17thEdition of
International Conference on

Emerging Trends in Materials Science and Nanotechnology

Theme: The triumphs of hi-tech new wave are the ensemble of materials science and nanotech.

Event Date & Time

Event Location

Rome, Italy

16 years of lifescience communication

Performers / Professionals From Around The Globe

Tracks & Key Topics

Nanomat-2018

About Conference

Euroscicon Ltd invites all the participants from all over the world to attend ‘17th Edition of International conference on emerging trends in material science and nanotechnology 2018 ' during April 26-27, 2018 in Rome, Italy, which includes prompt keynote presentations, Oral Talks, Poster Presentations and Exhibitions.

Nanotechnology is an inter-disciplinary subject of science, engineering and technology that deals with the contriving of matter at atomic, sub-atomic, molecular level at Nano scale dimensions of 1-100nm. The ability to see Nano-sized particles has given rise to a variety of potential outcomes in industries and scientific ventures. It enables us to control the unique properties of the compounds by manipulating the matter at the atomistic level that assists in the construction of novel functional materials and engineered devices.

Material science is a multidisciplinary field applying the synthesis, characterization and properties in the areas of science and technology. The discovery of new materials in vibrant and variant disciplines of materials science and engineering is inherent with numerous challenges. The challenges of the materials science need to be faced to gain tremendous technological achievements.                                                                          

IMPORTANCE AND SCOPE

The development of nanotechnology will be the key policy makers and bring a new wave as the radical innovations in numerous application areas. The effects that can be attained by application of Nano scale technology realization of miniature systems with good functionality, to establish high surface area-volume ratio, the manifestation of novel phenomena and involves changes in their properties.

The opportunities for building careers in this field is increasing at a fast pace. In fact, there are currently more than 370 nanotechnology-based products. The nanotechnology is anticipated to be the significant revolutionary force that results in influencing the human life and economy. It is strongly believed that combined impact of industrial and information technology may approach the magnitude of change that could result from commercialization of nanotechnology.

The prior 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 for a specific product. The perception 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.

The 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 at the core of the material development.                                                                                                                    

WHY TO ATTEND?

Nanomat conference 2018 provides a striking opportunity of being connected and gaining contacts with delegates who are active in the concerned field. Networking enables sharpening skills, spark inspiration and uncover new ideas during break-out sessions providing tea and lunch for the delegates. The important subjects are addressed by the expertise key note speakers with global recognition thus conferring knowledge on the new technologies and latest drift in the domain. The international Nanomat conference accents the prominent key note speakers, plenary speeches, young research forum, poster presentations, technical workshops and career guidance sessions.

Market Analysis

THEME: The triumphs of the hi-tech new wave are the ensemble of materials science and nanotech. 

SUMMARY

The 17th Edition of International conference on emerging trends in material science and nanotechnology is the platform to gain or share the knowledge in the new technological developments in the field of science, engineering, and technology. This conference brings together professors, researchers, scientists, students in all the areas of material science and nanotechnology and provides an international forum for the spreading of approved research. We are honored to invite you all to attend and register for the “17th Edition of International conference on emerging trends in material science and nanotechnology (Nanomat 2018)” which is scheduled for April 26-27, 2018 in Rome, Italy.

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 International conference on emerging trends in material science and nanotechnology, where you will be sure to have a meaningful experience with scholars from around the world. All members of the Nanomat 2018 organizing committee look forward to meeting you in Rome, Italy.

IMPORTANCE AND SCOPE

The National Nanotechnology Initiative (NNI) was established primarily because Nanoscience and technology are predicted to have an enormous potential economic impact. The conceivable outcomes appear endless. It is strongly believed that combined impact of industrial and information technology may approach the magnitude of change that could result from commercialization of nanotechnology.

The 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 at the core of the material development.

WHY ROME?

Rome is one the most beautiful cities in the world. Every year millions of tourists from around the world visit to admire the treasures and masterpieces of Roman art and architecture. Archaeological remains from ancient Rome, art-stuffed churches, and the treasures of Vatican City are worth your attention.

Rome is the capital of Italy and the Lazio region. The city constitutes 2,877,215 residents in 1,285 km2. It is also the country's largest and most populated administrative region and fourth-most populous city in the European Union by population within city limits. It is the center of the Metropolitan City of Rome, which has a population of 4.3 million residents.

 The city is located in the central-western portion of the Italian Peninsula, within Lazio (Latium), along with the shores of the Tiber. The Vatican City is an independent country geographically located within the city boundaries of Rome, the only existing example of a country within a city, for this reason, Rome has been often defined as the capital of two states. 

MARKET ANALYSIS

Europe accounted for 33% market share in global nanotechnology market revenue in 2015 after Americas region and is forecast to grow at a CAGR of 15.6% to reach $3.98 billion by 2021. APAC region is projected to grow at a rate of 20.9% CAGR during the forecast period 2016-2021.

The analysis report informs that the global nanoparticle market is expected to reach USD 91.1 million by 2020 at a CAGR of 5.4% from 2015-2020. The market growth is being improved due to the increased emphasis on Nanotechnological research and funding provided by the government to carry out the R&D in this domain. The markets of China, Brazil, India, and South Africa are attaining high growth prospects for the companies involved in R&D of nanotechnology and nanoparticle analyzing instruments distribution.

The prime position in global nanoparticle analysis market was occupied by the Malvern Instruments Ltd in U.K. in the year 2014 and over the past few years, it has adopted various advances and strategies to maintain its prime position in the global market. The other companies such as HORIBA  Ltd. (Japan), Beckman Coulter (U.S.), Shimadzu Corporation (Japan), Agilent Technologies, Inc. (U.S.), Microtrac, Inc. (U.S.), Hitachi, Ltd. (Japan), JEOL Ltd. (Japan), Bruker Corporation (U.S.), TSI Incorporated (U.S.), and Wyatt Technology Corporation (U.S.) also holds a good position in the nanoparticle analysis market.

The global market of material science is evaluated to reach a value of $6000 million by 2020 and is expected to inscribe a CAGR of 10.2% between 2015 and 2020. The north of America holds the largest market followed by Asia-Pacific. The Europe market is estimated to be growing at a steady rate due to economic recovery in the region along with the increasing concern for the building insulation and energy savings.

The global composites market for core materials is estimated to increase from USD 1.17 Billion to USD 1.92 Billion from 2016 to 2020 respectively and a CAGR of 8.77% is expected between 2017 and 2022. There may be an increase in the market of core materials as manufacturers of materials are signing supply agreements with end-use industries to hold on and improve their market in the composites.

The global market of microspheres and flexible pipe market is estimated to reach USD 6.68 Billion by 2022 with a CAGR of 9.02% between 2017 and 2022 and USD 1,111.3 Million with a CAGR of4.0% between 2017 and 2022.

The cooling fabrics market was valued at USD 1.80 Billion in 2016 and is roughly calculated to reach USD 2.94 Billion by 2021, at a CAGR of 10.3% from 2016 to 2021. The global conductive textiles market was valued at USD 1.02 Billion in 2016 and is projected to reach USD 2.11 Billion by 2021, at a CAGR of 15.6% from 2016 to 2021.

Major Nanotechnology Associations around the Globe

  • Brazilian Nanotechnology National Laboratory, Brazil
  • National Center for Nanoscience and Technology, China
  • National Institute for Nanotechnology, Canada
  • EU Seventh Framework Programme, Europe
  • National Centre for Nano-Structured Materials CSIR, India
  • Institute of Nano Science and Technology, India
  • Iranian Nanotechnology Laboratory Network, Iran
  • Collaborative Centre for Applied Nanotechnology, Ireland
  • Russian Nanotechnology Corporation, Russia
  • Sri Lanka Institute of Nanotechnology, Sri Lanka
  • National Nanotechnology Center (Nanotech), Thailand
  • Nanomedicine Roadmap Initiative, USA
  • American National Standards Institute Nanotechnology Panel (ANSI-NSP)
  • Nano Ned, USA
  • National Nanotechnitiative, USA

Major Material 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)

Target Audience:

  • Materials Scientists/Research Professors/ Nanotechnologists
  • Physicists/Chemists
  • 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

Sessions/Tracks

Track 1: Advanced Nanomaterials

Nanomaterials are the materials of which a solitary unit is measured 1 and 1000 nanometers yet is generally 1—100 nm. Nanomaterials inquire about adopting the approaches related to materials science and nanotechnology, thus gaining grounds in materials metrology and blend which have been created in support of micro fabrication research. Materials with a structure at the Nano scale regularly have one of a kind optical, electronic, or mechanical properties Nanomaterials are gradually getting to be noticeably popularized and starting to rise as wares. 

Nano particles application and synthesis

Nano Fluids

Soft matter Nanotechnology

Track 2: Nano Electronics

Nano electronics cites the utilization of nanotechnology in electronic segments. The term covers an assorted arrangement of gadgets and materials, with the basic trademark that they are small to the point that between nuclear connections and quantum mechanical properties should be examined broadly. This field aims to enable the sustained cognizance of Moore’s law by using innovative methods and materials for the construction of electronic devices featured with nanoscale size.

Nano protonics

Nano Fabrication

Nano material electronics

Molecular Electronics

Nano electronic Devices

Track 3: Nanotechnology for Clean Energy and Environment

Nanotechnologies give the possibility to improve vitality effectiveness over all branches of industry and to financially use sustainable power source creation through new innovative arrangements and advanced generation advances. In this way, its consequences for a vibrant era, transmission, stockpiling and utilization are various and differing. Some will be incremental and some perhaps progressive.

Nano technological products, processes and applications are relied upon to contribute altogether to natural and atmosphere insurance by sparing crude materials, vitality and water and additionally by decreasing nursery gasses and unsafe squanders. Utilizing nanomaterials along these lines guarantees certain ecological advantages and supportability impacts.

Green Nanotechnology

Environmental Benefits

Nano remediation and matter treatment technology

Solar cells

Track 4: Nano Applications

The 2000s have seen the beginnings of the uses of nanotechnology in business items, albeit most applications are constrained to the mass utilization of inactive nanomaterial. The benefits of nanotechnology are dependent on a matter of fact that the structures can be modified at the level of Nano scale to thus obtain specific properties, thus greatly extending the materials science toolkit. Utilizing nanotechnology, materials can viably be made more grounded, lighter, more sturdy, more receptive, more sifter like, or better electrical conveyors, among numerous different characteristics. Numerous regular business items are right now available and in day by day utilize that depend on Nano scale materials and procedures. Nanotechnology has significantly added to real advances in registering and gadgets, prompting rapid, tiny and more convenient frameworks that can oversee and store greater measures of data.

Medical and health care

Nano technology in drug delivery and cancer treatment

Nano technology in blood purification and tissue engineering

Agricultural Applications

Industrial Applications

Energy applications

Track 5: Nano Biotechnology

Nano biotechnology, bio nanotechnology, and Nano biology are terms that refer to the convergence of nanotechnology and science. Nanobiotechnology is a discipline in which tools from nanotechnology are developed and applied to study biological phenomena. Ideas that are upgraded through Nano biology include Nano devices, (for example, natural machines), nanoparticles, and Nano scale marvels that occur inside the reach of nanotechnology. 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. Be that as it may, as with nanotechnology and biotechnology, bio nanotechnology has numerous potential moral issues related with it. The key objectives that are usually found in Nano biology involve applying Nano tools to medical/biological related problems and thus refining all of these applications. Nanobiotechnology derives its fundamentals from nanotechnology.

Mechanical Properties

Electrical/electronic

Optical

Thermal

Agriculture

Track 6: Nano Biomedicine

Nano medicine is the medicinal utilization of nanotechnology. Nano medicine ranges from the medicinal uses of nanomaterial’s and organic gadgets to Nano electronic biosensors, and even conceivable future utilizations of atomic nanotechnology, for example, natural machines. Current issues for Nano medicine include understanding the issues identified with harmfulness and ecological effect of nanoscale materials. Functionalities can be added to nanomaterials by interfacing them with natural atoms or structures. The measure of nanomaterials is like that of most natural particles and structures; in this way, nanomaterial’s can be helpful for both in vivo and in vitro biomedical research and applications. Up to this point, the reconciliation of nanomaterials with science has prompted the advancement of symptomatic gadgets; differentiate specialists, expository instruments, non-intrusive treatment applications, and medication conveyance vehicles. Nano medicine looks to convey a profitable arrangement of research apparatuses and clinically valuable gadgets sooner rather than later. 

Drug delivery

Blood purification

Tissue engineering

Medical devices

Track 7: Carbon and Graphene Nanostructures

Carbon nanotubes (CNTs) are allotropes of carbon with a round and hollow nanostructure. These round and hollow carbon particles have strange properties, which are significant for nanotechnology, gadgets, optics and different fields of materials science and innovation. Attributable to the material's remarkable quality and solidness, nanotubes have been developed with the length-to-breadth proportion of up to 132,000,000:1, essentially bigger than for whatever other material.

Likewise, attributable to their unprecedented warm conductivity, mechanical, and electrical properties, carbon nanotubes discover applications as added substances to different auxiliary materials. For example, nanotubes frame a modest bit of the material(s) in a few (essentially carbon fiber) slugging sticks, golf clubs, auto parts or Damascus steel. 

Types of carbon nanotubes

Properties

Synthesis

Applications

Track 8: Polymer Science Engineering

Polymer Science or macromolecular science is a subfield of materials science concerned with polymers, principally manufactured polymers, for example, plastics and elastomers. The field of polymer science incorporates analysts in various controls including science, material science, and designing.

The first difficulties in the forthcoming decades will be the expansion in the populace, the grouping of individuals in far reaching urban focuses, and globalization, and the normal change of atmosphere. Subsequently, the primary worries for people, later on, will be vitality and assets, nourishment, well-being, versatility and foundation and correspondence. There is probably polymers will assume a key part in finding effective routes in taking care of these difficulties. Polymers will be the material of the new thousand years and the creation of polymeric parts i.e. green, maintainable, vitality proficient, great, low-evaluated, and so forth will guarantee the availability of the finest arrangements around the globe. Manufactured polymers have since quite a while assumed a generally essential part in present-day therapeutic practice. Numerous gadgets in prescription and even some simulated organs are built with accomplishment from engineered polymers. It is conceivable that engineered polymers may assume a vital part in the future drug store, as well. Polymer science can be connected to spare vitality and enhance sustainable power source advancements.

Biohybrid polymer nanofibers

Nano polymers

Nano ceramics

Track 9: Biopolymers and Bio plastics

Polymer Nano composites (PNC) include a polymer or copolymer having nanoparticles or Nano fillers scattered in the polymer lattice. With the ebb and flow concentrate on investigating other options to oil and noticeable quality on lessened natural effect, research is progressively being coordinated at an improvement of biodegradable sustenance bundling from biopolymer-based materials. A biomaterial is any matter, surface, or builds that interfaces with organic frameworks. As a science, biomaterials are around fifty years of age. The investigation of biomaterials is called biomaterials science. It has encountered steady and solid development over its history, with many organizations putting a lot of cash into the improvement of novel items. Biomaterials science includes components of a drug, science, science, tissue building and materials science.

Biopolymers in tissue engineering

Biopolymer Applications

Biodegrabale polymers 

Track 10: Advanced Materials Science

The interdisciplinary field of materials science also called as materials science and building, includes the revelation and plan of new materials, with an accentuation on solids. The propelled material industry envelops a full cycle shape materials extraction, Primary creation, forms improvement and material characterization to item manufacture, testing which exhausted in composite materials and biomaterials. The improvement of cutting edge material is related to the era of new learning and licensed innovation, a blend of the relationship with cutting edge materials. The Advanced materials directorate has in the past monetary year built up a benchmark think about on the area in South Africa. The review involved understanding the capacities, openings, worldwide patterns, breaches and difficulties of the business, with a particular accentuation on titanium, Nano-materials, propelled composites and Nanotechnology and modern applications in aviation, self-propelled processes, development, and gadgets, restorative, bundling and a sustainable power source (PV).There are many organizations inquiring about on Advanced materials, in which Morgan Advanced Materials is one of it.

Natural Materials

Advanced Functional materials

Advanced Engineering materials

Advanced optic materials

Track 11: Nano Composites

Nano composite is a multiphase strong material where one of the stages has one, a few measurements of under 100 nm, or structures having Nano-scale rehash removes between the diverse stages that make up the material. Nano composites are found in nature, for instance in the structure of the abalone shell and bone. The utilization of nanoparticle-rich materials long originates before the comprehension of the physical and compound nature of these materials. Jose-Yacaman et al. explored the starting point of the profundity of shading and the imperviousness to acids and bio-consumption of Maya blue paint, ascribing it to a nanoparticle instrument. From the mid-1950s nanoscale organo-dirts have been utilized to control the stream of polymer arrangements (e.g. as paint viscosities) or the constitution of gels (e.g. as a thickening substance in cosmetics, keeping the arrangements in a homogeneous frame). By the 1970s polymer/dirt composites were the theme of course books in spite of the fact that the expression "Nano composites" was not in like manner utilize.

Ceramic-matrix nanocomposites

Metal-matrix nanocomposites

Polymer-matrix nanocomposites

Track 12: Nano technology in materials science

Nanotechnology is the building of practical structures at the subatomic scale. This spreads both current work and ideas that are more cutting-edge. In its extraordinary sense, nanotechnology implies the expected ability to manufacture things from the base up, utilizing systems and devices being created today to make finish, elite items. Two standard systems are used in nanotechnology. In the "base up" strategy, materials and gadgets are produced using sub-nuclear fragments which collect themselves synthetically by standards of sub-atomic acknowledgment. In the "best down" technique, Nano-particles are worked from greater components without nuclear level control. Improvement of utilizations joining semiconductor nanoparticles to be utilized as a part of the up and coming era of items, for example, show innovation, lighting, sunlight based cells and organic imaging; see quantum dabs. Late utilization of nanomaterials incorporates a scope of biomedical applications, for example, tissue building, sedate conveyance, and biosensors.

Natural nano materials

Track 13: Corrosion Engineering and Corrosion Protection

Erosion Engineering is the experts teach of applying logical information, characteristic laws and physical assets with a specific end goal to outline and actualize materials, structures, gadgets, frameworks and systems to deal with the common marvel known as consumption. For the most part identified with Metallurgy, Corrosion Engineering likewise identifies with non-metallic including pottery. Consumption Engineers regularly oversee other not-entirely erosion forms including (but rather not confined to) breaking, fragile crack, crazing, fussing, disintegration and that's only the tip of the iceberg. In the year 1995, it was accounted for that the costs across the nation in the U.S of erosion were about $300 billion every year. Erosion building bunches have conformed to the world with a specific end goal to anticipate, moderate and deal with the impacts of consumption. Cases of such gatherings are the National Association of Corrosion Engineers (NACE) and the European Federation of Corrosion (EFC), see Corrosion social orders. The consumption engineers’ primary errand is to financially and securely deal with the impacts of erosion on materials. Erosion engineering graduate degree courses are accessible worldwide and are worried about the control and comprehension of consumption. 

Corrosion

Types of corrosion

Protection against corrosion

Track 14: Biomaterials

biomaterial is any substance that has been built to interface with organic frameworks for a medicinal reason - either a remedial (treat, increase, repair or supplant a tissue capacity of the body) or a demonstrative one. As a science, biomaterials are around fifty years of age. The investigation of biomaterials is called biomaterials science or biomaterials designing. It has encountered enduring and solid development over its history, with many organizations putting a lot of cash into the improvement of new items. Biomaterials science includes components of the solution, science, tissue designing and materials science. 

Dental biomaterials

Polymer Biomaterials

Biodegradable biomaterials

Track 15: Electronic, Optical and Magnetic Materials

For any electronic gadget to work well, electrical current must be proficiently controlled by exchanging gadgets, which winds up noticeably difficult as frameworks approach little measurements. This issue must be tended to by incorporating materials that allow solid turn-on and kill of current at any size scale. New electronic and photonic nanomaterials guarantee achievements in interchanges, registering gadgets and strong state lighting. Ebb and flow look into including mass gem development, natural semiconductors, thin film and nanostructure development, and delicate lithography. A few of the major photonics organizations on the planet sees on various advancements and assessments about future difficulties for makers and integrators of lasers and photonics items.

 The silicon photonics market is foreseen to develop to $497.53 million by 2020, growing at a CAGR of 27.74% from 2014 to 2020. The silicon carbide semiconductor market is assessed to develop $3182.89 Million by 2020, at a normal CAGR of 42.03% from 2014 to 2020.

Semiconductor materials

Optical devices

Lasers

Magnetic Storage

Track 16: Nano Photonics

Nano Photonics corresponds to the utilization of light in Nanoscale ventures. This field is related with some particular leaps forward in utilizing light in new advances, including silicon-based semiconductors, where nanophotonics enhance speed and execution. Nano photonics or Nano-optics is the study of the behavior of light on the nanometer scale, and of the interaction of nanometer-scale objects with light. The nanophotonics idea additionally adds to a more broad classification of nanotechnology that is altering how a portion of the most modest undertakings are dealt with by the innovative work (R&D) bureaus of different fields.  It is a branch of optics, optical engineering, electrical engineering, and nanotechnology. It often involves metallic components, which can transport and focus light via surface Plasmon polaritons.

The term "Nano-optics", just like the term "optics", usually refers to circumstances involving ultraviolet, visible, and near-infrared light.

The scope of Nano Photonics extends to theory, modeling and simulation, experimentation, instrumentation, and application.

Optoelectronics and microelectronics

Solar cells

Spectroscopy

Metamaterials

Track 17: Nano Robotics

Nano robotics is a rising innovation field making machines or robots whose parts are at or close to the size of a nanometer (10−9 meters). All the more particularly, Nano robotics (instead of micro robotics) alludes to the nanotechnology building order of planning and building Nano robots, with gadgets extending in size from 0.1–10 micrometers and developed of nanoscale or sub-atomic segments. The terms nanobot, nanoid, nanite, nanomachine, or nanomite have likewise been utilized to portray such gadgets at present under innovative work

Nano machines are generally in the innovative work stage, though some primitive sub-atomic machines and nanomotors have been tried. An illustration is a sensor having a switch roughly 1.5 nanometers over, ready to include particular particles a substance test. The principal valuable uses of Nano machines might be in Nano medicine. For instance, organic machines could be utilized to recognize and obliterate malignancy cells. Another potential application is the recognition of harmful chemicals, and the estimation of their fixations, in the earth. Rice University has exhibited a solitary particle auto created by a compound procedure and including buckminsterfullerene (Bucky balls) for wheels. It is activated by controlling the environmental temperature and by situating an examining burrowing magnifying lens tip. 

Biomedical Applications of Nanorobots

Manufacturing approach

Biochips

Media Partners/Collaborator

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