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.

The capacity to see nano-sized materials has opened a universe of potential outcomes in variety of businesses and scientific undertakings. Since nanotechnology is basically a lot of systems that permit control of properties at an exceptionally small size, it can have numerous applications, for example, nanorobotics, are a long time later on (some state just a couple of years; some state numerous years). What qualifies as "nanotechnology" today is fundamental innovative work that is occurring in research centers everywhere throughout the world.

  • Track 1-1Fabrics
  • Track 1-2Molecular Manufacturing
  • Track 1-3Reactivity of Materials
  • Track 1-4Quality of Materials

Nano Science is a technology which is co-ordinated at the Nanoscale. It is the applications and study associated with eminently small things that can be used around all the other fields of science, like chemistry, biology, physics, engineering and Materials sciences. These particles have the ability to control separate molecules and atoms. Nanotechnology has huge prospects to provide innovative answers for some issues in science, ecological and therapeutic fields.

  • Track 2-1Nanostructured Metals
  • Track 2-2Nano Magnetics
  • Track 2-3Nonlinear Optical Microscopy
  • Track 2-4Biogenic Nanoparticles

Nanoparticles are particles between 1 and 100 nanometers in size. In nanotechnology, a particle is defined as a small object that behaves as a whole unit with respect to its transport and properties. Particles are further classified according to diameter. Ultrafine particles are the same as nanoparticles and between 1 and 100 nanometers in size, fine particles are sized between 100 and 2,500 nanometers, and coarse particles cover a range between 2,500 and 10,000 nanometers.

  • Track 3-1Ceramic Polymers
  • Track 3-2Glass Ceramics
  • Track 3-3Aerogels
  • Track 3-4Core-Shell Nanoparticles
  • Track 3-5Composite Materials
  • Track 3-6Micro Spheres

Bio-synthesis of nanoparticles is the method through which we can control, through which we can control, size and state of nanoparticles and it gradually viewed as a quick, eco-friendly, and effortlessly scaled-up technology. Throughout late years analysts have shown their enthusiasm for metallic nanoparticles and their amalgamation has amazingly extended. Moreover, the disadvantages are like, the involvement of toxic chemicals and the high-energy necessities of manufacture. Alternative way to overcome the disadvantage is to synthesise living organism like bacteria, fungi and plants. Plant mediated blend of nanoparticles is the green science that associates.

  • Track 4-1Metallic Nanoparticles
  • Track 4-2Monodispersity of Nanoparticles
  • Track 4-3Biogenic Nanoparticles
  • Track 4-4Green Nanoparticle Synthesis

Nanotechnology is the study of manipulating matter on an atomic and molecular scale. Generally, nanotechnology deals with developing materials, devices, or other structures with at least one dimension sized from 1 to 100 nanometres. Nanotechnology entails the application of fields of science as diverse as surface science, organic chemistry, molecular biology, semiconductor physics, microfabrication, etc.

  • Track 5-1Medical and Healthcare Applications
  • Track 5-2Materials and Process Applications
  • Track 5-3Electronics and IT Applications
  • Track 5-4Energy Applications

Scaffold-based tissue engineering approaches have been under investigation for more than 30 years now and many different techniques have been developed in order to engineer various tissues of the body. Some of them have been translated from bench to bedside, yet many are still under intensive examination. Biodegradable scaffolds applied in tissue engineering aim to temporarily substitute for the extracellular matrix and its complex biological functions during the regeneration and/or remodeling period, and are subsequently degraded and replaced by new tissue.

  • Track 6-1Liquid-based Template Assembly
  • Track 6-2Bioartificial Organs
  • Track 6-3Artificial Bone
  • Track 6-4Tissue-Engineered Vessels
  • Track 6-5Nanofiber Self-Assembly

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. 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. Nano materials are considered as materials with no less than one outside measurement in the size extent from around 1-100 nanometers. Nanoparticles that are normally occurring  or are the inadvertent symptoms of start systems are by and large physically and artificially heterogeneous and frequently named as ultrafine particles. Fabricated nanoparticles are purposefully conveyed and arranged with specific properties related to shape, estimate, surface properties and science.These properties are revealed in mist concentrates, colloids, or powders. Normally, the action of nanomaterials may depend more on surface locale than atom plan itself. Nanotubes, Nano muds and quantum spots will be the snappiest creating species.

  • Track 7-1Organic/Inorganic Nanomaterials
  • Track 7-2Polymer Nanotechnology
  • Track 7-3Carbon Nano Structures and Devices
  • Track 7-4Nano Particles Synthesis
  • Track 7-5Semiconductors, Metals, Polymers
  • Track 7-6Biosensors, Diagnostics and Imaging
  • Track 7-7Food Technology
  • Track 7-8Nanotech Detector for Heart Attacks

In the nourishment business, nanotechnology is being utilized to make better bundling and more beneficial sustenance. For instance, analysts are taking a shot at making sustenance bundles implanted with modest materials particularly intended to ready buyers that an item is no more drawn out safe to eat.

  • Track 8-1Agriculture Nanotechnology
  • Track 8-2Nanotechnology in Food Industry
  • Track 8-3Nanotechnology in Food Microbiology
  • Track 8-4Nanotechnology and Risk Assessment
  • Track 8-5Potential for Regulatory Control

Nanofluidics is the investigation of the control, and control of liquids that are bound to structures of the nanometer. Liquids restricted in these structures show physical practices not seen in bigger structures. for example, those of micrometer measurements or more, on the grounds that the physical scaling lengths of the liquid, in all respects intently harmonize with the elements of the nanostructure itself.

  • Track 9-1Nanofluidic Circuitry
  • Track 9-2Tuneable Microlens Array
  • Track 9-3Membrane Science
  • Track 9-4Nanofluidic Devices for DNA Analysis

Quantum Dots and Magnetic Nanoparticles have bunches of uses in explanatory strategies. Quantum Dots are semiconductor nanoparticles whose electronic essentialness levels are amazingly constrained by the particle estimations. This control happens due to quantum constraint. QDs are useful as an analytical gadget on account of its extraordinary optical properties.These optical properties comprise of restricted outflow spectra, wide absorbance spectra, discharge wavelength which is flexible by adjusting the degree of the particle, high quantum adequacy and low photobleaching rates. MNPs are made of magnetite or maghemite. These materials are commonly superparamagnetic in the nanoscale extend. The attractive properties of these nanomaterials enable them to be controlled by attractive fields. the generally low poisonous quality of iron oxides take into consideration their utilization in vivo applications.

  • Track 10-1Quantum Dot Photo-detectors
  • Track 10-2Quantum Dots in Graphene

Nano gadgets are basic empowering influences that will enable humankind to harness technological abilities of electronic, mechanical, and biological systems. Nano sensors are synthetic or mechanical sensors that can be utilized to recognize the closeness of chemical species and nanoparticles, or screen physical parameters, for example, temperature, on the nanoscale.

  • Track 11-1Nano Medical Devices
  • Track 11-2Nano Wires
  • Track 11-3Magnetic Nano Particles
  • Track 11-4Optical Nano sensors
  • Track 11-5Biosensor and Bio printing
  • Track 11-6Bio Markers

Nanorobotics is the technology of creating machines or robots at or close to the microscopic scale of a nanometre.Nano robots would typically be devices ranging in size from 0.1-10 micrometresThe primary component utilized will be carbon as jewel/fullerene nanocomposites as a result of the quality and compound idleness of these structures. The other vital utilization of Nanotechnology in connection to medicinal research and diagnostics are Nano robots. Nano robots, operating in the human body, could monitor levels of different compounds and record the information in their internal memory.

  • Track 12-1Swarm Robotics
  • Track 12-2Nanorobotics in Surgery
  • Track 12-3Nanorobots in Cancer Detection
  • Track 12-4Nanorobotics in Gene Therapy

Informative science is regularly depicted as the scope of science responsible for portraying the course of action of issue, both subjectively and quantitatively. For the most part specialists routinely make abstract and quantitative estimations. Analytical researchers usually work at the phenomenal edges of examination, expanding and upgrading the limit of every logical master to make significant estimations on tinier models, on more stunning tests, on shorter time scales, and on species show at cut down core interests. There are a wide grouping of strategies used for examination, from fundamental weighing to titrations to amazingly advanced systems using significantly specific instrumentation. There are various techniques that have specific applications, and inside each major interpretive system there are various applications additionally, varieties of the general methods.

  • Track 13-1Kinetic method of Analysis
  • Track 13-2Chromatographic Techniques
  • Track 13-3Electrophoretic Methods
  • Track 13-4Titrimetric Techniques
  • Track 13-5Hyphenated Techniques
  • Track 13-6Spectroscopic Techniques

Micro-nano electromechanical system (MEMS/NEMS) should be intended to perform expected capacities in less time, usually in the millisecond to picosecond. Most mechanical properties are known to be scale sub-ordinate, hence the properties of nanoscale structures should be estimated. For bioMEMS/bioNEMS, bioMEMS/bioNEMS bond between natural atomic layer, sub-atomic layers and the substrate, and erosion and wear of organic layers, can be essential. Bionics is the utilization of natural strategies and structures found in nature to the examination and plan of designing frameworks and present day innovation. Bionics implies the substitution or upgrade of organs or other body parts by mechanical adaptations.

  • Track 14-1Bionics and Biorobotics
  • Track 14-2Biosensor Controlled Gene Therapy
  • Track 14-3Biosensors for Theranostics
  • Track 14-4Bio-MEMS for Diagnostics

Carbon nanotubes are allotropes of carbon having cylindrical nanostructure. Inferable from the material's remarkable quality and firmness, nanotubes have been built with length-to-measurement proportion of up to 132,000,000:1, altogether bigger than any other material. Furthermore, inferable from their exceptional warm conductivity, mechanical, and electrical properties, carbon nanotubes discover applications as added substances to different auxiliary materials.

  • Track 15-1Carbon Nanotubes
  • Track 15-2Types of Carbon Nanotubes
  • Track 15-3Synthesis of Carbon Nanotubes
  • Track 15-4Carbon Nanoparticles
  • Track 15-5Carbon Nanotube Chemistry
  • Track 15-6Organic Semiconductor
  • Track 15-7Timeline of Carbon Nanotubes
  • Track 15-8Boron Nitride Nanotube

The relationship of nanoparticles in a thin film shape is routinely fundamental to render these utilitarian and operational. Two fundamental built methods. One is high-temperature warm separating and second is liquid interface reaction. The use of a high-centrality ball taking care of and begin plasma sintering process for the course of action and arranging of nanocomposite powders into mass magnets are likewise included.

  • Track 16-1Size Dependence of Properties
  • Track 16-2Shape-Controlled Synthesis
  • Track 16-3Nanostructured Materials
  • Track 16-4Nanostructured Materials
  • Track 16-5Nano Particles
  • Track 16-6Materiomics

The interdisciplinary field of materials science, likewise generally named materials science and building, includes the revelation and outline of new materials, with an accentuation on solids. The scholarly sources of materials science originate from the enlightenment when analysts started to utilize logical reasoning from science, physical science, and designing to comprehend antiquated, phenomenological perceptions in metallurgy and mineralogy. In that capacity, the field was for quite some time considered by scholarly establishments as a sub-field of these related fields.

  • Track 17-1Computational Materials Science
  • Track 17-2Atomic Physics
  • Track 17-3Engineering Applications of Materials
  • Track 17-4Platform for Comprehensive Projects
  • Track 17-5Research Support
  • Track 17-6Products and Services

Nanoelectronics may assemble the capability of devices while we reduce their weight and power use. Upgrading show screens on equipment devices. This incorporates extending the thickness of memory chips, improving the nature of screens. Investigators are developing a kind of memory chip with a normal thickness of one terabyte of memory for each square inch or more prominent. Decreasing the proportion of transistors utilized as a piece of joined circuits.

  • Track 18-1Nano Transistors and Nanowires
  • Track 18-2Nanoelectronic Devices
  • Track 18-3Quantum Nano-Optics
  • Track 18-4Nano Electronics Applications

Graphene is an allotrope form of carbon which comprises a layer of carbon atoms set in a hexagonal lattice.  Graphene is the simplest structural element of several different allotropes of carbon, such as graphite, carbon nanotubes, charcoal and fullerenes. Graphene is a versatile platform for nanotheranostics and tissue engineering which can be deliberated as an indeterminately huge aromatic molecule. Graphene is the toughest material are verified which only conducts heat and electricity proficiently and are transparent. Graphene demonstrate a large and nonlinear diamagnetism, which is more than that of graphite, and can be ascended by neodymium magnets. Spintronics also plays a major part in innovative technologies that have advent quantum behaviour for computing. Graphene was the initial 2D material to be disengaged. Graphene and other two-dimensional materialshave a not insignificant rundown of extraordinary properties that have made it an interesting issue for extreme logical research and the improvement of innovative applications. These additionally have gigantic potential in their privilege or in a mix with graphene. The uncommon physical properties of Graphene and other 2D materials can possibly both upgrade existing advancements and furthermore make a scope of new applications. Indeed, even in low fixations, Graphene can significantly improve the capacity of electrical charge to stream in a material.

  • Track 19-1Carbon Nano Chips and Nanostructures
  • Track 19-2Advances in Graphene Physics
  • Track 19-3Graphene Nano in Energy and Storage
  • Track 19-4Chemistry and Biology Studies of Graphene
  • Track 19-5Graphene-based Nanocomposites
  • Track 19-6Application of Graphene
  • Track 19-7Chemistry and Biology Studies of Graphene
  • Track 19-8Graphene modification and Functionalization

DNA nanotechnology is the plan and production of synthetic nucleic acid structures for specialized employments. In this field, nucleic acids are utilized as non-organic building materials for nanotechnology instead of as the bearers of genetic data in living cells. Scientists in the field have made static structures, for example, two-and three-dimensional crystal lattices, nanotubes, polyhedral, and subjective shapes, and useful gadgets, for example, sub-atomic machines and DNA computers. The field is starting to be utilized as a device to tackle essential science issues in biophysics and structural biology, incorporating applications in X-beamcrystallography and atomic magnetic reverberation spectroscopy of proteins to decide structures. Potential applications in atomic scale hardware and Nano medication are additionally being examined.

  • Track 20-1Properties of Nucleic Acids
  • Track 20-2Dynamic DNA Nanotechnology
  • Track 20-3Structural and Sequence Designing
  • Track 20-4Structural and Sequence Designing
  • Track 20-5Design of Nano Drugs

The new drug carriers in Nano-scale offer the chance of development and increase the therapeutic index of drug molecules. This growing is proved by their effectiveness; decrease their toxicity for physiological tissues. The methods of drug delivery are of importance for medicine and healthcare. Materials and nanotechnology play an important role to make development of drug delivery.

  • Track 21-1New Therapeutics Delivery
  • Track 21-2MEM/NEM Devices for Drug Delivery
  • Track 21-3Cell-Nano Topography Interactions

Forensic science for the most part manages distinguishing proof, assessment, examination of the wrong doing, discovering associations between bits of proof and culprits. Nanotechnology has been progressively turned out to be an amazing asset in various regions including drug, imaging, and vitality sciences. Nanotechnology may can possibly make effective positive contribution in forensic drug detection to solve crimes. It was hypothesized that the nanoparticles and synthetically changed nanoparticles may adjust or improve the spectroscopic signs of forensic drugs in fingerprint samples. Nanoparticle has remarkable and brought together nanostructures that may explicitly communicate with forensic drugs by means of their well-controlled nanostructures.

  • Track 22-1Finger Print Development
  • Track 22-2Trace Evidence Analysis
  • Track 22-3DNA Sequencing
  • Track 22-4Forensic toxicology
  • Track 22-5Drug Identification

Nanomedicine is the use of innovation to do everything from drug delivery to the fixing of cells. It is the utilization of little machines to the treatment and avoidance of infection. Nanorobots are headways in Nanomedicine as prevention of disease. These machines help fix harmed cells they recreate themselves, correct genetic defects by replacing or adjusting DNA atoms. For instance fake antibodies, antiviral, Nanorobots, fake white and red Blood cells. These Nanomachines could influence the conduct of individual cells. Hormones or Dispense tranquilizes as required in individuals with insufficiency states or chronic imbalance can be tackled utilizing embedded Nanotechnology gadgets.

  • Track 23-1Drug Delivery
  • Track 23-2Biocompatibility
  • Track 23-3Nanomedicine in Theranostics
  • Track 23-4Nano Imaging
  • Track 23-5Medical Devices
  • Track 23-6Cancer Treatment
  • Track 23-7Personalized Nano medicine
  • Track 23-8Dentifrobots

Green nanotechnology alludes to the utilization of nanotechnology to improve the natural sustainability of procedures delivering negative externalities. It additionally refers to the utilization of the results of nanotechnology to upgrade maintainability. Green nanotechnology has been depicted as the improvement of clean advancements, to limit potential natural and human wellbeing dangers related with the assembling and utilization of nanotechnology items, and to energize supplanting of existing items with new nano-items that are all the more ecologically benevolent all through their lifecycle.

  • Track 24-1Toxicology and Analysis
  • Track 24-2Social and Economic Aspects
  • Track 24-3Environment Applications
  • Track 24-4Barriers to Green Chemistry Innovation

Nanotechnology is becoming progressively significant for few areas. Promising outcomes and applications are as of now being created in the territories of food delivery systems through bioactive Nano exemplification, biosensors to recognize and measure pathogens organic compounds. Numerous researchers have included themselves to know the application and the advantages of nanotechnology in various zones of food industry that incorporate bioactive Nano exemplification, eatable thin film, bundles and Nano sensors.

  • Track 25-1Monitoring in Chronic Disease
  • Track 25-2Polymer Nanoparticle for Nanosensors
  • Track 25-3Artificial Nose Sensor

The Nano-composite is a multiphase strong material where one of the stages has one, a couple of estimations of under 100 nanometres (nm), or structures having nano-scale repeat isolates between the particular stages that make up the material. The mechanical, electrical, warm, optical, electrochemical, reactant properties of the Nano composite will differentiate interestingly from that of the fragment materialsMeasure limits for these effects have been proposed, <5 nm for reactant activity, <20 nm for hard alluring material fragile, <50 nm for refractive rundown changes, and <100 nm for achieving superparamagnetic, mechanical strengthening or binding network separation improvement.

  • Track 26-1Composite Materials
  • Track 26-2Ceramic Matrix Nano composites
  • Track 26-3Metal Matrix Nano composites
  • Track 26-4Polymer Matrix Nano composites
  • Track 26-5Superparamagnetism

Nanotechnology refers to a wide scope of instruments, skill and applications that just include particles on the rough size of a few to many nanometers in width. Particles of this size have some distinct physicochemical and surface properties that lend themselves to novel employments. Without a doubt, supporters of nanotechnology recommend that this field of research could add to answers for a portion of the serious issues we face on the worldwide scale.

  • Track 27-1Nanomaterials and Water Filtration
  • Track 27-2Design of Nanodrugs
  • Track 27-3Bimetallic iron nanoparticles

Nanotechnology is the science which manages the procedures that happen at molecular level and of nanolength scale size. The real investigations in the nanotechnology incorporate nanosized particles, their capacity and conduct as for different frameworks. The gigantic limits of nanoparticles have changed the perspective and extent of nanotechnology towards progress into an adjuvant field for the rest of the fields of life sciences. Nanotechnology is the ability to comprehend and control materials at the amazingly most diminutive scales, from around 100 nm to the estimations of single atoms; At this Nanoscale the properties of these nanosized particles are differ from the customary medications.

  • Track 28-1Future Aspects of Nano Pharmaceuticals
  • Track 28-2Nanoliposome
  • Track 28-3Novel Drug Delivery Systems
  • Track 28-4Smart Drug Delivery Technology
  • Track 28-5Drug Delivery Research
  • Track 28-6Pharmacytes
  • Track 28-7Drug Targeting
  • Track 28-8Design of Nanodrugs

The learning of nanoscale insights accompanied with geological systems is Nanogeoscience. Predominantly, this is interviewed by considering environmental nanoparticles size from 1 to 100 nanometers. The Nano GeoSciences group works intimately with X-beam physical sciences in the Nano-Science Center. Nanoscience is alarmed with inspecting material properties that alter as physical measurement approach the atomic scale and quantum properties become essential. The physical and synthetic assets of the Earth and a few other terrestrial planets are subjected on the nuclear to the nanoscale structure of their constituent rocks, minerals and liquids. Nanogeoscience includes the fuse of microscopy, spectroscopy, and hypothetical demonstrating involved test and hands on work learning on the bulk matter associated with nanoscale instruments. Electron microscopy and allied spectroscopy approaches have been key techniques in this field for decades.

  • Track 29-1Nano Geoscience Transport
  • Track 29-2Nano-Bioorganic Chemistry
  • Track 29-3Biomineralization
  • Track 29-4Immobilising Nano Toxic Compounds

The eventual fate of nanotechnology has been a subject of various consistent and non-logical speculations, joining a couple of doomsday dreams in popular culture that foreseen self-reproducing nanoparticles participating in huge strikes on mankind and nature. The further developed dreams of nanotechnology incorporate on one hand the envisioned use of nanoparticles inside the body and the course framework (for definite and accommodating purposes), and after that again – potential improvement of new weapons of mass demolition enabled by nanotechnology.

  • Track 30-1Light-Seeking Synthetic Nano Robot
  • Track 30-2Super-Powered Bionic Plants
  • Track 30-3Other Potential New Ideas