Monday, 11. November 2019, San Francisco, 5th Annual Congress on Nanoscience, Nanotechnology and Advanced Materials (AAC)

from 11. November 2019 - 8:00
till 12. November 2019 - 17:00
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5th Annual Congress on Nanoscience, Nanotechnology and Advanced Materials
About
The “5th Annual Congress on Nanoscience , Nanotechnology and Advanced Marterials”, which is going to be held during November 11-12, 2019 at San Francisco, USA.On this great gathering, Organizing Committee invites participants from all over the globe to take part in this annual congress with the theme “Innovation and new concepts in the field of Advanced Materials & NanoTechnology”. Nanotechnology 2019 aims at sharing new ideas and new technologies amongst the professionals, industrialists and students from research areas of Nanotechnology and Advanced Materials to share their recent innovations and applications and indulge in interactive discussions and technical sessions at the event. The Congress will also have a space for companies and/or institutions to present their services, products, innovations and research results. Nanotechnology and Advanced Materials involves the tracks like Advanced Materials and Functional Devices, Engineering Materials, Composite Materials, Magnetism & Multiferroism, Optical materials and plasmonics, Energy and Harvesting Materials, Nanotechnology-Basics to applications, Nanopore science, Nanomedicine, Bio Nanotechnologies, Carbon nanostructures and graphene, Spintronics, Nanoparticle synthesis and applications.
Importance and Scope:Advanced Materials plays a vital role in our lives because of its uniqueness in properties and extended application in various industries. These are the basis of modern science and technology. Advanced Materials are at the heart of many technological developments that touch our lives and find applications such as electronic materials for communication and information technology, biomaterials for better health care, sensors for intelligent environment, energy materials for renewable energy and environment, light alloys for better transportation, materials for strategic applications and is science, engineering and technology conducted at the Nanoscale, which is about 1 to 100 Nanometers. Nanotechnology is the study of application of extremely small things and can be used across all the other science fields, such as chemistry, biology, physics, materials science, and engineering. Today's scientists and engineers are finding a wide variety of ways to deliberately make materials at the Nanoscale to take advantage of their enhanced properties such as higher strength, lighter weight, increased control of light spectrum, and greater chemical reactivity than their larger-scale counterparts.
Target Audience:Nanotechnology Scientists/Research ProfessionalsPhysicists/ChemistsJunior/Senior research fellows of  Nanotechnology/ Materials Science/ Polymer ScienceNanotechnology/ Materials Science StudentsDirectors of Nanotechnology companiesNanotechnology EngineersMembers of different Nanotechnology/Materials science associations
Sessions /TracksSession 1. Advanced Materials and Functional DevicesThe Advanced Materials Industry includes a full cycle form materials extraction and primary production. The development of Advanced Materials is associated with the generation of recent knowledge and intellectual property, a combination of the association with Advanced Materials .The Advanced Materials directorate has in the past financial year developed a baseline study on the sector in south Africa.   Fundamentals of Materials Science  Materialsin Industry  Advanced Spintronic Materials Memory Polymers  Bio-composites AlloysSession 2. Carbon Nanostructures and GraphemeCarbonis firmly associated with nearly all that we manage in a regular schedule. Because of its extraordinary properties, for example, high solidness at natural conditions, diverse hybridizations, solid covalent bond arrangement and simple of mixes development, carbon has been a point of logical enthusiasm for a few regions. A nanostructure is a structure of middle size amongst minute and atomic structures. Nanostructural detail is micro structure at isan allotrope of carbon as a two-dimensional, nuclear scale, hexagonal cross section in which one molecule shapes every vertex. It is the essential auxiliary component of different allot ropes, including graphite, charcoal,carbon nanotubes and fullerenes. It can likewise be considered as an inconclusively substantial sweet-smelling atom, a definitive instance of the group of level polycyclic fragrant StructureMolecular StructuresCarbon NanotubesFullerenesAllotropes of CarbonSession 3. Composite MaterialsA materials structure made out of no less than two physically one of a kind stages whose mix produces add up to properties that are not the same as those of its constituents. Composites can be incredibly strong and solidified, yet light in weight, so extents of value to weight and solidness to weight are a couple of conditions more essential than steel or aluminum. Metal Matrix CompositesCeramic Matrix CompositesPolymer Matrix CompositesSession 4. Energy and Harvesting MaterialsThe examination of imperatives gathering materials is experiencing remarkable improvement and pulling in colossal premium. Abusing starting late picked up dreams into the real instruments and benchmarks of photosynthesis, it is by and by possible to meld absolutely new and specific sub-nuclear materials and devise fake photo systems and applications for remote from routine sun based cell development. Piezoelectric materialsThermoelectric materialsPyroelectric materialsSession 5. Engineering MaterialsThe Materials used for Manufacturing of engineering products are termed engineering materials. These engineering materials are the backbone of all engineering products. The design, manufacturing, commercialization and performance of any engineering products are basically depends on the material being used for that product. MetalsFerrous MetalsNon-Ferrous MetalsNon-MetalsMetals and AlloysCeramic MaterialsOrganic MaterialsSession 6. Magnetism and MultifariousAttraction is one part of the joined electromagnetic drive. It alludes to physical wonders emerging from the compel brought about by magnets, protests that create fields that draw in or repulse different items. The blend of a few ferric arranges in a similar material, instituted under the term of Multifarious as of late gotten a great deal of consideration. DiamagnetismParamagnetismFerromagnetismSession 7. Nano MaterialsScientists have not unanimously settled on a precise definition of nano materials, but agree that they are partially characterized by their tiny size, measured in nano meters. Nano-sized particles exist in nature and can be created from a variety of products, such as carbon or minerals like silver, but nano materials by definition must have at least one dimension that is less than approximately 100 nano meters. Most nano scale materials are too small to be seen with the naked eye and even with conventional lab microscopes. Natural Nano materialsFullerenesGraphene Nano structuresNano particlesSession 8. Nano StructuresNano structured Materials (NsM) are advanced materials with a micro structure the trademark length size of which is on the request of a couple (routinely 1– 10) nano meters. NsM might be in or far from thermodynamic concordance. Nano structured Materials joined by supra molecular science are occasions of Nano structured Materials in thermodynamic assertion. Nano structured Materials containing manometer-sized crystallizes (e.g. of Au or NaCl) with various crystallographic introductions or possibly fabricated indications are far from thermodynamic DotsNanofluidiesSession 9. Nano Particle Synthesis and ApplicationsNano Particle blend alludes to techniques for making nano particles. Nano particles can be gotten from Bigger atoms or blended by 'base up' techniques that, for instance, nucleate and develop particles from fine sub-atomic appropriations in fluid or vapor stage. Blend can likewise incorporate fictionalization by conjugation to bio active Particles have estimation that measures 100 Nanometres or less. The properties of various conventional materials change when molded from nano particles. This is routinely in light of the way that Nano Particles have a more important surface range per weight than greater particles which make them be more receptive to some unique iotas. Top-DownBottom-UpLithographyDrug Delivery SystemLubricants and Scratch Free PaintsAnti-Corrosion Barrier CoatingSession 10. Nano Technology-Basicsto ApplicationsNano Technology is the collaboration of the physics, chemistry, biology, computer and material sciences integrated with engineering entering the Nano Scale. This means science and engineering focused on making the particles, things, and devices at the atomic and molecular scale. For the most part, Nano Technology Deals with Structures Sized between 1 to 100 Nano meter in no less than one Dimension and includes creating or adjusting materials or gadgets inside that materials and Nano compositesNano PhotonsQuantum dots, Carbon dotsGreen NanotechnologyEnergy Applications of NanotechnologyIndustrial Applications of NanotechnologyPotential Applications of Carbon Nano tubesSession 11. Optical Materials and PlasmonicsThe Diligence of Optical Materials is to give atechnique for correspondence and development trade among researchers who arecareful in materials for potential contraption applications. Plasmonics isthe examination of the joint effort between electromagnetic field and freeelectrons in a plasmonsElectromagnetic WavesSurface Plasmon PolaritonsPlasma OscillationSession 12. Properties of Nano MaterialsNano particles are striking because of their tremendous surface area and this principles the duties made by the little heave of the material. Zinc oxide particles have been found to have better UV blocking properties contemplated than its mass substitute. MechanicalMagneticElectricalOpticalCatalyticCarbon Nano tubesSession 13. SpintronicsSpintronics the usage of a basic property of particles known as turn for information planning. From various perspectives, Spintronics is undifferentiated from contraptions, which rather uses the electrical charge on an electron. Passing on information in both the charge and turn of an electron perhaps offers contraptions with more imperative contrasts of SpinMagnetic MomentSolid-State DevicesMagneto electronicsMetal-Based DevicesSpintronic-Logic DevicesSession 14. Advanced Bio-Materials & Bio-devicesBio-Materials from healthcare viewpoint can be defined as materials those possess some novel properties that make them appropriate to come in immediate association with the living tissue without eliciting any adverse immune rejection reactions. Bio materials are in the service of man kind through ancient times but subsequent evolution has made them more versatile and has increased their usage. Bio-Materials have transformed the areas like bio-engineering 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 bio materials we can expect a 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$ 55.5billion in 2020 with a CAGR (2015 to 2020) of 3%. The 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, Dana her Corporation, Bio lase Inc., Care stream Health Inc., GC Corporation, Sumatran,Patterson Companies Inc., Sirocco Dental Systems Inc., Plangency Oy, DENTSPLY International Inc. A-Dec Inc. Bio material designing and modificationMaterial – Tissue interactionSmart bio materialsPrinting of organs and tissuesNovel approaches in guided tissue regenerationBiomedical devicesBio polymers and bio plastics packagingBio hybrids and bio materials Session 15. Advanced Ceramics and Composite MaterialsThe 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. Laterceramics 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 bond shave been the primary focus of polymer chemistry; 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 counter tops. The most advanced examples perform routinely on spacecraft in demanding environments. Now standing at USD 296.2billion, the ceramics market is forecast to grow to USD 502.8 billion by 2020,as every industry achieves upgraded manufacturing efficiency along with highrenewable 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. science and technologiesCeramic and composite construction materialsCeramics CoatingNovel synthesis and processing of ceramicsFabrication methods of compositesBioceramics and medical applicationsIndustrial applications of composite materialsSession 16. Advanced Materials EngineeringMaterials Science and Engineering is an acclaimed scientific discipline, expanding in recent decades to surround polymers, ceramics, glass, composite materials and bio-materials. Materials science and engineering, involves the discovery and design of new materials.  Many of the most pressing scientific problems humans currently **** 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 Europe market is estimated to be growing at steady rate due to economic redeem in the region along with the expanding concern for the building insulation and energy savings. Functional Devices has established itself as a leader in the HVAC, Building Controls, Energy Management and materials and polymersAdvanced 2D and 3D materialsElastomers and thermoplastic elastomersAdvances in instrumentation technologySmart materials and other advanced materialsMaterial properties and applicationsMagnetic materials and electronic materialsFundamentals of thermodynamic modeling of materialsSession 17. Advanced Optical and Magnetic MaterialsFor any electronic device to operate well, the electrical current must be efficiently controlled by switching devices, which becomes challenging as systems approach very small dimensions. This problem must be addressed by synthesizing materials that permit reliable turn-on and turn-off of current at any size scale. New electronic and photon nano-materials assure dramatic breakthroughs in communications,computing devices, and solid-state lighting. The silicon photonics market is anticipated to grow to $497.53 million by 2020, expanding at a CAGR of 27.74% from 2014 to2020. The silicon carbide semiconductor market is estimated to grow $3182.89 Million by 2020, at an expected CAGR of 42.03% from 2014 to Dosimetry and Image AnalysisElectromagnetic radiationOptical properties of metals and non-metalsPhoto conductivityOptical communications and networkingLasersOptical devicesQuantum science and technologyDomains and hysteresisMagnetic StorageSuperconductivitySemiconductor materialsFabrication of integrated circuitsSemiconductor devicesSoft magnetic materialsHard magnetic materialsDielectric materialsElectronic and ionic conductionFerroelectricity and piezoelectricityPhotonic devices and applicationsSession 18. Carbon Nano-structures and GeographerCarbon is firmly associated with nearly all that we manage on a regular schedule. Because of its extraordinary properties, for example, high solidness at natural conditions, diverse hybridization, solid covelant bond arrangement and simple of mixes development, carbon has been a point of logical enthusiasm for a few regions. A nano-structure is a structure of middle size among minute and atomic structures. Nano-structural  detail is micro-structure at the nano-scale. Geographer is an allot-rope of carbon as a two-dimensional, nuclear scale, a hexagonal cross-section in which one molecule shapes every vertex. It is the essential auxiliary component of different allot-ropes, including graphite,charcoal, carbon nano-tubes and fullness. It can likewise be considered as an inconclusively substantial sweet-smelling atom, a definitive instance of the group of level poly-cyclic fragrant StructureMolecular StructuresCarbon NanotubesFullerenesAllotropes of CarbonAllotropesSession 19. Emerging Smart MaterialsThe 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 the 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 its multiple uses and can be of a greater help for whole humanity.The global market for ***-formal coating on the electronics market the market is expected to grow at a CAGR of 7% from 2015 to 2020. Energy storage devicePhoto voltaic, fuel cells and solar cellsPiezoelectric materialsSemiconductors and superconductorsThin films and thick filmsSmart materials in drug delivery systemsArchitecture and cultural heritageSmart building materials and structuresStructural health monitoringSensing and actuationDesign and theory of smart surfacesMEMS and NEMS devices and applicationsElectrochromic materialsSession 20. Physics and Chemistry of MaterialsMaterial 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 chemistrySolar physicsCorrosion preventionCorrosion and degradation of materialsPhase diagramsAtomic structure and interatomic bondingMicro and macro moleculesOrganic and inorganic SubstancesAnalytical chemistryNanoscale physicsParticle physicsSolid state physicsSession 21. Polymer Science and EngineeringMaterial 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. Polymer are the raw materials which 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 fire enforced plastic market reached $17.3 billion in 2014, and further, the market is expected to grow at a five-year CAGR (2015 to2020) 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, and Characterization of Advanced polymersComposite Polymers and Polymer GelsPolymers for Biomedical ApplicationsPolymer for Textile and PackagingRheology of Advanced polymer systemsPolymers for ConstructionFibers, Films and MembranesInorganic-organic hybrid systemsAdvanced polymer applications
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5th Annual Congress on Nanoscience, Nanotechnology and Advanced Materials (AAC), San Francisco event

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