Call for Abstract

29th International Conference on Nanomaterials and Nanotechnology, will be organized around the theme “Exploring Advances of Nanomaterial Sciences with trending technologies”

Nanomaterials 2019 is comprised of 19 tracks and 125 sessions designed to offer comprehensive sessions that address current issues in Nanomaterials 2019.

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.

  • Track 1-1 Energy Applications of Nanomaterials
  • Track 1-2 Nanomechanics
  • Track 1-3Catalysis by Gold Nanoparticles
  • Track 1-4 Nanobots
  • Track 1-5Photonic crystals and Plasmon waveguides
  • Track 1-6 Carbon Nanotube Emitters
  • Track 1-7Bandgap Engineered Quantum devices
  • Track 1-8Biological Applications of Nanoparticles
  • Track 1-9Molecular electronics and Nanoelectronics
  • Track 2-1Thermal properties
  • Track 2-2Magnetic properties
  • Track 2-3chemical Characterization
  • Track 2-4Physical properties of Nanomaterials
  • Track 2-5Optical properties
  • Track 3-1Bio-inert materials
  • Track 3-2Anti-encapsulation
  • Track 3-3Pro-fixation
  • Track 3-4Bio-metromics
  • Track 3-5Cell material interactions
  • Track 4-1Nano flower
  • Track 4-2Quantum heterostructure
  • Track 4-3Nano Ribbon
  • Track 4-4Nano tip
  • Track 4-5Nano platelet
  • Track 4-6Nano flake
  • Track 5-1Roll to roll processing
  • Track 5-2Nano imprint lithography
  • Track 5-3Molecule beam epitaxy
  • Track 5-4Chemical vapour deposition
  • Track 5-5Atomic layer epitaxy
  • Track 6-1Tissue engineering by Nanotechnology
  • Track 6-2Nano-Bio Interfaces
  • Track 6-3Nanostructured Materials for Artificial Organs
  • Track 6-4Smart Polymers for Biomedical Applications
  • Track 6-5Regenerative Nanomedicine
  • Track 6-6Nanotechnology for Improving Biocompatibility
  • Track 6-7Nano-Bio Interactions
  • Track 7-1Synzyme
  • Track 7-2Metilo Proteins
  • Track 7-3Cyclodextrin
  • Track 7-4Abzymes
  • Track 7-5Bio immetrics
  • Track 8-1Nanorobots
  • Track 8-2Nanochips and Nanoimplants
  • Track 8-3Cell repair
  • Track 8-4Tissue engineering
  • Track 8-5Prosthesis
  • Track 9-1Nanosurface engineering
  • Track 9-2System integration, NEMS
  • Track 9-3System integration, NEMS
  • Track 9-4Modelling and simulation of Nanomaterials & Nanodevices
  • Track 9-5Nanoscale processs engineering
  • Track 9-6Nanodevice fabrication
  • Track 9-7Nano manufacturing techniques
  • Track 10-1 Nanotechnology products for Air Quality
  • Track 10-2Nanotechnology products for Batteries
  • Track 10-3Nanotechnology products for Chemical Sensors
  • Track 10-4Nanotechnology products for Cleaning Products
  • Track 10-5Nanotechnology products for Electronics
  • Track 10-6Nanotechnology products for Fabrics
  • Track 10-7Nanotechnology products for Food
  • Track 10-8Nanotechnology products for Fuel Cells
  • Track 10-9Nanotechnology products for Medicine
  • Track 10-10Nanotechnology products for Water quality
  • Track 10-11Nanotechnology products for Sporting goods
  • Track 10-12Nanotechnology products for Solar Cells

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 11-1 Core-Shell Nanoparticles
  • Track 11-2 Composite Materials
  • Track 11-3 Micro Spheres
  • Track 11-4Mechanical Properties
  • Track 11-5 Ceramic Polymers
  • Track 11-6 Glass Ceramics
  • Track 11-7 Aerogels
  • Track 12-1Scope of Nanomedicine
  • Track 12-2Nanobiosystems
  • Track 12-3 Nanomedicine for Cardiovascular Diseases
  • Track 12-4Nanomedicine for blood disorders
  • Track 12-5 Gene Delivery Systems
  • Track 13-1Gas Condensation
  • Track 13-2 Attrition ball mill
  • Track 13-3Vaccum deposition and vapourisation
  • Track 13-4 Solgel techniques
  • Track 13-5Energy Ball mill
  • Track 14-1 Ceramics
  • Track 14-2Quantum dots
  • Track 14-3Nano Clays
  • Track 14-4Microporous Materials
  • Track 14-5Dendrimers
  • Track 14-6Nitrides
  • Track 15-1Graphene Traps
  • Track 15-2Nano Wires
  • Track 15-3 Carbon nanotubes and fullerences
  • Track 15-4Magnetic Nano Particles
  • Track 15-5Novel Drugs to Nano Drugs
  • Track 16-1Measurement of health risk
  • Track 16-2NanoToxicology
  • Track 16-3 Regulation and ethical impacts
  • Track 16-4 Risk assessment and management
  • Track 16-5Exposure scenarios
  • Track 17-1 Nanoscale communication & Networks
  • Track 17-2 Ter-hertz application
  • Track 17-3Photocatalysis
  • Track 17-4Communication
  • Track 17-5Chemical & Pharmaceutical applications
  • Track 17-6 Biology & Medicine
  • Track 17-7Computer applications
  • Track 17-8 Environmental application
  • Track 17-9Sensors & Actuators
  • Track 17-10Nanomagnetics
  • Track 17-11Commercializing Nanotechnology
  • Track 18-1 Inorganic/Organic Nanomaterials
  • Track 18-2 Nanotubes, Nanoparticles and Nanowires
  • Track 18-3 Nanomaterials for Chemical and Catalytic Applications
  • Track 18-4 Functional Nanomaterials and Nanocomposites
  • Track 18-5Porous Nanomaterials and Mesoporous Materials
  • Track 18-6Self-Assembly, Supra- and Nano-Molecular Systems and Materials
  • Track 18-7Nanocrystals, Nano Quasicrystals and Nanocrystal Superlattices
  • Track 18-8Polymer Nanotechnology
  • Track 18-9Nanomaterials Synthesis and Preparation Techniques
  • Track 18-10Nanofilm and Multilayer
  • Track 19-1 Molecular Electronics
  • Track 19-2 Nano Radios
  • Track 19-3Optoelectronic Devices
  • Track 19-4Nano Fabrications
  • Track 19-5 Nanoionics