, environment and military implication. 


                                                  Track: Nano electronics
                                                  Nano electronics covers a different arrangement of gadgets and materials, with the normal trademark that they are small to the point that physical impacts alter the materials' properties on nanoscale–inter N atomic interactions and quantum mechanical properties play a significant role in the workings of these devices.  At the nanoscale, new phenomena take precedence over those that hold sway in the macro-world Quantum impacts, for example, burrowing and atomistic confusion rule the qualities of these nanoscale gadgets. The nanoscale dimensions of nano electronic components for systems of giga-scale complexity measured on a chip or in a package. This scaling highlight and the street to giga-scale frameworks can be depicted as the 'More Moore' area of improvement.


                                                  Track: Graphene        
                                                  Graphene is a thin layer of pure carbon; it is a single, tightly packed layer of carbon atoms that are bonded together in a hexagonal honeycomb lattice. In more complex terms, it is an allotrope of carbon in the structure of a plane of sp2 bonded atoms with a molecule bond length of 0.142 nanometres. Layers of graphene stacked on top of each other form graphite, with an interplanar spacing of 0.335 nanometres. By analysing graphene’s interfacial adhesive energy, it is possible to effectually separate graphene from the metallic board on which it is grown, whilst also being able to reuse the board for future applications theoretically an infinite number of times, therefore reducing the toxic waste previously created by this process. The quality of graphene plays a crucial role as the presence of defects, impurities, grain boundaries, multiple domains, structural disorders, wrinkles in the graphene sheet can have an adverse effect on its electronic and optical properties.   

                                                                                                       
                                                  Track: Fullerene
                                                  A Fullerne is a pure carbon molecule composed of at least 60 atoms of carbon. Because a fullerene takes a shape similar to a soccer ball or geodesic dome, it is sometimes referred to as a buckyball after the inventer of the geodesic dome, Buckminster Fuller. Cylindrical fullerenes are also called “buckytubes” or carbon nanotubes. One of the interesting properties of fullerenes is that they can be man-made, or found in nature such as graphite has sheets of carbon atoms, arranged in hexagon. By manipulating elements on a molecular level, scientist are able to build fullerenes such as carbon nanotubes for research and design for nanomaterials or other purpose.

                                                  Track: Nano Biotechnology
                                                  Nano Biotechnology, Bio Nanotechnology, and Nano science are terms that allude to the joining of nanotechnology and science. Nano Biotechnology is a train in which devices from nanotechnology are produced and connected to contemplate natural marvels. Bio nanotechnology, by and large, refers to the investigation of how the objectives of nanotechnology can be guided by concentrate how organic "machines" work and adjusting these natural themes into enhancing existing nanotechnologies or constructing new ones. This specialized way to deal with science enables researchers to envision and make configurations that can be utilized for organic research. Naturally roused nanotechnology utilizes organic frameworks as the motivations for advances not yet made.

                                                  Track: Polymer Science Engineering            
                                                  A Polymer is a large molecule made up of chains or rings of linked repeating sub units, which are called monomers. Polymers usually have high melting and boiling points. Because the molecules consist of many monomers, polymers tend to have high molecular masses. Numerous normal classes of polymers are made out of hydrocarbons, mixes of carbon and hydrogen. These polymers are particularly made of carbon molecules reinforced together, one to the following, into long chains that are known as the foundation of the polymer. Because of the nature carbon, one or more other atoms can be attached to each carbon atom in the backbone. There are polymers that contain only carbon and hydrogen atoms. Polyethylene, polymethylpentene, polypropylene, polybutylene and polystyrene are examples of these. Polyvinyl chloride (PVC) has chlorine attached to the all carbon backbone. Teflon has fluorine attached to the all carbon backbone. 
                                                   
                                                  Track: Nano photonics and Optics 
                                                  Nano photonics and optics is the investigation of the conduct of light on the nanometer scale, and of the association of nanometer-scale objects with light. It is a branch of optics, optical designing, electrical building and nanotechnology. It regularly includes metallic segments which can transport and concentrate light by means of surface plasmon polaritons.
                                                  Nano photonics and optics is the investigation of the conduct of light on the nanometer scale, and of the association of nanometer-scale objects with light. It is a branch of optics, optical designing, electrical building and nanotechnology. It regularly includes metallic segments which can transport and concentrate light by means of surface plasmon polaritons. 

                                                  Track: Nano Medicine
                                                  Nanomedicine is just the use of nanotechnologies in a social insurance setting and the lion's share of advantages that have just been seen include the utilization of nanoparticles to enhance the conduct of medication substances. Today, nanomedicines are utilized all inclusive to enhance the medicines and lives of patients experiencing a scope of clutters including ovarian and bosom malignancy, kidney ailment, contagious contaminations, raised cholesterol, menopausal indications, different sclerosis, ceaseless agony, asthma and emphysema. The nanomedicines that are as of now accessible are conquering a portion of the troubles experienced by ordinary medicinal methodologies in conveying the advantage from the medication particles utilized. 


                                                  Track: Organic and Molecular Electronics
                                                  Natural and atomic materials have been researched throughout the previous couple of decades for their fascinating electronic and optoelectronic properties. In fact they offer a scope of points of their interest over regular inorganic semiconductors (e.g. silicon) for example, low cost, mechanical and compound adaptability, simplicity of handling and light weight. This has been abused in a scope of gadgets, including sunlight based cells and natural light producing gadgets, which are currently entering the commercial center.

                                                  Track: Nano composite
                                                  Nano composite is a multiphase strong material where one of the stages has one a few measurement of under 100 nanometers or having  nano-scale rehash separates between the diverse stages that make up the material. In the broadest sense this definition can incorporate permeable media, colloids, gels and copolymers, however is all the more normally interpreted as meaning the strong blend of a mass lattice and nano-dimensional stages contrasting in properties because of dissimilarities in structure and science. The mechanical, electrical, warm, optical, electrochemical, synergist properties of the nano composite will contrast uniquely from that from that of the part materials. Measure limits for these impacts have been proposed,<20nm for making a hard attractive materials delicate,<50 nm for refractive list change, and <100 nm for accomplishing super para magnetism mechanical fortifying or confining network separation development.    
                                                    
                                                  Track: Nanofabrication
                                                  Nanofabrication alludes to the outline procedure of nanomaterial and gadgets that are estimated in nanometers. Nanofabrication utilizes cutting edge innovation and is for the most part utilized as a part of assembling of innovative microchips, microcontrollers and different sorts of silicon chips. Integrated circuits (ICs), which have been a significant piece of electronic gadgets for a long time, have been reformed by the presentation of nanofabrication. The circuits are presently created particle by particle, practically equivalent to step by step development of a building, on account of programmable nanomachines
                                                     
                                                  Track: Nanophysics
                                                  Nanotechnology is tied in with planning, creating and controlling materials and segments with measurements on the nanoscale, i.e. from 1 to 100 nm. Amid the Master's program in Nanomaterials and Nanophysics you will figure out how nanotechnology can be utilized as a part of request to grow new optic and electronic segments and new materials for use in interchanges innovation, sensor innovation or catalysis.

                                                  Track: Nanotechnology Risk
                                                  Nanotechnology is an effective instrument for fighting growth and is being put to use in different applications that may lessen contamination, vitality utilization, ozone harming substance discharges, and help anticipate ailments. NCI's Alliance for Nanotechnology in Cancer is attempting to guarantee that nanotechnologies for growth applications are created dependably. Likewise with any new innovation, the wellbeing of nanotechnology is constantly being tried. The little size, high reactivity, and remarkable elastic and attractive properties of nanomaterials—similar properties that drive enthusiasm for their biomedical and modern applications—have raised worries about suggestions for nature, wellbeing, and security (EHS).

                                                  Track: Future Prospects of Nanotechnologies and Business Reasonability
                                                  Nanotechnology is the new edges of science and advancement in Europe and around the world, working at the span of individual particles. Top analysts and also policymakers general praise the focal points it would pass on to the entire society and economy: an extensive bit of them request the key part research would play in the quality creation strategy to make exploitable course of action of developments by the European business provoking a choice of momentous applications, things, markets and profitable pay sources. 
                                                   

                                                  Market Analysis


                                                  Europe represented 33% piece of the pie in worldwide nanotechnology advertise income in 2015 after Americas district and is figure to develop at a CAGR of 15.6% to reach $3.98 billion by 2021. APAC district is anticipated to develop at a rate of 20.9% CAGR amid the figure time frame 2016-2021. The examination report advises that the worldwide  nanoparticle advertise is relied upon to achieve USD 91.1 million by 2020 at a CAGR of 5.4% from 2015-2020. The market development is being enhanced because of the expanded accentuation on Nano technological research and financing gave by the administration to complete the R&D in this area. The business sectors of China, Brazil, India, and South Africa are achieving high development prospects for the organizations engaged with R&D of nanotechnology and nanoparticle breaking down instruments dispersion.
                                                   The worldwide market of material science is assessed to achieve an estimation of $6000 million by 2020 and is required to engrave a CAGR of 10.2% in the vicinity of 2015 and 2020. The north of America holds the biggest market took after by Asia-Pacific. The Europe showcase is assessed to develop at a consistent rate because of monetary recuperation in the district alongside the expanding worry for the building protection and vitality investment funds.

                                                  The worldwide composites advertise for center materials is evaluated to increment from USD 1.17 Billion to USD 1.92 Billion from 2016 to 2020 separately and a CAGR of 8.77% is normal in the vicinity of 2017 and 2022. There might be an expansion in the market of center materials as producers of materials are consenting to supply arrangements with end-utilize businesses to hang on and enhance their market in the composites.
                                                   

                                                  Organizing Committee
                                                  OCM Member
                                                  Vladimir Fal’ko
                                                  Director of the National Graphene Institute, Condensed Matter Theory
                                                  University of Manchester
                                                  Manchester, United Kingdom
                                                  OCM Member
                                                  Edward Yi Chang
                                                  Professor
                                                  National Chiao Tung University
                                                  Hsinchu City, Taiwan
                                                  OCM Member
                                                  T.Theivasanthi
                                                  Professor, Material Science
                                                  Kalasalingam University
                                                  MADURAI, India
                                                  OCM Member
                                                  Adem Beriso
                                                  Madda University
                                                  Addis Ababa, Ethiopia
                                                  OCM Member
                                                  Wei Min Huang
                                                  School of Mechanical and Aerospace Engineering
                                                  Nanyang Technological University
                                                  Singapore, Singapore
                                                  OCM Member
                                                  Igor Lukacevic
                                                  Professor, Department of Physics
                                                  Josip Juraj Strossmayer University of Osijek
                                                  Zagreb, Croatia
                                                  Venue
                                                  &
                                                  Hospitality

                                                   Avani Atrium Bangkok

                                                  Phetchaburi Rd- Soi Petchaburi 38

                                                  Bangkapi Krung Thep Maha Nakhon 10310

                                                  Thailand




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