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3rd International Conference on Nanostructures, Nanomaterials and Nanoengin...

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3rd International Conference on Nanostructures, Nanomaterials and Nanoengineering

About Conference
PULSUS brings in a new spin on conferences by presenting the latest scientific improvements in your field. Listen to motivating keynotes from thought leaders, or rub elbows with pioneers across the globe. Toronto is all set for an amazing event as PULSUS proudly presents the “3rd International Conference on Nanostructures, Nanomaterials and Nanoengineering slated on August 21-22, 2018 at Toronto, Canada”.

Nanomaterials Congress 2018, are specially studied because these materials play an important part in Healthcare, Electronics, Cosmetics. Nanomaterials are an increasingly important product of nanotechnologies. Nanomaterials have extremely small size which having at least one dimension 100 nm or less. They can also be nanoscale in One dimension, Two dimensions or Three dimensions. They can exist in single, fused, aggregated or agglomerated forms with spherical, tubular, and irregular shapes. Common types of nanomaterials include nanotubes, dendrimers, quantum dots and fullerenes. Nanomaterials have applications in the field of nano technology, and displays different physical & chemical characteristics from normal chemicals.
Who should attend:

Nanoengineering Students, Scientists and professors,Nanomaterials and Materialscience, Researchers, Research Faculty, Colleges of Nanotechnology Study, Nanotechnology Associations and Societies, Electron Microscopes developing companies, Business Entrepreneurs etc.

Why to attend:

Nanomaterials Congress 2018 will enlighten the public with recent advances in Nanotechnology, Nanomaterials and Nanoengineering around the world and to sharpen the related ideas about Nanotechnology Research. Moreover Nanomaterials Congress 2018 provides you a great networking with peers. World-renowned speakers, the most recent techniques, and the newest updates in Nanotechnology research fields are the trademark of this conference. Nanotechnology conferences, symposiums and Workshops provide a dedicated forum for the advancement, execution and exchange of information about Nanotechnology and Nanomaterials.

Market Analysis
Since the past decade nanotechnology has shown a dramatic development. In the nation such as USA, UK, China, Singapore, Germany etc. nanotechnology has a significant development as it is used in the field of food, cosmetics, and textiles. Where as usage of nanotechnology in the field of medical application is not up to the requirement. Actually, if you trace back to the origin of nanotechnology, you will find that Ayurveda has long been using gold and silver nano particles, called bhasmas, to treat various medical ailments. Research is going on very rapidly in the department of the bio nanotechnology, nano medicine etc. Apart from above mention countries Taiwan, South Korea, Japan Integration between university engineering departments, biologists, clinicians and research labs for the research and development of Nanomedicine is maintained at high levels. To name a few universities, NUS (National University of Singapore) in Singapore, CAS (Chinese Academy of Sciences) in China and many others in Japan, Taiwan and South Korea are doing exceedingly well within the realm of Nanomedicine. It is estimated that in the next few years conventional technology is completely replaced by the nanotechnology in the all aspects for the better way of living.

Scope and Importance

Nanotechnology is having the potentials to became a more significant revolution than the Industrial revolution and Information Technology revolution. In current state Nanotechnology Research is in basic stage and slowing moving toward the applied research of Nanotechnology. There are many Nanomaterials based products manufacturing companies have already being traded at the market place as this nanotechnology evolves we can expect even more companies to occupy the market.

TRACK CATEGORIES
The track category is the heading under which your abstract will be reviewed and later published in the conference printed matters if accepted. During the submission process, you will be asked to select one track category for your abstract.

Track 1 : Nanostructures and Nanofabrication
Interest in nanotechnology is growing rapidly. Now it is possible to arrange atoms into structures that are only a few nanometers in size. A nanometer is about four atom diameters or 1/50000 of a human hair. Your fingernails grew about a nanometer while reading this. Self-assembly of nanostructures is the special attraction of this nanomaterials concept, which produces huge amounts of artificial materials with different and new properties. A moth's eye has a very small hexagonal shaped bumps on its surface and are a few hundred nanometers tall and apart due to these patterns are smaller than the wavelength of visible light (350-800nm), the moth's eye surface has a very low reflectance for the visible light so its eye can absorb more light than the other species. This help moth to have much better vision than humans in dim or dark conditions as these nanostructures absorb light very efficiently.

Track 1-1Nano Ribbon
Track 1-2Nano Platelet
Track 1-3Nano Flake
Track 1-4Quantum Heterostructure
Track 1-5Optical Device Fabrication
Track 1-6Lithography

Track 2 : Advanced Nanomaterials
Nanotechnology is the term used for the design and making of the particles whose use is depended upon the specific structure at the nano scale. Nanomaterials are usually a kind of materials which are having at least 1 external dimension that measures ≤100 nano meters or can be with internal structures measuring ≤100 nano meters. Nanomaterials can be assessed in this light as they can show the similar properties to those of the single nano particle.

Track 2-1Nanotubes, Nanoparticles, Nanowire
Track 2-2Inorganic and Organic Nanomaterials
Track 2-3Polymeric Nanomaterials
Track 2-4Self-Assembly, Supra-Nanomolecular System and Materials
Track 2-5Fuctional Nanomaterials and Nano Composites

Track 3 : Application of Nanotechnology
Nanotechnology is related to those areas of science and engineering where phenomena that take place at dimensions in the nanometre scale which are used in the field of design, characterization, production and application of materials, structures, devices and systems. Nanotechnology can occur in almost any area of science and engineering as It is pertinent to biotechnologists, physicists, electrical engineers, mechanical engineers or materials scientists.

Track 3-1Chemical and Pharmaceutical Application
Track 3-2Biology and Medicine
Track 3-3Nanoscale Communication and Network
Track 3-4Environmental Application
Track 3-5Sensors and Actuators
Track 3-6Nano Magnetics

Track 4 : Nanomaterials Processing
Some of the Nanomaterials are found naturally as they can not be in the engineers desired structure and can't be used in the same form which it is obtained, Hence some of them are designed as per the requirement and manufactured. These can be found in sunscreens, Cosmetics, sporting goods, imaging a drug delivery etc. Engineered nanomaterials are resources designed at the molecular (nanometre) level to take advantage of their small size and novel properties which are generally not seen in their conventional, bulk counterparts.

Track 4-1Nano Powder Production
Track 4-2Nanomaterial Technology
Track 4-3Nanoparticles Manufacture
Track 4-4Analytical Methods

Track 5 : Nanomechanics
Nanomechanics is a branch of the nano sciences which deals with the mechanical properties of the materials such as Elasticity, Thermal, Kinetics which are of physical system at a nano meter scale. Nanomechanics brings science and applications together on nanoscale and nano structured materials, with emphasis on mechanics, processing, characterization, design, modeling, and applications of materials containing true nano size dimensions or nano structures that describes novel or enhanced properties or functions that are based on tailored nano structures. Nanomechanics came into existence on the crossroad of solid-state physics, statistical mechanics, materials science, and quantum chemistry. Often, nano mechanics is viewed as a branch of nanotechnology, that is an applied area with a focus on the mechanical properties of engineered nano structures and nano systems

Track 5-1Nanotribology
Track 5-2Nano Electro Mechanical Systems(NEMS)
Track 5-3Nanofluidics
Track 5-4Nanoparticles

Track 6 : Nanophotonics
Nanophotonics or Nano-optics is the study of light and its behavior in the nanoscale. It mainly deals with optics, optical engineering, electrical engineering, and nanotechnology.Nanophotonics mainly focus on the fabrication and application of nano structures that facilitate the generation, propagation, manipulation, and detection of light from the infrared to the ultraviolet regimes. The term "nano-optics", just like the term "optics", usually refers to situations involving ultraviolet, visible, and near-infrared light (free-space wavelengths from 300 to 1200 nano meters). Normal optical components, like lenses and microscopes, generally cannot normally focus light to nano meter (deep sub wavelength) scales, because of the diffraction limit (Rayleigh criterion). It is possible to squeeze light into a nano meter scale using other techniques like, for example, surface plasmons, localized surface plasmons around nanoscale metal objects. The scope of Nanophotonics extends to theory, modeling and simulation, experimentation, instrumentation, and application.

Track 6-1Optoelectronics
Track 6-2Microelectronics
Track 6-3Solarcells
Track 6-4Spectroscopy

Track 7 : Nano Satellites
Nanosatellites are the satellites refers to an artificial satellite which have the wet mass of 1 to 10 kgs. Designs and proposed designs of these types may be launched individually, or they may have multiple nanosatellites working together or in formation, in which case, sometimes the term "satellite swarm" or "fractionated spacecraft" may be applied. With the emergence of the technological advances of miniaturization and increased capital to support private spaceflight initiatives in the 2010s, several startups have been formed to pursue opportunities with developing a variety of small-payload Nanosatellite Launch Vehicle (NLV) technologies.

Track 7-1Nanosatellite Design
Track 7-2Nanosatellite Development
Track 7-3Implementation and Applications of Nanosatellite
Track 7-4Nanosatellite Launch Vehicle(NLV)
Track 7-5Elevation of Nanosatellite

Track 8 : Nano Robotics
Nanorobotics is defined as the technology of creating machines or robots to the closest scale of a nanometre (10-9 meters). Nanorobots may function at the atomic or molecular level to build devices, machines, or circuits, this process is known as molecular manufacturing. Nanorobots might also capable of producing copies of there own to replace worn-out units in the system and this process is called self-replication. Nanorobots are of special interest to researchers in the medical industry. This has given rise to the field of nanomedicine. It is estimated that a squadron of nanorobots may serve as antibodies or antiviral agents in the patients body with a strike balance of immune systems, or in diseases that do not give response to the conventional measures.

Track 8-1Nano Robotics Design & Control
Track 8-2Heart Surgery Robots
Track 8-3Industrial Robots
Track 8-4Biochips
Track 8-5Swarm Robotics

Track 9 : Nanotechnology in Power Generation
Nanoscale phenomenon is increasingly evident in conventional power generation plants. Nanotechnology-based innovation is being credited with improvements in efficiency and life-spans of existing technologies, as well as the introduction of new and disruptive power-generating components. Nanotechnologies provide essential improvements potentials for the development of the conventional energy resources(fossil fuels and nuclear fuels) and the renewable energy resources(geothermal, wind, water etc.). Nanotechnology provides the multitude of approaches to energy saving examples are the reduction of the fuel consumption in automobiles through lightweight construction materials on basis of nanocomposites, the optimization in fuel combustion through increasing the wear. Nanotechnology is finding application in traditional energy sources and is greatly enhancing alternative energy approaches to help meet the world’s increasing energy demands

Track 9-1Thermal Insulation
Track 9-2Power Transmission
Track 9-3Regenerative
Track 9-4Energy Efficient Lighting System
Track 9-5Break through in power generation

Track 10 : Nanotechnology in Energy Storage
The utilization of nanotechnology for the enhancement of the electrical energy stores like batteries and super capacitors turns out to be downright promising. Due to the high cell voltage and the outstanding energy and power density, the lithium-ion technology is regarded as the most promising variant for energy storage. Nanotechnology can improve the capacity and life period of the lithium-ion battery. The use of the nanomaterials on the electrodes of electrochemical cells may enhance the charge storage, reaction rate of the redox reactions in the fuel cells.

Track 10-1Li-ion Batteries
Track 10-2Super-Capacitors
Track 10-3Adsorptive Storage
Track 10-4Chemical Energy Storage

Track 11 : Nanocomposites
Nanocomposites are the multiphase or hybrid materials when which combined together, shows the markedly different properties from the bulk components. The general idea behind the addition of the nanoscale second phase is to create a synergy between the various constitutions such that the novel properties capable of meeting or exceeding design expectation can be achieved. It is estimated flexible and rigid packaging industry to use more than 100 million pounds of nanocomposite materials beverages and food industry.

Track 11-1Industrial Application of Nanocomposite
Track 11-2Ceramic Nanocomposites
Track 11-3Polymeric Nanocomposites
Track 11-4Production of Polymeric Nanocomposites

Track 12 : Nanogeo Science
Earth and the terrestrial planet's physical and chemical properties depend upon the atomic to nanoscale structure of their constituent rocks, fluids and minerals. Particles in the nanoscale (colloids) are abundant in all environmental sections. These nanophases consist of natural organic matter like humic substances, are biota itself like viruses, bacteria incl. pathogens, inorganic particles such as clay, oxides or carbonates are man-made originating either from nanoengineering or from wear/combustion/corrosion.

Track 12-1Nanogeo Science Transport Phenomenon at Nanoscale
Track 12-2Characterisation and Development of Nanoscale Particles
Track 12-3Nanobioorganic Chemistry
Track 12-4Biomineralization
Track 12-5Methods for Immobilising Nano Toxic Compounds

Track 13 : Nanotechnology for Cancer
Cancer is one of the most common chronic diseases in man that accounts for 14 million new cancer cases and 8 million deaths per year worldwide. In recent years, nanotechnology shows potential promise in the management of cancer. Nanoparticles attached to cancer marker targeted antibodies could detect cancer at earlier phases of cancer development, better than existing methods. Theoretical physicist Richard Feynman in 1959 has initiated the science of using nanotechnology, but due to the technical challenges, practical medical applications has taken only in the past 10 years or so that the technology has really taken off for.

Track 13-1Nano Materials for Cancer Diagnosis and Therapy
Track 13-2Nanotheranostics for Cancer
Track 13-3RNA Nanotechnology for Cancer Treatment
Track 13-4Target Based Drug Delivery
Track 13-5Nano Colloids
Track 13-6DNA Nanorobot

Track 14 : Biomedical Nano Devices
In the Biomedical applications nanodevices are mainly highlighted for organic and several types of inorganic nanoparticles. Polymer nanoparticles have been mainly used for the drug delivery and implantation. They can be made as shells for drug encapsulation, and hydrophilic and hydrophobic for the expected biocompactability. Nanoparticles encapsulating different cosmetic and pharmaceutical interest have been developed for the novel skin-care applications. The nanoparticles were found to show the identical additional physical and mechanical properties and offer new application possibility that the conventional technology can not reach. Thus this approach has became an alternative focus in the bionanotechnology research towards sustainable development.

Track 14-1Tissue Engineering
Track 14-2Cell Repair
Track 14-3Nanoimplants
Track 14-4Prosthesis

Track 15 : Approaches of Nano Electronic Devices
Nanoelectronics is generally a application of nanotechnology in the field of electronics and electronics components. As the term nanoelectronics generally means electronic component exceptional attention is given to the transistors. These transistors are very small in there size

Track 15-1Nano Frabrication
Track 15-2Nanomaterials Electronics
Track 15-3Molecular Electronics
Track 15-4Nanoionics

Track 16 : Nanolithography
Lithography is the transfer of a pattern from a master slide or plate or mask to another medium. In today's optical lithography, the process of passing light through a mask to pattern a polymer film, is crucial for the mass production of integrated circuits. Nanolithography using focused beams of either electrons, ions or photons as well as using scanning probe microscopes to chemically, physically or thermally modify surface layers of material with nanoscale precision. Nanolithography outlines the present state of the art in lithographic techniques, including optical projection in both deep and extreme ultraviolet, electron and ion beams, and imprinting. Special attention is paid to related issues, such as the resists used in lithography, the masks (or lack thereof), the metrology needed for nano-features, modeling, and the limitations caused by feature edge roughness.

Track 16-1Nanopatterning and Nanotopography
Track 16-2Micro and Nanoimprint Solutions
Track 16-3Nano-Electro-Mechanical Systems(NEMS)
Track 16-4Quantum Dots
Track 16-5Nanowires, Nanorods & Nanofibers

Track 17 : Nano Toxicity
Nanoparticles taking shape as a useful tool for a wide range variety of biomedical, consumer and instrumental applications that include drug delivery systems, biosensors and environmental sensors. Nanotoxicology is the study of the toxicity of nanomaterials to better understand and assess the health risks involved in the usage of nanoparticles. The physicochemical properties of nanoparticles, such as small size, large surface area and flexible chemical composition/structure that favor their use in nanomedicine, have also been found to contribute to their enhanced toxicological side effects

Track 17-1Nano Toxicology
Track 17-2Atoms By Inference
Track 17-3Atom Manipulation
Track 17-4Nanotweezers
Track 17-5Nanomanipulator
Track 17-6Scanning Tunnelling Microscope
Track 17-7Scanning Probe Microscopy - Atomic Force Microscope

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