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22nd World Congress on Advances in Nanoscience and Nanotechnology, will be organized around the theme “Taking Nanotechnology to New Heights through Innovation and Collaboration”

Nanoscience 2019 is comprised of keynote and speakers sessions on latest cutting edge research designed to offer comprehensive global discussions that address current issues in Nanoscience 2019

Submit your abstract to any of the mentioned tracks.

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Nano pharmaceuticals such as liposomes, quantum dots, dendrimers, carbon nanotubes and polymeric nanoparticles have brought considerable changes in drug delivery and the medical system. Nano pharmaceuticals offer a great benefit for the patients in comparison with the conventional drugs.  There are several advantages of these drugs such as enhanced oral bioavailability, improved dose proportionality, enhanced solubility and dissolution rate, suitability for administration and reduced food effects.

  • Track 1-1Nanopharmaceuticals and nanotechnology
  • Track 1-2Nanostructures in Pharmaceuticals
  • Track 1-3Diagnosis and Treatment
  • Track 1-4Nanobiosensors and Biochips
  • Track 1-5Microfludics
  • Track 1-6Quantum Dots for Biomarkers
  • Track 1-7Nano Drug Delivery
  • Track 1-8Biopharmaceutical Nanotechnology
  • Track 1-9Nanopharmaceuticals & Its Industrial Applications
  • Track 1-10Applied Nanomaterials in Pharmaceutical Industries

Nanotechnology is a powerful tool for combating cancer and is being put to use in other applications that may reduce pollution, energy consumption, greenhouse gas emissions, and help prevent diseases. NCI's Alliance for Nanotechnology in Cancer is working to ensure that nanotechnologies for cancer applications are developed responsibly.  As with any new technology, the safety of nanotechnology is continuously being tested. The small size, high reactivity, and unique tensile and magnetic properties of nanomaterials—the same properties that drive interest in their biomedical and industrial applications—have raised concerns about implications for the environment, health, and safety (EHS).

  • Track 2-1Health implications of nanoparticles
  • Track 2-2Engineering Controls
  • Track 2-3Local exhaust ventilation (LEV)
  • Track 2-4Chemical fume hood (CFH)
  • Track 2-5Filtration
  • Track 2-6Managing the Health and Safety Concerns Associated with Engineered Nanomaterials
  • Track 2-7Potential Health Concerns

Development of Nanotechnology and creating of Nano materials opened new perspectives for a number of areas of industry. These materials explain enlarged strength, toughness, biocompatibility, and can ensure higher service properties, reliability and systems.

  • Track 3-1Nanochemistry and Nano Computational
  • Track 3-2Density functional theory (DFT)
  • Track 3-3Interaction; PDOS; TiO2 supported Au overlayer
  • Track 3-4hybrid nanostructures

Nanotechnology is a part of science and technology about the control of matter on the atomic and molecular scale - this means things that are about 100 nanometres across.

  • Track 4-1Impact and applications
  • Track 4-2Nanomaterials
  • Track 4-3Molecular self-assembly
  • Track 4-4Nanoelectronics
  • Track 4-5Nanometrology
  • Track 4-6Nanotechnology portal

Nanomedicine is the next wave of advancements in the healthcare space. The nanotechnology revolution is now enabling novel approaches to address the major problems in modern medicine, leading to the emergence of nanomedicine as a new paradigm for diagnosis and therapy, according to experts.

  • Track 5-1Nanomedicne and Nanocapsules
  • Track 5-2Nano-Bio Interfaces
  • Track 5-3Nano-Mechanisms for Molecular Systems
  • Track 5-4Nanodiamond devices
  • Track 5-5Novel Optoelectronic Devices
  • Track 5-6DNA polyhedra
  • Track 5-7Nano Arrays for Advanced Diagnostics
  • Track 5-8Cellular based Therapy
  • Track 5-9Nanotechnology future applications
  • Track 5-10Nanotechnology based Imaging Technologies
  • Track 5-11Nanomedicne and Nanoemulsions
  • Track 5-12Molecular nanotechnology

DNA nanotechnology is the design and manufacture of artificial nucleic acid structures for technological 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, polyhedra, 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 nanomedicine are also being investigated.

  • Track 6-1Properties of nucleic acids
  • Track 6-2Structural DNA nanotechnology
  • Track 6-3Dynamic DNA nanotechnology
  • Track 6-4Structural and Sequence designing
  • Track 6-5DNA origami
  • Track 6-6Three-dimensional arrays
  • Track 6-7Design of Nanodrugs

The fast development of the Nanodevices is driving the world through the roadways of improvement in different sections of science and innovation. The Nano devices &Nano frameworks have brought a colossal change of mankind with its Nano way of life gadgets. The examination includes in brilliant sensors and savvy conveyance frameworks, demonstrating and reproduction alongside the organically enlivened gadgets which are expected to move at a gigantic development of 34% CAGR and the anticipated development of the Nano switches and Optical-biosensors is up to $58.9% billion increment before the end of 2018 by enrolling a sound CAGR of 20.7%.Around the world making the world's focus the exploration territories of Nanomaterials and Nanotechnology.

  • Track 7-1 Nanorobotics and nanomanufacturing
  • Track 7-2Nano-Optics
  • Track 7-3Spintronics
  • Track 7-4Emerging device challenges in futuristic nanoelectronics
  • Track 7-5Nanodiamond devices
  • Track 7-6Microfluidics & Microfabrication
  • Track 7-7Nano MEMS

Formulation studies involve developing a preparation of the drug which is both stable and acceptable to the patient. For orally administered drugs, this usually involves incorporating the drug into a tablet or a capsule. It is important to make the distinction that a tablet contains a variety of other potentially inert substances apart from the drug itself, and studies have to be carried out to ensure that the encapsulated drug is compatible with these other substances in a way that does not cause harm, whether direct or indirect. Formulation studies also consider such factors as particle size, polymorphism, pH, and solubility, as all of these can influence bioavailability and hence the activity of a drug. The drug must be combined with inactive ingredients by a method which ensures that the quantity of drug present is consistent in each dosage unit e.g. each tablet. The dosage should have a uniform appearance, with an acceptable taste, tablet hardness, or capsule disintegration. By the time phase III clinical trials are reached, the formulation of the drug should have been developed to be close to the preparation that will ultimately be used in the market.

  • Track 8-1Thin film drug delivery
  • Track 8-2Retrometabolic drug design
  • Track 8-3Bovine submaxillary mucin coatings
  • Track 8-4Drug carrier
  • Track 8-5Drug delivery to the brain
  • Track 8-6Neural drug delivery systems
  • Track 8-7Acoustic targeted drug delivery
  • Track 8-8Self-microemulsifying drug delivery system
  • Track 8-9Magnetic drug delivery
  • Track 8-10Asymmetric membrane capsule

Cancer nanotechnology is a branch of nanotechnology concerned with the application of both nanomaterials (such as nanoparticles for tumour imaging or drug delivery) and nanotechnology approaches (such as nanoparticle-based theranostics) to the diagnosis and treatment of cancer.

  • Track 9-1Chemotherapy
  • Track 9-2Nano materials for cancer diagnosis and therapy
  • Track 9-3Nanotheranostics for Cancer
  • Track 9-4RNA Nanotechnology for Cancer treatment
  • Track 9-5Target based drug delivery
  • Track 9-6Nano colloids
  • Track 9-7Nano colloids

The field of nanotechnology is one of the most popular areas for current research and development in basically all technical disciplines. This obviously includes polymer science and technology and even in this field the investigations cover a broad range of topics. This would include microelectronics (which could now be referred to as nanoelectronics) as the critical dimension scale for modern devices is now below 100 nm. Other areas include polymer-based biomaterials, nanoparticle drug delivery, miniemulsion particles, fuel cell electrode polymer bound catalysts, layer-by-layer self-assembled polymer films, electrospun nanofibers, imprint lithography, polymer blends and nanocomposites.

  • Track 10-1Bio-hybrid nanofibres
  • Track 10-2silicon nanospheres
  • Track 10-3Nanocarbon tubes
  • Track 10-4Electroactive polymers
  • Track 10-5Copolymer
  • Track 10-6Biopolymer
  • Track 10-7Nanocomposite
  • Track 10-8Coatings and Charges

Nanotoxicology is the study of the toxicity of nanomaterials.Because of quantum size effects and large surface area to volume ratio, nanomaterials have unique properties compared with their larger counterparts that affect their toxicity. Of the possible hazards, inhalation exposure appears to present the most concern, with animal studies showing pulmonary effects such as inflammation, fibrosis, and carcinogenicity for some nanomaterials. Skin contact and ingestion exposure are also a concern.

  • Track 11-1Genotoxicity
  • Track 11-2Cytotoxicity
  • Track 11-3fullerene toxicity
  • Track 11-4Biodistribution
  • Track 11-5nano-visualisation
  • Track 11-6Xenobiotech
  • Track 11-7Nanomedicine and Toxicology

The science and innovation of Nanomaterials has made awesome energy and desires in the most recent couple of years. The following decade is liable to witness significant steps in the arrangement, characterisation and abuse of Nanoparticles, Nanowires, Nanotubes, Nanorods, Nanocrystals, Nanounits and their congregations

  • Track 12-1Liquid-based template assembly
  • Track 12-2Bioartificial organs
  • Track 12-3Artificial bone marrow
  • Track 12-4Artificial bone
  • Track 12-5bone Tissue-engineered vessels
  • Track 12-6Oral mucosa tissue engineering
  • Track 12-7Artificial pancreas
  • Track 12-8Nanofiber self-assembly
  • Track 12-9Bioartificial organs

Health and Environmental Safety of Nano materials address considerations regarding the impact of nanomaterials on the atmosphere and human health, and examine the security of specific nanomaterials. Understanding the distinctive chemical and physical properties of nanostructures has diode to several developments within the applications of nanocomposite materials. Whereas these materials have applications during a Brobdingnagian vary of areas, their potential for toxicity should be completely understood.

  • Track 13-1Nanotechnology in pollution prevention
  • Track 13-2Nanotechnology for water - Challenges and solutions
  • Track 13-3Ethical and social issues
  • Track 13-4Ethical and social issues
  • Track 13-5Regulation of nanotechnology
  • Track 13-6Risks of nanotechnology
  • Track 13-7Nanotechnology in Ozone deplition

Nanotechnology will be utilized for Detection, Diagnostics, Therapeutics and Monitoring. Themes like Nanotechnology based Imaging Technologies and Lab-on-a-Chip Point of Care Diagnostics, Advanced Nano-Bio-Sensor Technologies, Implantable Nano sensors, Nano Arrays for Advanced Diagnostics and Therapy, Invasive Therapy Technologies and Cellular based Therapy might be talked about.

  • Track 14-1nanotechnology and nanosensors
  • Track 14-2nanoparticles, nanodrugs and Nanomaterials
  • Track 14-3nanobiotechnology and nanobiopharmaceutics
  • Track 14-4Quantum nanoscience
  • Track 14-5Bionanoscience
  • Track 14-6Bionanoscience
  • Track 14-7Nanobiopharmaceutics and Nanobiotechnology
  • Track 14-8toxicity and environmental impact of nanoscale materials

Nanobiotechnology, bionanotechnology, and nanobiology are terms that refer to the intersection of nanotechnology and biology. Given that the subject is one that has only emerged very recently, bionanotechnology and nanobiotechnology serve as blanket terms for various related technologies.

  • Track 15-1Cell interactions with nano particles
  • Track 15-2Revolutionary opportunities and future scope of nanotechnology
  • Track 15-3Tissue Growing Nanostructures
  • Track 15-4Nano-Mechanisms for Molecular Systems
  • Track 15-5Functional Nanomaterials
  • Track 15-6Nanocarbon tubes
  • Track 15-7Copolymer & Biopolymer

Nano ethics is the study ethical and social implications of nanotechnologies. It is an emerging but controversial field. Nano ethics is a debatable field. As the research is increasing on Nano medicine, there are certain regulations to increase their efficacy and address the associated safety issues. Other issues in Nano ethics include areas like research ethics, environment, global equity, economics, politics, national security, education, life extension and space exploration.


  • Track 16-1Regulatory perspective on the developement of nanomedicines
  • Track 16-2Nanomedicines in the market
  • Track 16-3Regulatory development for “next-generation”of nanomedicines

Nanotechnology refers to a broad range of tools, techniques and applications that simply involve particles on the approximate size scale of a few to hundreds of nanometers in diameter. Particles of this size have some unique physicochemical and surface properties that lend themselves to novel uses. Indeed, advocates of nanotechnology suggest that this area of research could contribute to solutions for some of the major problems we face on the global scale such as ensuring a supply of safe drinking water for a growing population, as well as addressing issues in medicine, energy, and agriculture.

  • Track 17-1Wastewater Treatment
  • Track 17-2Modified photocatalysts
  • Track 17-3Modified photocatalysts
  • Track 17-4Carbon nanocompounds
  • Track 17-5metallic nanoparticles
  • Track 17-6Naturally occurring material the case of zeolites
  • Track 17-7Metals, bimetallic nanoparticles and mixed oxides
  • Track 17-8Nanomaterials and membrane filtration
  • Track 17-9Application of Nanotechnology in Water and wastewater treatment
  • Track 17-10Water Treatment
  • Track 17-11Nanotechnology and human health

Materials Science and Engineering is an acclaimed scientific discipline, expanding in recent decades to surround polymers, ceramics, glass, composite materials and biomaterials. Materials science and engineering, involves the discovery and design of new materials.  Many of the most pressing scientific problems humans currently face are due to the limitations of the materials that are available and, as a result, major breakthroughs in materials science are likely to affect the future of technology significantly.

  • Track 18-1Carbon nano structures and devices
  • Track 18-2Products and services
  • Track 18-3Teaching and technology transfer in materials science
  • Track 18-4Global materials science market
  • Track 18-5Modern materials needs
  • Track 18-6Platform for comprehensive projects
  • Track 18-7Emerging materials and applications
  • Track 18-8Tribology
  • Track 18-9Forensic engineering
  • Track 18-10Engineering apllications of materials
  • Track 18-11Computational materials science
  • Track 18-12Scientific and business achivements
  • Track 18-13Fiber, films and membranes
  • Track 18-14Biomimetic materials
  • Track 18-15Coatings, surfaces snd membranes
  • Track 18-16Graphene

Nano materials are characterized as materials with no less than one outside measurement in the size extent from around 1-100 nanometers. Nanoparticles are items with each of the three outside measurements at the Nano scale. Nanoparticles that are normally happening (e.g., volcanic powder, ash from woodland fires) or are the accidental side effects of ignition procedures (e.g., welding, diesel motors) are generally physically and synthetically heterogeneous and frequently termed ultrafine particles. Built nanoparticles are deliberately delivered and planned with particular properties identified with shape, size, surface properties and science. These properties are reflected in mist concentrates, colloids, or powders. Regularly, the conduct of nanomaterials might depend more on surface region than molecule arrangement itself. World interest for nanomaterials will rise more than more than two times to $5.5 billion in 2016. Nanotubes, Nano clays and quantum dabs will be the quickest developing sorts. The vitality stockpiling and era and development markets will offer the best development prospects. China, India and the US will lead picks up among countries.This study dissects the $2 billion world nanomaterial industry. It presents recorded interest information for the years 2001, 2006 and 2011, and gauges for 2016 and 2021 by material (e.g., metal oxides, chemicals and polymers, metals, nanotubes), market (e.g., social insurance, gadgets, vitality era and capacity, development), world area and for 15 nations.


  • Track 19-1Biosensors, Diagnostics and Imaging
  • Track 19-2Nanotech Detector for Heart Attacks
  • Track 19-3Food Technology
  • Track 19-4Nanostructured Coatings, Surfaces and Membranes
  • Track 19-5Graphene,Fullerenes, Carbon Nanotubes, Low-dimension Nanostructures
  • Track 19-6Semiconductors, Metals, Ceramics, Polymers
  • Track 19-7Inorganic/Organic Nanomaterials
  • Track 19-8Thin Films Modeling, Scale Effects, Nanostructured Thin Films
  • Track 19-9Nanoparticles Synthesis and Applications
  • Track 19-10Nanotech Detector for Heart Attacks

Carbon nanotubes (CNTs) are allotropes of carbon with a cylindrical nanostructure. These cylindrical carbon molecules have unusual properties, which are valuable for nanotechnology, electronics, optics and other fields of materials science and technology. Owing to the material's exceptional strength and stiffness, nanotubes have been constructed with length-to-diameter ratio of up to 132,000,000:1, significantly larger than for any other material. In addition, owing to their extraordinary thermal conductivity, mechanical, and electrical properties, carbon nanotubes find applications as additives to various structural materials. For instance, nanotubes form a tiny portion of the material(s) in some (primarily carbon fibre) baseball bats, golf clubs, car parts or Damascus steel.


  • Track 20-1Carbon nanotubes (CNTs)
  • Track 20-2List of software for nanostructures modeling
  • Track 20-3Timeline of carbon nanotubes
  • Track 20-4Selective chemistry of single-walled nanotubes
  • Track 20-5Organic semiconductor
  • Track 20-6Nitrogen-doped carbon nanotube
  • Track 20-7Carbon nanotube chemistry
  • Track 20-8Vertically aligned carbon nanotube arrays
  • Track 20-9Carbon nanoparticles
  • Track 20-10Synthesis of carbon nanotubes
  • Track 20-11Extreme carbon nanotubes
  • Track 20-12Types of carbon nanotubes and related structures
  • Track 20-13Boron nitride nanotube

One of the most promising applications of nanotechnology is in the field of medicine. Indeed, a whole new field of “nanomedicine” is emerging. Nano medicine has been defined as the monitoring, repair, construction and control of human biological systems at the molecular level using engineered nano devices and nanostructures. It can also be regarded as another implementation of nanotechnology in the field of medical science and diagnostics.

  • Track 21-1Food and Agriculture
  • Track 21-2Nanotechnology in Space
  • Track 21-3Nanotechnology in Construction
  • Track 21-4Nanotechnology in health and hygiene
  • Track 21-5Biopolymers
  • Track 21-6Medicine
  • Track 21-7Nanotechnology in Bio-wars
  • Track 21-8Nonpattern and Nanoparticle characterization and applications

Nanoparticles 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, nanoscale, nanometers, nanopattern, nanoparticle characterization and applications.

  • Track 22-1Surface coating for biological applications
  • Track 22-2Nanoscale and Nanometre
  • Track 22-3Medicinal applications

New nanotechnology consumer products are coming on the market at the rate of three to four per week, a finding based on the latest update to the nanotechnology consumer product inventory maintained by the Project on Emerging Nanotechnologies (PEN).One of the new items among the more than 600 products now in the inventory is Swiss dent Nanowhitening Toothpaste with “calcium peroxides, in the form of nano-particles.” Today, in testimony before the U.S. Senate Committee on Commerce, Science & Transportation, PEN Project ,cited Ace Silver Plus—another of the nine nano toothpastes in the inventory—as an example of the upsurge in nanotechnology consumer products in stores. The hearing marks the start of U.S. Senate debate on the future direction of the annual $1.5 billion federal investment in nanotechnology research and development (R&D).The number of consumer products using nanotechnology has grown from 212 to 609 since PEN launched the world’s first online inventory of manufacturer-identified nanotech goods in March 2006. Health and fitness items, which include cosmetics and sunscreens, represent 60 percent of inventory products.


  • Track 23-1Nanophase Technologies Corporation
  • Track 23-2Altair Nanotechnologies
  • Track 23-3Carbon Nanotechnologies
  • Track 23-4Nanometrics
  • Track 23-5Nanophase Technologies Corporation
  • Track 23-6Nanoscale Corporation
  • Track 23-7Nanoworld AG Oxford Instruments

Green nanotechnology refers to the use of nanotechnology to enhance the environmental sustainability of processes producing negative externalities. It also refers to the use of the products of nanotechnology to enhance sustainability. It includes making green nano-products and using nano-products in support of sustainability.Green nanotechnology has been described as the development of clean technologies, "to minimize potential environmental and human health risks associated with the manufacture and use of nanotechnology products, and to encourage replacement of existing products with new nano-products that are more environmentally friendly throughout their lifecycle.

  • Track 24-1Green Nanotechnology Challenges And Opportunities
  • Track 24-2Meeting Characterization Challenges to Support Greener Nanomaterials and Nanomanufacturing
  • Track 24-3Nanotechnology Innovation and Governance
  • Track 24-4Advancing Greener Nanomanufacturing
  • Track 24-5Additive processes and Greener Nanomaterial Production.
  • Track 24-6Moving from “Natural Enemies” to “Partners for Nature

Graphene is a one-atom-thick layer of carbon atoms arranged in a hexagonal lattice. It is the building-block of Graphite (which is used, among others things, in pencil tips), but graphene is a remarkable substance on its own - with a multitude of astonishing properties which repeatedly earn it the title wonder material.


  • Track 25-1"Fundamental Science of Graphene and 2D Materials Beyond Graphene
  • Track 25-2Graphene-related health and environment research
  • Track 25-3Application of Graphene in biomedical area
  • Track 25-4Applications of graphene in energy, including photovoltaics, energy storage, fuel cells and hydrogen storage
  • Track 25-5Applications of graphene and related 2D materials in electronics/ Flexible Electronics, photonics, spintronics, Optoelectronics and sensors
  • Track 25-6Graphene-based nanocomposites: recent scientific studies and applications
  • Track 25-7Chemistry and biology studies of graphene
  • Track 25-8Large scale graphene production and Characterization
  • Track 25-9Graphene modification and functionalization
  • Track 25-10Growth, synthesis techniques and integration methods
  • Track 25-11Growth, synthesis techniques and integration methods
  • Track 25-12Graphene: Innovation and commercialization