Allied Academies is privileged and be counted of great delight to host 3rd Annual Congress on Emerging Materials and Nanotechnology is to be held at Barcelona, Spain for the period of April 22-23, 2019. The conference will provide a forum for interplay among attendees on Nanotechnology, Nanomaterials Synthesis and Characterization, Nano devices and structures, Nano-electronic gadgets and many areas related to the Fields of Nanotechnology, Nanotechnology Professors and other industrial leaders. It will create an interface among professionals, academicians and experts in the fields of Nanotechnology.
This global meeting will assemble the world leaders in the expanding fields related to the Nanomaterials Synthesis and Characterization, Nano devices and structures, Nano-electronic devices and many regions related to the Fields of Nanotechnology. We are all acutely aware of the growing crisis associated with Nano-industry. Thus it is timely that this meeting will enable you to meet and discuss critical issues.
The present efforts to hold the Emerging Materials 2019 Conference in Barcelona, Spain are based on our decision to involve Global academic faculty members, Nanotech representatives and students. In this mega event in Barcelona, representatives in both industry and academia work with us to create a more interactive association in the field of Nanotechnology.
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- 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
Major Materials Science Associations around the Globe
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 Society for Optical Engineering (SPIE)
· The American Ceramic Society (ACerS)
Major Nanotechnology Associations around the Globe
National Center for Nanoscience and
· National Institute for Nanotechnology (Canada)
· Iranian Nanotechnology Laboratory Network
· Russian Nanotechnology Corporation
· National Nanotechnology Center (NANOTEC), Thailand
· National Nanotechnology Initiative (United States)
· National Cancer Institute Alliance for Nanotechnology in Cancer
· National Institutes of Health Nanomedicine Roadmap Initiative
· American National Standards Institute Nanotechnology Panel (ANSI-NSP)
Emerging Materials 2019 is glad and proud to welcome you to attend the Conference on 3rd Annual Congress on Emerging Materials and Nanotechnology during April 22-23, 2019 in Barcelona, Spain. With a theme “Focusing and increasing the enormous evaluation in nanotechnology”
Emerging Materials 2019 its open access initiative is committed to making genuine and reliable contributions to the scientific & Technology community. It aims with a total of 17 tracks to discover advances in Materials Science, Nano Materials and education in relation to the field as well as a breadth of other topics. It conference brings together individuals who have an interest in different fields like Nanotechnology, Materials Science, Chemistry and Physics
Emerging Materials 2019 Conference, offers a unique opportunity for young scientists starting their research activity in the nanotechnology and Material science field across the world to present and recognize their achievements. It will be also a platform gathering the eminent scientists cordially welcome to participate in this prestigious event.
Your participation will make the International Congress on Current Trends in Emerging Materials & Nanotechnology an unforgettable scientific endeavor and will stimulate a creative exchange of ideas and contacts also between Industry and Academia.
Session and Tracks
Emerging materials is a multifaceted theme dealing with the discovery and designing of new materials. Emerging substances and nanotechnology is an interdisciplinary subject of science and engineering incorporating large vary of natural and man-made materials that relates the structure, synthesis, properties, characterization, performance and fabric processing. The engineering of materials has advancement in healthcare industries, clinical device, electronics and photonics, electricity industries, batteries, fuel cells, transportation, and nanotechnology. It goals at creating substances at the Nano, micro and macro scales and entails quite a few subjects such as biomaterials, structural materials, chemical and electrochemical materials science, computational materials science, electrochemical materials. The advances in substances lead to new revolutions in each discipline of engineering. Material scientist and engineers can improve new materials with more suitable overall performance through modifying the floor properties. Emerging applied sciences are those technical improvements which symbolize revolutionary developments inside a field for competitive advantage.
Smart materials innovation improves energy harvesting. A new type of smart materials with improved energy harvesting properties has been developed by French researchers. The new material is a so-called electrostrictive polymer that uses the piezo-electric effect to harness mechanical energy. This type of materials produces field-induced strain when exposed to an applied external electric field. Smart material and products are used for intelligent future, Robotics, Aerospace and Defense industry. Smart materials & structures are currently used for energy harvesters. Vibrational energy harvesters capture mechanical energy from ambient vibrations and convert the mechanical energy into electrical energy to power wireless electronic systems. Challenges exist in the process of capturing mechanical energy from ambient vibrations. Smart and Multi-functional Materials are designed so as to meet specific requirements through tailored properties. Smart materials can be considered as multifunctional ones that have the ability to react upon an external stimulus, simulating, in this way, the behavior of nature’s materials.
· Piezoelectric and Ferroelectric materials
Computational and Curing Composites
Textiles and Fabrics
Material science plays a critical phase in metallurgy as well. Powder metallurgy is a time period protecting a good sized variety of routes in which materials or parts are produced the usage of steel powders. They can avoid, or fairly decrease, the need to utilize metal expulsion varieties and can lessen the expenses. Pyro metallurgy contains warm therapy of minerals and metallurgical metals and thinks to understand bodily and chemical changes in the substances to empower recuperation of profitable metals. A complete getting to know of metallurgy can assist us to separate the metal in a more achievable manner and can used to a greater huge territory. The extraction of worthwhile minerals or different geographical materials from the earth is called as Mining and Metallurgy is the field of Materials Science that preparations with bodily and artificial nature of the metallic and intermetallic mixes and combinations.
· Alloy development and casting techniques
Creep resistant alloys
Corrosion, heat treatment
Light metals for transportation
Track 4: Computational Materials Science
Computational substances science involves computational tools for solving materials associated problems. There exist special mathematical models for investigating problems at multiple size and time scales which assist in appreciation evolution of material structures (at one of a kind size scales) and how these constructions correctly manipulate fabric properties. With this grasp we can pick substances for unique applications and also sketch advanced materials for new applications. At electronic level, Density Functional Theory (DFT) is a popular computational device while Molecular Dynamics (MD) and Monte Carlo (MC) strategies are regarded as preferred tools for atomistic simulations. Phase-field Method (PFM) is often used for materials issues at micron and mesoscale (between micro and nano) regimes.
Monte Carlo techniques
Material properties database
Track 5: Green Nanotechnology
Nanotechnology is a concern which has been well recognized inside the scientific and science industries for a lengthy time. It is presently with the consistently developing progression in innovation that nanotechnology is grabbing the tempo and has many men and women talking.
Presently, engineers are studying methods that it can be made valuable to the environment. This has been marked as 'green nanotechnology' when you consider that it centers round challenges internal the nanoscale that needs to be overcome to guarantee eco-friendly approaches and products. The targets of nanotechnology are to create eco-friendly designs with nanotechnology and utilize it to minimize health and environmental hazards by way of searching for techniques to supplant give purposes green nanotechnology products.
· Green Engineering
Nanoremediation and water treatment
Track 6: Space Nanotechnology
Nanotechnology may additionally maintain the key to making area flight greater practical. Advancements in nanomaterials make lightweight photo voltaic sails and a cable for the space elevator possible. By substantially lowering the amount of rocket fuel required, these advances may want to decrease the cost of achieving orbit and travelling in space. In addition, new substances mixed with nanosensors and nanorobots could improve the overall performance of spaceships, spacesuits, and the tools used to explore planets and moons, making nanotechnology an vital phase of the ‘final frontier’.
for Space Applications
Nonvolatile Molecular Memory
Nanoelectronics for Logic and Memory
Nano and Micro Fabrication Process Modeling
Track 7: Nanotoxicology
Nanotoxicology is the study of per chance hazardous effects of elements and even machines at the Nano level. Because factors behave differently a measurement of 1-100 Nanometers and this can have a hazardous have an effect on humans and the environment. Some particles such as carbon nanotubes that have superb tensile strength rivaling that of diamonds has long thin nanofibers that almost precisely resemble the asbestos fibers and if brought into the lungs can motive a deadly lung situation known as mesothelioma.
Mechanisms of toxicity
Track 8: Nanotechnology in Healthcare
In this technology of nanoscience, advances of nanotechnology have led to the creation of new generations of nanostructures, every characterized via their explorative utilization in quite a number types of purposes in biomedicine and bio-engineering. These purposes are anticipated to significantly enhance the analysis and therapeutic components of many diseases. The materials have been explored and mentioned as factors of biosensors and as very environment friendly drug shipping platform.
Nano Velcro chip
Track 9: Nanochemistry
Nanochemistry unites – unsurprisingly – nanoscience and chemistry. Nanochemists work from the atom up, with the aim of engineering nanosized materials. They use a wide variety of strategies to prepare and collect ‘little portions of matter’ which display unique magnetic, electronic, optical, chemical and mechanical behaviors attributable only to their nanometer size. Nanochemistry has uses in chemical, physical and materials science, engineering and biological and medical applications. Using single atoms as building blocks offers new ways to create innovative materials, the opportunity to create the smallest features possible in integrated circuits and the chance to explore quantum computing for example.
· Graphene & Fullerenes
Medicinal Nano Chemistry
Track 10: Nanomanufacturing
Nanomanufacturing is each the manufacturing of nanoscaled materials, which can be powders or fluids, and the manufacturing of components "bottom up" from nanoscaled substances or "top down" in smallest steps for high precision, used in countless applied sciences such as laser ablation, etching and others. Nanomanufacturing differs from molecular manufacturing, which is the manufacture of complex, nanoscale buildings with the aid of capability of nonbiological mechanosynthesis.
Nano Sensors and Actuators
Modeling and Simulation at the Nanoscale
Track 11: Nanotechnology in Life Sciences
The fusion of nanotechnology and medication is altering healthcare as we be aware of it. Organizations and government entities are investing huge amounts in nanotech R&D; life science technology innovators across the world are handing over new merchandise and applied sciences that nearly appear straight from a sci-fi movie. Advances in nanotechnology are more and more being utilized in the existence sciences. Designs and constructions at the nanometer scale are being utilized to fields such as pharmaceuticals, biotechnology and tissue engineering.
Track 12: Nanoelectronics
Nanoelectronics covers a diverse set of devices and materials, with the common characteristic that they are so small that physical effects alter the materials ‘properties on a nanoscale – inter-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 effects such as tunneling and atomistic disorder dominate the characteristics of these nanoscale devices.
Flexible electronic circuit
MEMS and NEMS Devices
Nanoemissive display panel
Track 13: Nanobiotechnology
Bionanotechnology and nano biotechnology are
phrases that refer to the intersection of nanotechnology and biology. These two
phrases are regularly used interchangeably. When a distinction is intended,
though, it is primarily based on whether or not the center of attention is on
applying organic ideas or on studying biology with nanotechnology. Bio nanotechnology
usually refers to the learn about of how the dreams of nanotechnology can be
guided through analyzing how biological "machines" work and adapting
these organic motifs into improving present nanotechnologies or growing new
Nano biotechnology, on the different hand, refers to the approaches that nanotechnology is used to create units to learn about biological systems. In different words, bio nanotechnology is actually miniaturized biotechnology, whereas Nano biotechnology is a specific utility of nanotechnology.
Electron projection lithography
Track 14: Polymer Science
The predominant concerns for humans in the future will be power resources, food, health, mobility & infrastructure and communication. The major challenges in the upcoming many years will be the populace that is increasing gradually, the concentration of humans in expansive city centers, globalization and the expected alternate of climate. There is no doubt that polymers will play a key role in discovering profitable approaches in handling these challenges. Polymers will be the material of the new millennium and the production of polymeric parts i.e. green, sustainable, energy-efficient, high quality, low-priced, etc. will assure the accessibility of the greatest options round the globe. Synthetic polymers have considering that a long time played a highly essential position in present-day medicinal practice. Many gadgets in medication and even some artificial organs are constructed with success from artificial polymers and clever polymers for microfluidics and Self-healing and reprocessable. Polymer Systems have been employed in a number of industrial applications. Polymer Science can be utilized to save electricity and improve renewable power technologies.
· Silicone Gel Adhesive
Electron beam effects
Track 15: 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.
Gold Nanoparticles Precursors
Track 16: 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).
Risk assessment and management
Health impact of nanotechnology
Societal impact of nanotechnology
Environmental impact of nanotechnology
Regulation of nanotechnology
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.
· Uses of Nanomaterials &Components in Space
Liquid Repellant Materials
Light Seeking Synthetic Nano Robot
Self Healable Batteries
Multi Function Chips
Smarter Self Assembly
Gross domestic expenditure on research and development in Barcelona is well above the EU average. Investment from foreign companies in R&D in Barcelona has been rising for years and is at an extremely high level, while domestic industry has doubled expenditure on R&D over the last 10 years. There are many successfully exported Barcelona products. In order to promote nanosciences and nanotechnologies in Barcelona specifically, this initiative was established as a multi-annual funding program - aiming at increased networking, creating critical masses, making nanosciences and nanotechnologies utilizable for the economy and for society, and providing an adequate number of qualified technical staff. The Frankfurt NANO Initiative capitalizes on this variety as one of the strengths of their program and by intensive networking of science and industry enables the development of highly innovative state-of-the-art products with new physical or chemical properties.
The Spain NANO Initiative is providing funds to build up and expand the human resources required to ensure the qualitative and quantitative growth of NANO in Barcelona. Funding is provided for education and training measures for positive development within the higher education sector (universities, universities of applied sciences), the vocational training sector, and the general-education secondary school sector, as well as for the support of enterprises involving nanosciences and nanotechnologies.
Spain businesses expect a significant deployment of nano products and production technologies by 2010. In addition to the projected increase in nano production, intensified fundamental nano research is expected. Two main developments can be extrapolated from this: The demand for highly qualified personnel for R&D positions will increase steeply, as will the demand for engineering personnel (graduates of vocational upper secondary schools, universities for applied sciences, and research universities). The latter need is based on the interest in projects that transfer research into marketable applications and products, as well as the demand for deployment of nano-related process innovations. Additional administrative and economic skills will become increasingly important for key personnel.
As in the business sector, nano-related employment in educational institutions is expected to increase significantly until 2010. Programs with a nano-related research focus, as well as applied nano-related study programs, are currently being planned or developed for establishment during the next few years. Comparison of supply and demand for nano-relevant education and training programs shows mainly regional imbalances.
Distinct changes on the educational level are expected up until 2010 for nano-related job profiles. University graduates will slightly decrease from 70% to 60%, and graduates from universities of applied sciences will double to approximately 20%. Nano education at the (upper) secondary level is expected to reach and remain static at 15% by 2010. For nano-related topics, education and training are dominated mainly by universities, with well-developed centers in Spain. Presently, most programs focus on advanced students as well as students preparing master's theses and PhD dissertations, and on postdoctoral programs.