Sessions

Sessions

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.

  • Track 1-1 Core-Shell Nanoparticles
  • Composite Materials
  • Micro Spheres
  • Mechanical Properties
  • Ceramic Polymers
  • Glass Ceramics
  • Aerogels
  • Nano electronic devices
  • Molecular Electronics
  • Nano Radios
  • Optoelectronic Devices
  • Nano Fabrications
  • Nanoionics
  • Energy Applications of Nanomaterials
  • Transistor
  • Forensic chemistry

  • InorganicOrganic Nanomaterials
  • Nanomaterials Synthesis and Preparation Techniques
  • Polymer Nanotechnology
  • Nanocrystals, Nano Quasicrystals and Nanocrystal Superlattices
  • Self-Assembly, Supra- and Nano-Molecular Systems and Materials
  • Porous Nanomaterials and Mesoporous Materials
  • Functional Nanomaterials and Nanocomposites
  • Nanomaterials for Chemical and Catalytic Applications
  • Nanotubes, Nanoparticles and Nanowires
  • Nanofilm and Multilayer

  • Nanoscale communication Networks
  • Nanomagnetics
  • Sensors Actuators
  • Environmental application
  • Computer applications
  • Biology Medicine
  • Chemical Pharmaceutical applications
  • Communication
  • Photocatalysis
  • Ter-hertz application
  • Commercializing Nanotechnology

  • Measurement of health risk
  • NanoToxicology
  • Regulation and ethical impacts
  • Risk assessment and management
  • Exposure scenarios

  • Graphene Traps
  • Nano Wires
  • Carbon nanotubes and fullerences
  • Magnetic Nano Particles
  • Novel Drugs to Nano Drugs
  • Nano Clays

  • Ceramics
  • Quantum dots
  • Microporous Materials
  • Dendrimers
  • Nitrides

  • Gas Condensation
  • Attrition ball mill
  • Vaccum deposition and vapourisation
  • Solgel techniques
  • Energy Ball mill
  • Hydrolysis
  • Chemical Vapour Deposition CVD and Chemical Vapor Condensation CVC
  • Sol-Gel Techniques
  • Electrodeposition
  • Mechanical Attrition

  • Scope of Nanomedicine
  • Nanobiosystems
  • Nanomedicine for Cardiovascular Diseases
  • Nanomedicine for blood disorders
  • Gene Delivery Systems

  • Nanomechanics
  • Catalysis by Gold Nanoparticles
  • Nanobots
  • Photonic crystals and Plasmon waveguides
  • Carbon Nanotube Emitters
  • Bandgap Engineered Quantum devices
  • Biological Applications of Nanoparticles
  • Molecular electronics and Nanoelectronics

  • Nanotechnology products for Air Quality
  • Nanotechnology products for Sporting goods
  • Nanotechnology products for Water quality
  • Nanotechnology products for Medicine
  • Nanotechnology products for Fuel Cells
  • Nanotechnology products for Food
  • Nanotechnology products for Fabrics
  • Nanotechnology products for Cleaning Products
  • Nanotechnology products for Chemical Sensors
  • Nanotechnology products for Batteries
  • Nanotechnology products for Solar Cells

  • Nanosurface engineering
  • System integration, NEMS
  • Modelling and simulation of Nanomaterials Nanodevices
  • Nanoscale processs engineering
  • Nanodevice fabrication
  • Nano manufacturing techniques

  • Nanorobots
  • Cell repair
  • Tissue engineering
  • Prosthesis
  • Nanochips and Nanoimplants

Nanobiotechnology serve as blanket terms for various related technologies, nanobiology involve applying nanotools to relevant medical/biological problems and refining these applications.

  • Medical devices
  • Tissue engineering
  • Bio immetrics
  • Blood Purification
  • Sensing

  • Tissue engineering by Nanotechnology
  • Nano-Bio Interfaces
  • Nanostructured Materials for Artificial Organs
  • Smart Polymers for Biomedical Applications
  • Regenerative Nanomedicine
  • Nanotechnology for Improving Biocompatibility
  • Nano-Bio Interactions

  • Roll to roll processing
  • Molecule beam epitaxy
  • Chemical vapour deposition
  • Atomic layer epitaxy

  • Nano flower
  • Quantum heterostructure
  • Nano Ribbon
  • Nano tip
  • Nano platelet
  • Nano flake

polymers and nanotechnology primarily focuses on efforts to design materials at a molecular level to reach desired properties and uses at a macroscopic level. With this broad effort, research ranges from fundamental scientific investigations of the interactions, properties and assembly of such molecular constituents to applied

  • simulations of thermodynamics and dynamical processes in colloidal, polymeric, biomimetic and semiconductor materials
  • Synthesize and grow nanoparticles
  • Design of better membranes through nanocomposite technology
  • Control of polymers, materials, and processes for microelectronics and nanometer scale thin film structures
  • control of novel polymers and colloid-based materials for biomedical applications
  • Bio-inert materials
  • Anti-encapsulation
  • Pro-fixation
  • Bio-metromics
  • Cell material interactions

  • Thermal properties
  • Magnetic properties
  • chemical Characterization
  • Physical properties of Nanomaterials
  • Optical properties

Similar to nanomedicine, the development of nanodentistry will allow nearly perfect oral health by the use of nanomaterials and biotechnologies with tissue engineering and nanorobots Potential applications of tissue engineering and stem cell research in d

Graphene creates superior supercapacitors for energy storage, graphene electrodes may lead to a promising approach for making solar cells that are economical, lightweight and elastic,and multifunctional graphene mats are promising substrates for catalytic systems.

  • Solar cells
  • Lithium-ion batteries
  • Supercapacitors
  • Catalysis
  • Transforming Graphene Into A Diamond-Hard Material

Nanorobotics is an emerging technology field creating machines or robots whose components are at or near the scale of a nanometre. Nanomachines are largely in the research and development phase but some have been tested in engineering discipline of design

Nanowire is a nanostructure, with the diameter of the order of a nanometer the aforementioned can also be defined by way of the ratio of the length to width being greater than 1000. On the other hand, nanowires tin be defined as structures that have a thi

  • Diode
  • Device Materials

Nanochemistry is the grouping of chemistry and nanoscience. Nanochemistry can make the most effective contrast agent of MRI out of iron oxide (rust) which has the ability of identifying cancers and even killing them at their initial stages. Silica (glass) can be used to bend or conclusion light in its tracks.

  • Organic chemistry
  • Chemical Sensors
  • Polymer chemistry
  • Inorganic chemistry

Ceramic matrix composites are a subcategory of composite materials as well as a subgroup of ceramics. They consist of ceramic fibres embedded in a ceramic matrix. The matrix and fibres can consist of every ceramic material.

  • Gas turbine components
  • applications in space
  • CMC in burner and hot gas ducts
  • Application in brake disk

Nanotoxicology is a peer-reviewed, scientific journal that efforts on environmental exposure, danger, and risk of applied nanostructured materials. It publishes research that addresses the potentially toxic interactions among nanostructured materials and living matter.

  • Drug development
  • reproductive toxicology
  • Emerging in-vitro models for the toxicity studies

Spontaneous association of many individual units of material into well organized, well well-defined structures without external instruction.

  • High reproducibility
  • chemical and physical forces to combine materials not petroleum
  • Materials for creation