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3rd World Congress on Nano Science and NanoTechnology, will be organized around the theme “A Spectrum of Opportunities Towards Advancement on Nanoscience and Nanotechnology”

Asia Pacific Nano Congress 2019 is comprised of keynote and speakers sessions on latest cutting edge research designed to offer comprehensive global discussions that address current issues in Asia Pacific Nano Congress 2019

Submit your abstract to any of the mentioned tracks.

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Nanoscience is the new wilderness of science and innovation in around the globe, working at the size of individual particles. Nanoscience Conference inviting prudent talks on innovation and research of Nanoscience in Latest Research, Innovation and Technology Top researchers and additionally policymakers overall acclaim the advantages it would convey to the whole society and economy: the majority of them demand the key part research would play in the esteem creation procedure to create exploitable arrangement of advancements by the European business prompting a decision of one of a kind applications, items, markets and productive income sources. The speed of advancement and the quick take-up of new improvements in the field of Nanosciences and Nanotechnologies are enhancing the personal satisfaction of European natives and additionally helping meet the Lisbon European Council target to end up plainly the most focused information based society by 2010.

 

  • Track 1-1Nanostructured Metals: Manufacturing and Modelling
  • Track 1-2Exposure Scenarios
  • Track 1-3Nano Magnetics
  • Track 1-4Nanospinitronics
  • Track 1-5Biogenic Nanoparticles
  • Track 1-6Nonlinear Optical Microscopy
  • Track 1-7Quantum Field Model for Graphene Magnetism
  • Track 1-8Nanofabrication
  • Track 1-9Fundamental Quantum Effects

Nano Materials and Nanoparticle examination is right now a region of serious experimental exploration, because of a wide range of potential applications in biomedical, optical, and electronic fields. 27 research colleges are taking about Nano-composites everywhere all over the world, and market estimation over Asia Pacific is $2650 million, in US $786 million are discharged per annum for Nano materials and Nano particles examination. The control of composition, size, shape, and morphology of Nano materials and Nano particles is an essential foundation for the development and application of Nano scale devices in all over the world.

 

  • Track 2-1Organic/inorganic Nanomaterials
  • Track 2-2Nanomaterials Synthesis
  • Track 2-3Polymer Nanotechnology
  • Track 2-4Porous Nanomaterials and Mesoporous Materials
  • Track 2-5Carbon Nano structures and devices
  • Track 2-6Carbon Nano structures and devices
  • Track 2-7Nano particles synthesis and applications
  • Track 2-8Characterization of Nanomaterials and Nanoparticles

One of the most interesting things about nanotechnology is that the properties of many materials change when the size scale of their dimensions approaches nanometers. Nanotechnology advances the utilization of materials and devices with extremely small dimensions. Materials science is central to nanotechnology because the properties of materials can change dramatically when things are made extremely small. Materials scientists work to understand those property changes and utilize them in the processing and manufacture of materials at the nanoscale. The field of materials science covers the discovery, characterization, properties, and end-use of nanoscale materials. Development of applications incorporating semiconductor nanoparticles to be used in the next generation of products, such as display technology, lighting, solar cells and biological imaging; see quantum dots. Recent application of nanomaterials includes a range of biomedical applications, such as tissue engineering, drug delivery, and biosensors.

 

  • Track 3-1Composite materials
  • Track 3-2Ceramics
  • Track 3-3Graphene & Fullerenes
  • Track 3-4Quasi Crystals
  • Track 3-5Thin films and Coatings
  • Track 3-6Rare-earth magnets and their applications

Molecular Nanotechnology is nanotechnology using "molecular manufacturing", an anticipated technology based on positionally-controlled mechanochemistry guided by molecular machine systems. It involves combining physical principles demonstrated by chemistry, different nanotechnologies, and the molecular machinery of life with systems engineering principles found in modern Nano scale factories. The desire in molecular nanotechnology would be to balance molecular reactions in positionally-controlled locations and orientations to received desired chemical reactions, and then to build systems by further assembling the products of these reactions.

 

  • Track 4-1Molecular assembler
  • Track 4-2Mechanosynthesis
  • Track 4-3Molecular engineering
  • Track 4-4Aerospace Transportation
  • Track 4-5Molecular machine

Graphene is an allotrope of carbon in the form of a two-dimensional, atomic-scale, hexagonal lattices in which one atom form each vertex. It is the basic structural element of other allotropes, including graphite, charcoal, carbon nanotubes and fullerenes. It can be considered as an indefinitely large aromatic molecule, the ultimate case of the family of flat polycyclic aromatic hydrocarbons.

 

  • Track 5-1Graphene: Synthesis, Properties & Phenomena
  • Track 5-2Advances in Graphene Physics
  • Track 5-3Emerging trends in the field of graphene Nano
  • Track 5-4Graphene oxide

Nanotechnology is helping to considerably develop, even revolutionize, different technology and industry sectors: information technology, Renewable energyenvironmental science, medicine, homeland security, food safety, and transportation, among others.  New researcher initiatives about 18 in electronics tasks and 22 in textile are in manner, an annual budget of $20,000 million is been funded to Nanotechnology corporations .It's far anticipated that 75 new researchers going in this discipline with an annual quantity of $16,000 million spent on Nano-optics studies in 2015-2016.

 

  • Track 6-1Nanotechnology applications in cancer therapy
  • Track 6-2Potential applications of carbon nanotubes
  • Track 6-3Nanotechnology Applications in Solar Cells
  • Track 6-4Space Nanotechnology
  • Track 6-5Nanofabrication

Nanomedicine and Nanobiotechnology is a branch of engineering that involves the development and application of materials and devices to study biological processes and to treat disease at the level of single molecules and atoms. It also involves manipulating materials at the nanoscale to achieve superior performance in the diagnosis, prevention, and treatment of disease. Research includes sub-cellular imaging and functionalized nanomaterial-drug based platforms. These technologies are specifically focused on intervening and diagnosing disease processes including: cancer, kidney-related diseases, and neurodegenerative diseases.

 

  • Track 7-1Nanomedicine in cancer therapy
  • Track 7-2Gene and Cell Therapy
  • Track 7-3Target specific drug delivery
  • Track 7-4Disease diagnosis
  • Track 7-5Lipid Nanotechnology
  • Track 7-6The structural nature of bio molecules
  • Track 7-7Trends in Biomedical nanotechnology
  • Track 7-8Drug Development

Neuroengineering focuses on the development of artificial devices and novel materials to be functionally and structurally interfaced with the central nervous system (CNS). Today, there is the expectation that materials science and nanotechnology will be able to address these challenges and lead to breakthroughs at the level of the interfaces between artificial transducers/actuators and living cells. Nanoparticles are able to penetrate the BBB of in vitro and in vivo models; and therefore can be used to develop diagnostic tools as well as nano-enabled delivery systems that can bypass the BBB in order to facilitate conventional and novel neurotherapeutic interventions such as drug therapy, gene therapy, and tissue regeneration.

 

  • Track 8-1 Up-take mechanisms of nanoparticles into brain
  • Track 8-2Advances in the treatment of Alzheimer’s disease with nanoparticle
  • Track 8-3Advances in the treatment of Parkinson’s disease with nanoparticle
  • Track 8-4Advances in the treatment of huntington disease with nanoparticle
  • Track 8-5Advances in the treatment of vascular dementia disease with nanoparticle
  • Track 8-6Advances in the treatment of lewd body dementia disease with nanoparticle
  • Track 8-7Advances in the treatment of frontotemporal disease with nanoparticle
  • Track 8-8Current and future development

Tissue engineering is the use of a grouping of cells, engineering and materials methods, and appropriate biochemical and physicochemical factors to increase or replace biological tissues. Tissue engineering includes the use of a scaffold for the creation of innovative viable tissue for a medical determination. While it was once characterized as a sub-field of biomaterials, having developed in scope and importance and it can be considered as a field in its own.

 

  • Track 9-1Applications of Nanotechnology In Stem Cell Research
  • Track 9-2Nanobiotechnology: From Stem Cell
  • Track 9-3Tissue Engineering to Cancer Research
  • Track 9-4Regulation on Advanced Therapy Medicinal Products

Nanotechnological processes, products and applications are expected to contribute significantly to environment and climate protection by saving raw materials, water and energy as well as by reducing greenhouse gases and hazardous wastes. Nanotechnology is being used in several applications to producing solar cells that generate electricity at a competitive cost, polluting groundwater, cleaning up organic chemicals, clearing volatile organic compounds from air.

 

  • Track 10-1Green nanotechnology
  • Track 10-2Nanomaterials for energy conversion
  • Track 10-3Nanotechnology for hydrogen production and storage
  • Track 10-4Life cycle assessment
  • Track 10-5Environment,human health and safety issues of nanotechnology

Nanotechnology applications are being researched currently, tested and in some cases already applied across the entire scope of food technology, from water treatment, agriculture to food processing, packaging and food supple.

 

  • Track 11-1Nanotechnology in Agriculture
  • Track 11-2Photo catalytic water treatment
  • Track 11-3Reverse osmosis
  • Track 11-4Nanostructured Membranes for water Purification
  • Track 11-5Ground water and softening application
  • Track 11-6Bioactive nanoparticles for water disinfections
  • Track 11-7Nanotechnology in Food Microbiology
  • Track 11-8Regulatory Approaches to Nanotechnology in the Food Industry

Nanoelectronics and microsystems are based on the application of nanotechnology in the field of electronics and electronic components. Nanoelectronics and nanotechnology are widely used in all application of modern life. Life Safety, Healthcare, Transportation, Energy and Telecommunications and computing are the major fields benefiting from the growth of Nano electronic applications. Latest specialist ventures around 18 in gadgets ventures and 22 in material are in procedure, a yearly spending plan of $20,000 million is been supported to Nanotechnology organizations. The applications include in Nano gadgets, Reasonable and renewable vitality, common and mechanical designing, marine and resistance.

 

  • Track 12-1Molecular electronics
  • Track 12-2Nanolithography
  • Track 12-3Nanofabrication
  • Track 12-4Nanotube transistor
  • Track 12-5Nano photonics

Nanodevices, the quickest moving segment of the general market, the Nanotek research involves in smart sensors and smart delivery systems, Magnetic Nanodevices, Nano-biosensors, Nano switches, Optical biosensors, and biologically inspired gadgets are predicted to transport at a excellent 34% CAGR. Nano-biosensors for 78.eight% the phase Nanoswitches & Optical biosensors are anticipated to develop to $fifty two.7 billion via 2019 and register a healthy 20.7% CAGR. Nanosensors will better hit upon the onset of sicknesses along with cancer or coronary heart ailment, and Nanomarkets expects the marketplace for biomedical nanosensors to attain approximately $800 million in 2019. around 18 universities and 53 new research initiatives are exhibited in Nanotechnology convention. 

 

  • Track 13-1Nanocomposite
  • Track 13-2Nano-biosensors
  • Track 13-3Magnetic nanodevices
  • Track 13-4Smart sensors and smart delivery systems
  • Track 13-5Quantum dots/Nanodots
  • Track 13-6Biologically inspired devices
  • Track 13-7Nanocrystalline material
  • Track 13-8Nanoporous materials
  • Track 13-9Nanofoam
  • Track 13-10Nanowire
  • Track 13-11Nanoswitches

Nanotechnology is all about designing, fabricating and controlling materials and components with dimensions on the nanoscale, i.e. from 1 to 100 nm. During the Master's programme in Nanomaterials and Nanophysics you will learn how nanotechnology can be used in order to develop new optic and electronic components and new materials for use in communications technology, sensor technology or catalysis.

 

  • Track 14-1Nanophysical systems
  • Track 14-2Nano-optics, nanophotonics and nanoplasmonics
  • Track 14-3Nonequilibrium Nanophysics
  • Track 14-4Graphene Nanotechnology
  • Track 14-5Nanophysics Applications

Nanorobotics is the technology that is used to create machines whose size are in nanometer. Mainly Nanorobots are of high significance in the research and development phase. The main purpose of nanorobots is to carry out a specific task redundantly and with precision at nanoscale dimensions. Nanorobots are used in medical field to destroy cancer cells and for other purposes.

 

  • Track 15-1Swarm Robotics
  • Track 15-2Nano robotics Design and Control
  • Track 15-3Human-Robot Interaction
  • Track 15-4Industrial Robot Automation
  • Track 15-5Medical Robotics

Nanotechnology is a powerful tool for combating cancer and is being put to use in other applications that may reduce pollution, energy consumption, greenhouse gas emissions, and help prevent diseases. NCI's Alliance for Nanotechnology in Cancer is working to ensure that nanotechnologies for cancer applications are developed responsibly.  As with any new technology, the safety of nanotechnology is continuously being tested. The small size, high reactivity, and unique tensile and magnetic properties of nanomaterials—the same properties that drive interest in their biomedical and industrial applications—have raised concerns about implications for the environment, health, and safety (EHS).

 

  • Track 16-1Risk Assessment and Management
  • Track 16-2Health impact of Nanotechnology
  • Track 16-3Societal Impact of Nanotechnology
  • Track 16-4Environmental Impact of Nanotechnology
  • Track 16-5Regulation of Nanotechnology