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36th International Conference on Advanced Nanotechnology, will be organized around the theme “Exploring innovative strategies and solutions towards a Nano world”

Advanced Nano 2020 is comprised of 15 tracks and 76 sessions designed to offer comprehensive sessions that address current issues in Advanced Nano 2020.

Submit your abstract to any of the mentioned tracks. All related abstracts are accepted.

Register now for the conference by choosing an appropriate package suitable to you.

Nano particles are particles between 1 and 100 nano meters 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.

 

  • Track 1-1Nano particle Heterogeneity and Interaction
  • Track 1-2Synthesis of tellurium nanoparticles
  • Track 1-3Nano particle Volume, Mass and Concentration
  • Track 1-4Accumulating nanoparticles by EPR
  • Track 1-5Electrodeposition of Nanostructure Materials

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 2-1Nano medicine
  • Track 2-2Nano biotechnology
  • Track 2-3Green nanotechnology
  • Track 2-4Energy applications of nanotechnology
  • Track 2-5Industrial applications of nanotechnology
  • Track 2-6Potential applications of carbon nanotubes
  • Track 2-7Nano art
  • Track 2-8Nanoelectronics
  • Track 2-9Nanotechnology in warfare

Nanoscience is the study of atoms, molecules and objects whose size is on the nanometer scale. Atoms are a few tenths of a manometer in diameter and molecules are typically a few nanometres in size. Nano Science is a technology directed at the Nano scale. It is the uses and study related to very small things that can be used in all the other fields of science like biology, physics, chemistry, engineering and Materials sciences.

 

  • Track 3-1Nanoscience and Nanotechnology in Engineering
  • Track 3-2 History of nanotechnology
  • Track 3-3Chemical Nanoscience and Nanotechnology
  • Track 3-4Comprehensive Nanoscience and Nanotechnology
  • Track 3-5Advances in Natural Sciences: Nanoscience and Nanotechnology

Nanostructures are structures that range between 1 nm (molecular scale) and 100 nm in at least one dimension. Most are synthetic and can be engineered to wide range of physical properties. Nano surfaces, cylindrical nanotubes, and Nano spheres are common nanostructures.

 

  • Track 4-1Nanostructured Materials
  • Track 4-2Synthesis and Analysis of Nanostructures
  • Track 4-3Nanostructures in Nature

Nano electronics  holds few answers for how we might increase the capabilities of electronics devices when we reduce their weight and power consumption. Nano electronics and technology are widely used in all aspects of modern life. Life Safety, Healthcare, Transportation, Computing, Energy and Telecommunications are some of the major fields benefiting from the growth of Nano electronic applications.

 

  • Track 5-1Nanotechnology in Electronics
  • Track 5-2Nano-electronic devices and materials
  • Track 5-3Models for nanoelectronics devices
  • Track 5-4Nanomaterials Electronics
  • Track 5-5Future Prospect of Nano electronic Devices

Materials science and engineering, is a discipline which deals with the discovery and design of new substances. The research in material technological know-how includes in Transmission electron microscopy in cutting-edge substances technological know-how, advancements of materials technological know-how, Mining and metallurgy, power substances there are 50 universities and a marketplace to growth of 5.1% over the duration 2014-2019. The strength materials marketplace changed into predicted to be $7,292.eight million in 2014 and is projected to boom of 7.8% from 2014 to 2019. Mining and metallurgy for a market share of 68.3% in 2014 and is predicted to growth of 8.3% through 2019. 18 new research tasks can be implemented via quit of 2016.

 

  • Track 6-1Progress in Materials Science
  • Track 6-2Materials Science for Energy Technologies
  • Track 6-3Advances in Materials Science and Engineering
  • Track 6-4Materials Science and Technology

Nanomaterials describe, in principle, materials of which a single unit is sized (in at least one dimension) between 1 and 1000 nanometres (10/9 meter) but is usually 1—100 nm (the usual definition of nanoscale). Nanomaterials are slowly becoming commercialized and beginning to emerge as commodities.

 

  • Track 7-1Nanomaterials for Hydrogen Storage Applications
  • Track 7-2Behavior, fate, bio availability, and effects of Nanomaterials
  • Track 7-3Nanomaterials in the environment
  • Track 7-4Current Status and Future Scope for Nanomaterials in Drug Delivery
  • Track 7-5Novel Magnetic-Carbon Bio composites

Nano chemistry is a new discipline concerned with the unique properties associated with assemblies of atoms or molecules on a scale between that of the individual building blocks and the bulk material. Nanochemistry is the use of synthetic chemistry to make nanoscale building blocks of desired shape, size, composition and surface structure, charge and functionality with an optional target to control self-assembly of these building blocks at various scale-lengths.

 

  • Track 8-1Organic Nano chemistry
  • Track 8-2Medicinal and Bio-nano Chemistry
  • Track 8-3Division of Nano-Materials and Nano-Chemistry
  • Track 8-4A Chemical Approach to Nanomaterials

Nano photonics or Nano-optics is the study of the behavior of light on the nanometre scale. It is considered as a branch of optical engineering which deals with optics, or the interaction of light with particles or substances, at deeply sub wavelength length scales.

 

  • Track 9-1Nano photonics for Molecular Diagnostics and Therapy Applications
  • Track 9-2Shrinking light-based technology
  • Track 9-3New horizons for Nano photonics
  • Track 9-4Focus on Nano photonics
  • Track 9-5Nano photonics Principles and Applications
  • Track 9-6Emerging Nano photonics

Pharmaceutical Nanotechnology applies the methods and principles of Nano science and nano medicine to pharmacy to develop new drug delivery systems which can overcome the drawbacks of conventional drug delivery systems. It deals with the formation and development of small structures like atoms, molecules or compounds of size 0.1 to 100 nm into structures which can be further developed into special devices with desired characteristics and properties. Application of nanotechnology into pharmaceutics helps in the formulation of more advanced drug delivery systems and so it is an important and powerful tool as an alternative to conventional dosage form.

Pharmaceutical nanotechnology is a specialized field which will change the fate of the pharmaceutical industry in near future. It helps to fight against several diseases by detecting the antigen associated with diseases and also by detecting the microorganisms and viruses causing the diseases. Pharmaceutical Nanotechnology has played a very key role to overcome several drawbacks of conventional dosage forms for like tablets, capsules etc. The conventional forms suffered with drawbacks like low bioavailability, poor patient compliance and damage to healthy cells etc. which were rectified using pharmaceutical nanotechnology.

  • Track 10-1New Trends in Pharmaceutical Nanotechnology
  • Track 10-2Nanoscale Fabrication, Optimization, Scale-Up and Biological Aspects of Pharmaceutical Nanotechnology
  • Track 10-3Strategies and Techniques of Drug Therapy, Disease and Delivery through Pharmaceutical Biotechnology
  • Track 10-4Advances and challenges in pharmaceutical nanotechnology
  • Track 10-5Use of pharmaceutical nanotechnology for the treatment of leishmaniasis

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 11-1Graphene and 2D Materials based Nanocomposites
  • Track 11-2Biomedical Applications of Graphene and 2D Nanomaterials
  • Track 11-3Focus on 2D materials beyond Graphene for innovative devices
  • Track 11-4Graphene and 2D materials on track to innovative applications
  • Track 11-5Graphene and 2D Materials in Electronics
  • Track 11-62D Nanomaterials for Energy Applications

Nanotechnology is currently being utilized for tissue engineering and regenerative medicine. Nanostructures can mimic tissue-specific bio environments by designing constructs with particular biochemical, mechanical and electrical properties. Therefore, tissue can be engineered by employing these nanostructures for enhanced cell adhesion, growth and differentiation. As the range of tissues being proposed for engineering increases, there is also a proportional increase in demand for new scaffold properties.

 

  • Track 12-1Use of Nanoparticles in Tissue Engineering and Regenerative Medicine
  • Track 12-2Need, techniques and applications for tissue engineering
  • Track 12-3Nanomaterials for Tissue Engineering In Dentistry
  • Track 12-4Nanotechnology for Tissue Engineering and Regenerative Medicine
  • Track 12-5Trends in Tissue Regeneration of Bio-Nanomaterials

Materials chemistry involves the use of chemistry for the design and synthesis of materials with interesting or potentially useful physical characteristics, such as magnetic, optical, structural or catalytic properties. Functional materials are building blocks of modern society and play a critical role in the evolution of technology. Materials chemistry is unique in providing the intellectual foundation to design, create and understand new forms of matter, let it be organic, inorganic, or hybrid materials. From nanomaterials and molecular devices to polymers and extended solids, chemistry is creating a world of new materials as catalysts, sensors, molecular transporters, artificial scaffolds, molecular filters and light-emitting or electron-conducting ensembles, with the potential for broad scientific and societal impact.

 

  • Track 13-1Inorganic Nanomaterials
  • Track 13-2Nano chemistry
  • Track 13-3Chemical, physical and mechanical properties of nanomaterials and its applications
  • Track 13-4Applications of Material Chemistry

Optics and Lasers in Engineering aims to provide an international forum for the interchange of information on the development and application of optical techniques and laser technology in engineering. Emphasis is placed on contributions dealing with the practical use of methods and devices, the evaluation of results and developments and enhancement of solutions and new theoretical foundations for experimental methods.

 

  • Track 14-1Advanced Fabrication Technologies for Micro/Nano Optics
  • Track 14-2Laser trapping of nanoparticles
  • Track 14-3Micro and Nano Structuring with Lasers
  • Track 14-4The Combination of Laser Therapy and Metal Nano particles in Cancer Treatment Originated From Epithelial Tissues

Nano devices are critical enablers that will allow mankind to exploit the ultimate technological capabilities of electronic, magnetic, mechanical, and biological systems. Nano sensors are chemical or mechanical sensors that can be used to detect the presence of chemical species and nanoparticles or monitor physical parameters such as temperature, on the nanoscale.

 

 

  • Track 15-1Nanotechnology impact on sensors
  • Track 15-2Applications of Nanodevices, Nanoelectronics, and Nano sensors
  • Track 15-3Nano sensors for diagnosis with optical, electric and mechanical transducers
  • Track 15-4Nano-Enabled Sensors and Nanoparticles
  • Track 15-5Earlier Detection and Diagnosis of cancer using Nano sensors
  • Track 15-6Nano sensor Technology Applied to Living Plant Systems