Call for Abstract
Scientific Program
International Conferences on Nanotechnology & Chemistry, will be organized around the theme “”
Nanochemistry 2020 is comprised of 15 tracks and 54 sessions designed to offer comprehensive sessions that address current issues in Nanochemistry 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.
Nanoparticle Technology assumes huge job in the sanctioning of nanotechnology in different building and modern fields involving propelled earthenware production, new batteries, electronic gadgets, designing impetuses, basic ink and paint, biotechnology, tranquilize conveyance framework, and so forth., and utilizes the particular properties of nanoparticles, which is totally independent from those that of the lion's share materials. It controls the arrangement, dealing with, application and portrayal of nanoparticles. Nanoparticle innovation investigates prospect conceivable outcomes and various developments and contains fundamental information on portrayal and the impact of nanoparticles on the environment and people. Along these lines, Nanoparticle innovation is additionally said as progressive and new innovation.
- Zero-valent iron Nanoparticle technology
- Shape stability of Nanoparticles
- Recent innovations in Nanoparticle synthesis and production
- Biosynthesis of Nanoparticles and technological concepts
- Complement activation in Nanoparticle vaccines
- Enhancing thermal conductivity of fluids with Nanoparticles
- Drug nanocrystal technology and lipid Nanoparticles
- Track 1-1Zero-valent iron Nanoparticle technology
- Track 1-2Shape stability of Nanoparticles
- Track 1-3Recent innovations in Nanoparticle synthesis and production
- Track 1-4Biosynthesis of Nanoparticles and technological concepts
- Track 1-5Complement activation in Nanoparticle vaccines
- Track 1-6Enhancing thermal conductivity of fluids with Nanoparticles
- Track 1-7Drug nanocrystal technology and lipid Nanoparticles
Sub-atomic nanotechnology (MNT) envelops a wide scope of uses in the field of science, drug, hardware and research. It has the capacity of recovering the capacity of a material to react different materials distinctively for instance Nano sensors are perhaps the greatest development of atomic nanotechnology, these sensors have the capacity in them to react the harmful and live sparing medications in an unexpected way. Savvy materials and instruments, reproducing robots, restorative Nano robots every one of these gadgets have atomic plan in them. Atomic Nanotechnology has extraordinary effect to the various divisions of work. Its significant advantage is its extra nuclear hardware and gadgets which are increasingly steady. The view of mechanosynthesis is the result of atomic nanotechnology, which is critical in the portions of gadgets.
- Development of fibre-optic glasses in Molecular Nanotechnology
- Electrochemistry in micro and Nano fluids
- Nano molecular Engineering
- In-situ growth of Nanoparticles in Molecular Nanotechnology
- Nanotechnology in chemistry
- Hybrid carbon based nanomaterials for electrochemical detection of biomolecules
- Track 2-1Development of fibre-optic glasses in Molecular Nanotechnology
- Track 2-2Electrochemistry in micro and Nano fluids
- Track 2-3Nano molecular Engineering
- Track 2-4In-situ growth of Nanoparticles in Molecular Nanotechnology
- Track 2-5Nanotechnology in chemistry
- Track 2-6Hybrid carbon based nanomaterials for electrochemical detection of biomolecules
A complex set of engineering and scientific challenges in the food and bioprocessing industry for manufacturing high quality and safe food through efficient and sustainable means can be solved through nanotechnology. Bacteria identification and food quality monitoring using biosensors; intelligent, active, and smart food packaging systems; nanoencapsulation of bioactive food compounds are few examples of emerging applications of nanotechnology for the food industry. Scientists and engineers in almost all industries are developing nanotechnology to make their products stronger, lighter, more durable, more corrosion resistant and more economical. Many nanotechnology applications are quietly added to existing products to enhance performance.
- Track 3-1Nano foods
- Track 3-2Surface Coating
- Track 3-3Textiles
- Track 3-4Cosmetics
Molecular nanotechnology has been defined as the three-dimensional positional control of molecular structure to create materials and devices to molecular precision. The human body is comprised of molecules, hence the availability of molecular nanotechnology will permit dramatic progress in human medical services. More than just an extension of "molecular medicine," Nanomedicine will employ molecular machine systems to address medical problems, and will use molecular knowledge to maintain and improve human health at the molecular scale. Nanomedicine will have extraordinary and far-reaching implications for the medical profession, for the definition of disease, for the diagnosis and treatment of medical conditions including aging, and ultimately for the improvement and extension of natural human biological structure and function."Nanomedicine is the preservation and improvement of human health using molecular tools and molecular knowledge of the human body."Nanobiotechnology is a new frontier for biology with important applications in medicine. It bridges areas in physics, chemistry, and biology and is a testament to the new areas of interdisciplinary science that are becoming dominant in the twenty-first century. This course provides perspective for students and researchers who are interested in nanoscale physical and biological systems and their applications in medicine.
- Track 4-1Cell Phycology
- Track 4-2Drug Delivery
- Track 4-3Immunological studies
Nano materials are defined as materials with at least one external dimension in the size range from approximately 1-100 nanometers. Nanoparticles are objects with all three external dimensions at the nanoscale1. Nanoparticles that are naturally occurring (e.g., volcanic ash, soot from forest fires) or are the incidental by products of combustion processes (e.g., welding, diesel engines) are usually physically and chemically heterogeneous and often termed ultrafine particles. Engineered nanoparticles are intentionally produced and designed with very specific properties related to shape, size, surface properties and chemistry. These properties are reflected in aerosols, colloids, or powders. Often, the behaviour of nanomaterials may depend more on surface area than particle composition itself. World demand for nanomaterials will rise more than two-and-a-half times to $5.5 billion in 2016. Nanotubes, nanoclays and quantum dots will be the fastest growing types. The energy storage and generation and construction markets will offer the best growth prospects. China, India and the US will lead gains among countries Nanoparticales
- Track 5-1Nanowires
- Track 5-2Magenestic Nanoparticales
- Track 5-3Nano Rodes
- Track 5-4Nano Fibres
Nanomaterials (nanocrystalline materials) are substances possessing grain sizes on the order of a billionth of a meter. They manifest extraordinarily charming and beneficial properties, which can be exploited for a ramification of structural and non-structural packages. seeing that Nanomaterials own unique, beneficial chemical, bodily, and mechanical houses, they may be used for an extensive form of programs, like next era laptop Chips, Kinetic power (KE) Penetrators with more advantageous Lethality, better Insulation materials, Phosphors for excessive-Definition tv, Low-cost Flat-Panel displays, more difficult and more difficult cutting tools, elimination of pollution, excessive strength Density Batteries, excessive-power Magnets, high-Sensitivity Sensors, motors with greater gas efficiency, Aerospace additives with superior performance characteristics, higher and destiny weapons platforms, Longer-Lasting Satellites, Longer-Lasting medical Implants, Ductile, Machinable Ceramics, huge Electro chromic show devices.Catalysis
- Track 6-1Aerospace and Vehicle Manufacturers
- Track 6-2Manufacturing and Construction
Microelectronics, photonics, and nanotechnology (MPN) constitute a research area that has the potential to address many of the grand challenges currently facing society, including improving healthcare by engineering better diagnostic tools, securing the homeland by creating better chemical and gas sensors, and reducing the cost of renewable energy sources by increasing the efficiency of solar energy conversion. Materials, devices, and integrated systems are the foundation to creating the enabling technologies that can address these important, multi-disciplinary challenges. Quantum mechanical properties of light and matter for applications including secure communications, quantum and classical computing, and sensing. Nanophotonics and nanoscience play crucial roles in building a platform for quantum technologies. Nano Fabrication
- Track 7-1Nano materials Electronics
- Track 7-2Molecular Electronics
- Track 7-3Quantum optics
- Track 7-4Fermionic condensates
Nano medicine will be based on the ability to build Nano robots. In the future these Nano robots could actually be programmed to repair specific diseased cells, functioning in a similar way to antibodies in our natural healing processes. The motivation for the new manipulation technology is the desire to enter the micro- and Nano world not only by viewing but also acting, altering micro- and nano sized objects. A new era on medicine are expected to happen in the coming years. Due to the advances in the field of Nanotechnology, Nano device manufacturing has been growing gradually. The elimination of bacterial infections in a patient within minutes, instead of using treatment with antibiotics over a period of weeks.Nanomedicne and Nanocapsules
- Track 8-1Nano-Bio Interfaces
- Track 8-2Nano diamond devices
- Track 8-3Nano Arrays for Advanced Diagnostics
DNA nanotechnology is the design and manufacture of artificial nucleic acid structures for technical uses. In this field, nucleic acids are used as non-biological engineering materials for nanotechnology rather than as the carriers of genetic information in living cells. Researchers in the field have created static structures such as two- and three-dimensional crystal lattices, nanotubes, polyhedral, and arbitrary shapes, and functional devices such as molecular machines and DNA computers. The field is beginning to be used as a tool to solve basic science problems in structural biology and biophysics, including applications in X-ray crystallography and nuclear magnetic resonance spectroscopy of proteins to determine structures. Potential applications in molecular scale electronics and Nano medicine are also being investigated Properties of nucleic acids
- Structural DNA nanotechnology
- Dynamic DNA nanotechnology
- Structural and Sequence designing
- DNA origami
- Three-dimensional arrays
- Track 9-1Structural DNA nanotechnology
- Track 9-2Dynamic DNA nanotechnology
- Track 9-3Structural and Sequence designing
- Track 9-4DNA origami
- Track 9-5Three-dimensional arrays
Nanotechnology and the chemical industry go hand in hand, as many areas of nanotechnology work because of the fundamental chemical principles (and interactions) that underlie many nanotechnology mechanisms and phenomena. The chemical industry produces a wide range of functional nanoparticles. These nanoparticles can be found in a wide range of products from paints, to everyday household formulations and additive mixtures for automobiles. That being said, the term ‘chemical industry’ is broad, and companies that fall within this category can also produce products ranging from smart electronics to food products Tracks
Nanochemistry 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 11-1Chemical sensors
- Track 11-2Neurochemistry
- Track 11-3Green Nano chemistry
- Track 11-4Nano pharmaceutical chemistry
The latest application of Nanotechnology for surgeons are in the area of advancement pf surgical implants using nanomaterial like Imaging, Drug Delivery and the advancement of tissue engineering products. The research has been done in the field of dentistry related to nanotechnology, liposomal Nanoparticles comprises collagenase and this has been tested on rats and found that as compared to the conventional surgery collagenase declining the collagen fibre which makes the teeth to shift easier with braces.
- Laser Nano Surgery
- Stepwise approaches: Nanotechnology, Nanomedicine and Nanosurgery
- Nanorobotics for Diabetes Control
- Track 12-1Laser Nano Surgery
- Track 12-2Stepwise approaches: Nanotechnology, Nanomedicine and Nanosurgery
- Track 12-3Nanorobotics for Diabetes Control
Nanophotonics or nano-optics is the study of the manners of light on the nanometer scale and of the communication of nanometer-scale substances with light. It is a division of optics, electrical engineering, optical engineering and nanotechnology. It repeatedly comprises metallic components, which can conveyance and emphasis light through surface plasmon polaritons. Nano photonics is the novel evolving hypothesis where light cooperates with nano-scaled structures and fetches onward the secretive world to research. The amalgamation of Photonics and Nanotechnology giving delivery to “Nanophotonics” salutates and welfares each other in rapports of innovative functions, materials, fabrication processes and applications. The study of light at the nanometer-scale is nanophotonics and plasmonics. Light can individually be engrossed to advert unevenly half its wavelength in size which is a few hundred nanometers for visible light. This boundary can be exceeded by pairing light to electrons at the surface of a metal and generating surface plasmons.
- Track 13-1Optoelectronics and Microelectronics
- Track 13-2Amplifiers and Isolator
- Track 13-3Electro-optic Modulators
- Track 13-4Solar Cells
Nanotechnology is a growing interdisciplinary technology that is often seen as a new industrial revolution. Nanotechnology is increasingly attracting worldwide attention owing to its wide range of end-uses. As nanotechnology is evolving, so is the scope for its commercial expansion. Bacteria identification and food quality monitoring using biosensors; intelligent, active, and smart food packaging systems. The wide range of potential products and applications gives nanotechnology its enormous growth prospects. It has been forecasted that the global nanotechnology industry will grow to reach US$ 75.8 Billion by 2020. In such a scenario, huge opportunity lies for industry participants to tap the fast growing market.
- Track 14-1Biology sensors
- Track 14-2Uniform Material
- Track 14-3Medical Systems Biology sensors
Nanotopography refers to the specific surface features which appear on the nanoscale.In industry, applications of nanotopography typically encompass electrics and artificially produced surface features. However, natural surface features are also included in this definition, such as molecular-level cell interactions and the textured organs of animals and plants. These nanotopographical features in nature serve distinctive purposes that aid in regulation and function of the biotic organism, as nanotopographical features are extremely sensitive in cells.Nanolithography is the process by which nanotopographical etchings are artificially produced on a surface. Many practical applications make use of nanolithography, including semiconductor chips in computers. There are many types of nanolithography, which include:PhotolithographyElectron beam lithography (EBL)
- Track 15-1X-ray lithography
- Track 15-2Extreme ultraviolet lithography (EUVL)