Call for Abstract

Nano World Summit: Current and Future Perspectives, will be organized around the theme “Future Era of Nanotechnology”

Nano World Summit 2018 is comprised of 10 tracks and 124 sessions designed to offer comprehensive sessions that address current issues in Nano World Summit 2018.

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.

Nanomaterials are foundations of Nanoscience and nanotechnology. Nanostructure science and innovation is an expansive and interdisciplinary territory of innovative work movement that has been becoming violently worldwide in the previous couple of years. It has the potential for altering the courses in which materials and items are made and the range and nature of functionalities that can be gotten to.

  • Track 1-1Graphene medicine
  • Track 1-2Smart Nanosystems
  • Track 1-3Nanoparticles Synthesis and Applications
  • Track 1-4Inorganic/Organic Nanomaterials
  • Track 1-5Nanostructured Coatings, Surfaces and Membranes
  • Track 1-6Nanotech Detector for Heart Attacks
  • Track 1-7Biosensors, Diagnostics and Imaging
  • Track 1-8Nanomaterials

Nanomedicine seeks to deliver a valuable set of research tools and clinically useful devices. The pharmaceutical industry is developing new commercial applications that may include advanced drug delivery systems, new therapies, and Nanomaterials for Imaging and Drug Delivery. Another active and very much related area of research is the investigation of toxicity and environmental impact of nanoscale materials, since nanomedicine must be biocompatible for clinical application.

  • Track 2-1Virus like nanoparticle for gene delivery
  • Track 2-2Nanotechnology in cancer therapy
  • Track 2-3Forensic Nanotechnology
  • Track 2-4Nano Dentistry
  • Track 2-5Biomaterials and Tissue Engineering
  • Track 2-6Drug delivery system
  • Track 2-7DNA Nanotechnology
  • Track 2-8Nanotheranostics for personalized medicine
  • Track 2-9Magneto dynamic therapy
  • Track 2-10Cell and tissue based sensors
  • Track 2-11Nanoparticle for live cell dynamics
  • Track 2-12Photodynamic therapy
  • Track 2-13Stimuli responsive Nanosystem
  • Track 2-14Biomarkers

Bionanotechnology is the term that refers to the juncture of nanotechnology and biology. This discipline aids to indicate the fusion of biological research with several fields of nanotechnology. Concepts that are improved through nanobiology are comprises with nanoscale, Nano devices, and nanoparticles phenomena that occurs within the discipline of nanotechnology.

  • Track 3-1Diagnosis
  • Track 3-2Drug delivery
  • Track 3-3Tissue engineering
  • Track 3-4Catalysis
  • Track 3-5Agriculture
  • Track 3-6Textiles
  • Track 3-7Cosmetics
  • Track 3-8Energy production
  • Track 3-9Nanotoxicology

Nanopharmaceuticals represent an emerging field where the sizes of the drug particle or a therapeutic delivery system work at the nanoscale. Nanopharmaceuticals offer the ability to detect diseases at much earlier stages and the diagnostic applications could build upon conventional procedures using nanoparticles. Nanopharmaceuticals represent an emerging field where the sizes of the drug particle or a therapeutic delivery system work at the nanoscale. In the pharmaceutical industry, a long standing issue is the difficulty of delivering the appropriate dose of a particular active agent to specific disease site. Nanopharmaceuticals have enormous potential in addressing this failure of traditional therapeutics which offers site-specific targeting of active agents. Such precision targeting via nanopharmaceuticals reduces toxic systemic side effects, resulting in better patient compliance.

  • Track 4-1Design of nondrugs
  • Track 4-2Smart drug delivery technology
  • Track 4-3Drug Targeting
  • Track 4-4Challenges and advances in Nano Pharmaceuticals
  • Track 4-5Nano Pharmaceuticals from the bench to Scale up
  • Track 4-6Future aspects of Nano Pharmaceuticals

Material science and engineering is an interdisciplinary field of science and engineering incorporating wide range of natural and man-made materials that relates the extraction, structure, synthesis, properties, characterization, performance and material processing. The engineering of materials has advancement in healthcare industries, medical device, electronics and photonics, energy industries, batteries, fuel cells, transportation, and nanotechnology. Material science and engineering aims at developing materials at the Nano, micro and macro scales and involves several subjects such as biomaterials, structural materials, chemical and electrochemical materials science, computational materials science, electrochemical materials. The advances in materials lead to new revolutions in every discipline of engineering. Material scientist and engineers can develop new materials with enhanced performance by modifying the surface properties.

  • Track 5-1Ceramics
  • Track 5-2Composite materials
  • Track 5-3Graphene and fullerenes
  • Track 5-4Quasi crystals
  • Track 5-5Thin films and coatings
  • Track 5-6Super alloy and metal foam
  • Track 5-7Conductive materials

Nanoelectronics embrace some replies for how we might raise the competences of electronics devices while we lessen their weight and power consumption. Some of the nanoelectronics areas under development, which you can explore in more detail by following the links provided in the next section, include the following topics. Improving display screens on electronics devices. This involves decreasing power consumption while decreasing the weight and thickness of the screens, increasing the density of memory chips. Researchers are developing a type of memory chip with a projected density of one terabyte of memory per square inch or greater.

  • Track 6-1Nano-photonics
  • Track 6-2Quantum Computers
  • Track 6-3Nanolithography
  • Track 6-4Nanoionics
  • Track 6-5NEMS- Nano electromechanical systems
  • Track 6-6Robotics
  • Track 6-7Silver nanoparticle
  • Track 6-8Carbon Nanotubes
  • Track 6-9Molecular-sized transistors
  • Track 6-10Magnetic quantum dots
  • Track 6-11Quantum dots
  • Track 6-12Semiconductor nanowires
  • Track 6-13Bio-nano generator

The field of micromechanics and Nanomechanics are concerned with the fine scale mechanical behaviour of materials. A micro or nanoscale point of view allows for a more refined treatment of the material constituent behaviour compared with traditional macromolecular approach. Microscale and nanoscale systems are becoming more viable for engineered application. Nanoscale components will be used in conjugation with components that are larger and respond at different timescale. In such hybrid system, the interaction of different time and length scales may play a crucial role in the performance of the complete system.

  • Track 7-1Classical molecular dynamics
  • Track 7-2Lattice mechanics
  • Track 7-3Micromechanics of elastic metamaterials
  • Track 7-4Continuum based modelling in micro and Nanomechanics
  • Track 7-5Multistage mechanics of nanoscale wires and nanocrystalline material
  • Track 7-6Modelling and simulation of carbon nanotube based composites and device
  • Track 7-7Mechanics of nanoporous material

Hard drives used as memory in computers consume additional power and have additional chance of failure than solid state memory that doesn't have any moving parts. For that reason, solid-state computer memory has become popular on smaller computers, such as tablets. This solid-state computer memory consume less space, uses less battery power,  and is less likely to be damaged if the device is dropped. Nanotechnology is being used to improve the density of solid-state computer memory.

  • Track 8-1Vertical flash transistors
  • Track 8-2NAND Flash memory
  • Track 8-3Flash Memory
  • Track 8-4Random Access Memory (ROM)
  • Track 8-5Resistive Random Access Memory (ReRAM)
  • Track 8-6Silicon dioxide nanowires
  • Track 8-7Race track memory
  • Track 8-8Nanodots to store more data

Nanotechnology may hold the key to building space flight more practical. Developments in nanomaterials make lightweight solar sails and a cable for the space elevator possible. By pointedly reducing the quantity of rocket fuel required, these advances could lower the cost of reaching orbit and traveling in space. In addition, new materials joined with nanosensors and nanorobots could progress the performance of spaceships, spacesuits, and the equipment used to explore planets and moons, making nanotechnology an essential part of the ‘final frontier.’

  • Track 9-1Nano-fuel Cell Concepts
  • Track 9-2Nanostructured Battery & Solar Cells
  • Track 9-3Space Missions
  • Track 9-4Space Shuttles & Rockets
  • Track 9-5Space Weather
  • Track 9-6Unmanned Spaceplanes

Sustainable nanotechnology is the development of science and technology within the 1 – 100 nanometre scale, with considerations to the long-term economic viability and a sensible use of natural resources, while minimizing negative effects to human health and the environment. Potential negative effects may be caused by engineered nanomaterials or by anthropogenic changes in the prevalence of naturally occurring nanomaterials. Nanotechnology offers substantial prospects for the development of innovative products and it is expected that the number of nanotechnology-based products will increase in the future.

  • Track 10-1Energy Storage & Novel Generation
  • Track 10-2Fullerenes, Carbon Nanotubes & Graphene
  • Track 10-3Nanostructured Battery Technology
  • Track 10-4Nano-fuel Cell Concepts
  • Track 10-5Nanostructured Solar Cells
  • Track 10-6Natural Nano-resources
  • Track 10-7Water Purification
  • Track 10-8Oil & Gas
  • Track 10-9Nonnuclear Materials
  • Track 10-10Green Nanotechnology
  • Track 10-11Nano-energy & Energy Harvesting
  • Track 10-12Renewable Energy Technologies