Impact Nanotech 2019 is hosted by IMPACT Conferences. and it is focused on the Innovatory approach for innovation and invention in Nanotechnology. Nanotechnology 2019 aims in proclaim knowledge and share new ideas amongst the professionals, industrialists and students from research areas of Nanotechnology, Materials Science, Chemistry and Physics to share their research experiences and indulge in interactive discussions and technical sessions at the event. The conference will be a platform to globalize one research, to share scientific experiences, to gain knowledge of new technologies and regulations. The conference is scheduled for 16-18, Dec 2019 in Dubai, UAE. We invite sponsors and exhibitor to showcase your products to our participants and make it reach the public through them. We request you to make use of this opportunity to make the world a better place to live in.
WHAT IS NEW?
Impact Nanotech 2019 includes international attendee workshops, lectures and symposia, including a designated registration area, a refreshment break and gala lunch. Nanotechnology and Material Science Researchers can join the IMPACT Conferences as an international member to receive discounts on registration. So come and join leading experts and allied professionals from 16-18 Dec 2019 Dubai, UAE to keep up with the rapidly accelerating pace of change that is already having an impact on the field of nanotechnology and material science.
WHY TO ATTEND?
Impact Nanotech 2019 provides a striking opportunity of being connected and gaining contacts with delegates who are active in the concerned field. Networking enables sharpening skills, spark inspiration and uncover new ideas during break-out sessions providing tea and lunch for the delegates. The important subjects are addressed by the expertise keynote speakers with global recognition thus conferring knowledge on the new technologies and the latest drift in the domain. The international Nanotechnology conference accents the prominent keynote speakers, plenary speeches, young research forum, poster presentations, technical workshops and career guidance sessions.
Junior/Senior research fellows of Materials Science/ Nanotechnology/ Polymer Science
Members of different Materials science associations
Members of different nanotechnology associations
MOSCOW Engineering Physical Institute
Pingtung University of Sci. & Tech
Nottingham, United Kingdom
Women’s College of Home Science
Nano Science is a technology which is co-ordinated at the Nanoscale. It is the applications and study associated with eminently small things that can be used around all the other fields of science, like chemistry, biology, physics, engineering and Materials sciences.
These particles have the tendency to control separate atoms and molecules. Nanotechnology has huge prospects to provide technological solutions to many problems in science, energy, physics, environmental and medical fields.
· Nanostructured Metals: Manufacturing and Modelling
· Exposure Scenarios
· Biogenic Nanoparticles
· Nonlinear Optical Microscopy
· Quantum Field Model for Graphene Magnetism
The association of nanoparticles in a thin film shape is routinely essential to render these utilitarian and operational. Two basic engineered techniques. One is high-temperature warm breaking down and second is liquid interface reaction, sensible for arranging motion pictures of various metal and metal oxide nanoparticles.Besides, the utilization of a high-essentialness ball handling and begin plasma sintering process for the game plan and planning of nanocompositepowders into mass magnets are also featured.
· Size Dependence of Properties
· Shape-Controlled Synthesis
· Characterization and Optical Properties of Silver Nanostructures
· Microscopy and Spectroscopic Methods of Measurement at the Nanoscale
· Nano Particles
· Nanomaterials Manufacturing Technologies
· Applications of Nano materials and Devices
The interdisciplinary field of materials science, likewise generally named materials science and building, includes the revelation and outline of new materials, with an accentuation on solids. The scholarly sources of materials science originate from the Enlightenment when analysts started to utilize logical reasoning from science, physical science, and designing to comprehend antiquated, phenomenological perceptions in metallurgy and mineralogy.
Materials science still consolidates components of material science, science, and designing. In that capacity, the field was for quite some time considered by scholarly establishments as a sub-field of these related fields. Starting in the 11040s, materials science started to be all the more generally perceived as a particular and unmistakable field of science and building, and significantly specialized colleges around the globe made committed schools of the examination. Materials science is a syncretic control hybridizing metallurgy, earthenware production, strong state physical science, and science. It is the primary case of another scholarly order rising by combination as opposed to splitting.
· Computational Materials Science
· Engineering applications of materials
· Forensic engineering
· Emerging materials and applications
· Platform for comprehensive projects
· Research support
· Global materials science market
· Teaching and technology transfer in materials science
· Products and Services
Nanomaterials 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 nanoscale. 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. Manufactured nanoparticles are deliberately delivered and planned with specific properties identified with shape, size, surface properties and science.
These properties are reflected in fog concentrates, colloids, or powders. Regularly, the lead of nanomaterials might depend more on the surface region than molecule arrangement itself. World interest for nanomaterials will rise more than more than two times to $5.5 billion of every 2016. Nanotubes, nanoclays and quantum spots will be the quickest developing sorts. The imperativeness stockpiling and era and development markets will offer the best development prospects. China, India and the US will lead grabs among countries. This examination 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, essentialness era and limit, development), world area and for 15 countries.
· Recent Studies of Spin Dynamics in Ferromagnetic Nanoparticles
· Novel Magnetic-Carbon Biocomposites
· Industrially Relevant Nanoparticles
· Novel Dielectric Nanoparticles (DNP) Doped Nano-Engineered Glass Based Optical Fiber for Fiber Laser
· ZnO Nanostructures for Optoelectronic Applications
· Thin Film and Nanostructured Multiferroic Materials
· Emerging Multifunctional Nanomaterials for Solar Energy Extraction
The Nanocomposite is a multiphase solid material where one of the stages has one, a few measurements of under 100 nanometers (nm), or structures having nano-scale rehash separates between the distinctive stages that make up the material. In the broadest sense, this definition can incorporate permeable media, colloids, gels and copolymers, yet is all the more typically interpreted as meaning the solid blend of a mass lattice and nano-dimensional stages contrasting in properties because of dissimilarities in structure and science. The mechanical, electrical, warm, optical, electrochemical, reactant properties of the Nanocomposite will contrast uniquely from that of the segment materials. Measure limits for these impacts have been proposed, <5 nm for reactant action, <20 nm for making a hard attractive material delicate, <50 nm for refractive list changes, and <100 nm for accomplishing superparamagnetic, mechanical reinforcing or confining network separation development.
· Ceramic Matrix Nanocomposites
· Metal Matrix Nanocomposites
· Polymer Matrix Nanocomposites
Nanomedicine is the application of technology to do everything from drug delivery to repairing of cells. It is the application of tiny machines to the treatment and prevention of disease. Nanorobots are advancements in Nanomedicine as miniature surgeons. These machines help repair damaged cells they replicate themselves, correct genetic deficiencies by replacing or altering DNA molecules.
For example artificial antibodies, antiviral, Nanorobots, artificial white and red Blood cells. These Nanomachines could affect the behaviour of individual cells. Hormones or Dispense drugs as needed in people with deficiency states or chronic imbalance can be solved using implanted Nanotechnology devices.
· Drug Delivery
· Nanomedicine in Theranostics
· Nano Imaging
· Medical Devices
· Blood Purification
· Cancer Treatment
· Personalized Nano medicine
· Regenerative Medicine
Nanotechnology refers to a wide range of tools, expertise 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 distinct physicochemical and surface properties that lend themselves to novel uses. Indeed, advocates of nanotechnology suggest that this field 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 an emerging population, as well as addressing issues in medicine, energy, and agriculture.
· Nanomaterials and water filtration
· Nanotechnologies for water remediation
· Bioactive nanoparticles for water disinfection
· Self-assembled monolayer on mesoporous supports (SAMMS)
· Nanoscale semiconductor photocatalysts
· Bimetallic iron nanoparticles
Nanotechnology is the science which manages the procedures that happen at a molecular level and of nano-length scale size. The real investigations in the nanotechnology incorporate nanosized particles, their capacity and conduct as for different frameworks. The enormous capacities of nanoparticles have changed the viewpoint and extent of nanotechnology towards improvement into an adjuvant field for the rest of the fields of life sciences.Nanotechnology is the capacity to understand and control materials at the extremely littlest scales, from around 100 nm to the measurements of single molecules; At this Nanoscale, the properties of these nanosized particles differ from the customary medications
· NanoPharmaceuticals from the bench to Scale up
· Challenges and advances in NanoPharmaceuticals
· Nano Pharmaceutical Industry and Market
· Novel Drug Delivery Systems
· Smart Drug Delivery Technology
· Drug Delivery Research
· Drug Targeting
· Synthesis of Nanoparticles for Drug Delivery
· Design of Nanodrugs
· Future aspects of NanoPharmaceuticals
Various geophysical and social weights are changing a move from fossil energies to renewable and manageable vivacity sources. To impact this progression, we should make the materials that will bolster developing vivacity advancements.
· Novel nanomaterials and devices
· Environment, human health, and safety issues of nanotechnology
· Nanotechnology for water treatment, decontamination, indoor air purification, air pollution
· Nanotechnology for hydrogen production and storage
· Nanotechnology for electrochemical conversion and energy storage
· Energy and environment relevant nanotechnology
· Nanomaterials for environmental protection or improvement
· Nanostructures for phase-change materials
· Nanomaterials for solar cells, fuel cells, batteries, and so forth
· Nanomaterials for energy conversion
· Nanomaterials for building and construction
· Recent trends in Nanotechnology
Carbon nanotube (CNT) is the allotropes of carbon with a cylindrical nanostructure. These cylindrical carbon molecules have unfamiliar properties, which are valuable for nanotechnology, electronics, optics and other fields of materials science and technology. Owing to the material's exceptional strength and rigidness, 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 remarkable thermal conductivity, mechanical, and electrical properties, carbon nanotubes find applications as additives to various structural materials. For instance, nanotubes form a nanoscopic portion of the material(s) in some (primarily carbon fibre) baseball bats, golf clubs, car parts or Damascus steel.
· Types of carbon nanotubes and related structures
· Carbon nanotechnology to Bionanotechnology
· C60 and carbon nanotube sensors
· The biological activity of pristine fullerene C60
· Functionalization and applications of carbon nanotubes
· Functionalization and applications of  fullerene
· Fabrication of fullerene nanostructures
· Solid-state formation of carbon nanotubes
· Synthesis, growth mechanism and the processing of carbon nanotubes
· Carbon nanotube chemistry
· Properties of carbon nanotubes
· Separation of metallic and semiconducting single-walled carbon nanotubes
Nanoelectronics may build the potential of gadgets while we lessen their weight and power utilization. Enhancing show screens on hardware gadgets. This includes enlarging the thickness of memory chips, improving the quality of screens. Analysts are building up a sort of memory chip with an expected thickness of one terabyte of memory for every square inch or more prominent. Reducing the measure of transistors utilized as a part of incorporated circuits.
One specialist trusts it might be possible to "put the intensity of the greater part of the present PCs in the palm of your hand". Nanophotonics is the examination of the direction of light on the nanometer scale, and of the relationship of nanometer-scale objects with light.
· Nano transistors and nanowires
· Nanoelectronic devices
· Photonic & plasmonic nanomaterials
· Quantum nano-optics
· Memory chip that uses carbon nanotubes
· Nano electronics applications
This review will discuss polymer matrix based Nanocomposites with exfoliated clay being one of the key modifications. While the reinforcement aspects of nanocomposites are the primary area of interest, a number of other properties and potential applications are important including barrier properties, flammability resistance, electrical/electronic properties, membrane properties, polymerblend compatibilization. An important consideration in this review involves the comparison of the properties of nanoscale dimensions relative to larger scale dimensions.
· Bio-hybrid nanofibres
· Bio-hybrid polymer nanotubes
· Silicon nanospheres
· Electroactive polymers
Nanochemistry is another subject worried about the phenomenal properties related with social affairs of particles or molecules on a scale between that of the individual building squares and the mass material.
· Nanochemistry in Chemical sensors
· Green Nanochemistry
· Nano pharmaceutical chemistry
The term Nanobiotechnology implies the mix of nanotechnology and science. Future degree of nanobiotechnology is getting its most extraordinary noteworthiness in nano life sciences. Applications in pharmaceuticals and atomic diagnostics incorporate medication conveyance, tranquillize planning, sedate improvement and assembling. Nanoparticles assume a critical job in the transport of natural meds, which join quality treatment, RNA impedance, cell treatment, vaccinations, and antisense therapeutics. The most promising usage of nanobiotechnology is for the change of overhauled drugs. The blend of diagnostics with therapeutics, refinement of nuclear diagnostics, and concentrated on steady movement expect basic parts in this application. At long last, the security issues of nanoparticles are discussed including measures to address these. The potential outcomes of nanobiotechnology are astounding.
· Bioluminescent magnetic nanoparticles
· Surface modified polystyrene nanoparticles
· Target specific drug delivery
· Disease diagnosis
· Nano ink
Graphene was the initial 2D material to be disengaged. Graphene and other two-dimensional materials have a not insignificant rundown of extraordinary properties that have made it an interesting issue for extreme logical research and the improvement of innovative applications. These additionally have gigantic potential in their own privilege or in a mix with Graphene. The uncommon physical properties of Graphene and other 2D materials can possibly both upgrade existing advancements and furthermore make a scope of new applications. Unadulterated Graphene has an incredibly extensive variety of mechanical, warm and electrical properties. Graphene can likewise significantly enhance the warm conductivity of a material enhancing heat dispersal. In applications which require high electrical conductivity Graphene can either be utilized independently from anyone else or as an added substance to different materials. Indeed, even in low fixations, Graphene can significantly improve the capacity of electrical charge to stream in a material. Graphene's capacity to store electrical vitality at high densities is excellent. This property added to its capacity to quickly charge and release makes it reasonable for vitality stockpiling applications.
· Benefits of 2D Materials
· 2D materials beyond Graphene
· 2D Topological Materials
· Chemical functionalization of Graphene
Nanostructured materials may be portrayed as those materials whose essential segments—clusters, crystallites or particles have estimations in the 1 to 100 nm go. The impact in both insightful and present-day excitement for these materials over the earlier decade rises up out of the superb assortments in key electrical, optical and appealing properties that occur as one development from an 'immensely extended' solid to an atom of material involving a countable number of particles. This review unobtrusive components late development in the mix and examination of down to earth nanostructured materials, focusing on the novel size-subordinate physical science and science that results when electrons are restricted to Nanoscale semiconductor and metal packs and colloids. Carbon-based nanomaterials and nanostructures including fullerenes and nanotubes expect an unquestionably certain part in Nanoscale science and advancement and are along these lines delineated in some significance. Current Nanodevice makes techniques and the future prospects for nanostructured materials and Nanodevices.
· Nanostructures for thin films and coatings
· Nanostructure applications in the petroleum industry
· Nanostructured Metals
· Toxicity of nanostructures
· Synthesis of nanowires and nanorods
Nanoengineering is the practice of engineering on the nanoscale. It derives its name from the nanometer, a unit of measurement equalling one billionth of a meter. Nanoengineering is largely a synonym for nanotechnology but emphasizes the engineering rather than the pure science aspects of the field.
· Branches of nanotechnology
· Risks of nanotechnology
· Applications of nanotechnology
· Notable organizations in nanotechnology
The learning of nanoscale insights accompanied with geological systems is Nanogeoscience. Predominantly, this is interviewed by considering environmental nanoparticles size from 1 to 100 nanometers. The NanoGeoSciences team works closely with X-ray physical sciences in the Nano-Science Center. Nanoscience is alarmed with inspecting material properties that alter as physical measurement approach the atomic scale and quantum properties become essential. The physical and chemical possessions of the Earth and several other terrestrial planets are subjected on the atomic to a nanoscale structure of their constituent rocks, minerals and fluids. Nanogeoscience encompasses the incorporation of microscopy, spectroscopy, and theoretical modelling comprised of experimental and fieldwork learning on the bulk manner connected with nanoscale mechanisms. Electron microscopy and allied spectroscopy approaches have been key techniques in this field for decades.
· Nanogeoscience transport phenomenon at Nanoscale
· Characterisation and development of Nanoscale Particles
· Nano bioorganic chemistry
· Bio mineralization
· Methods for immobilising Nano toxic compounds
The recently pushed component accentuations on the utilization of computational liquid elements in numerous agri-nourishment taking care of uses. The unit utilizes inventive registering strategies and starts industry and other outer upheld look into tasks in this field. Displaying is an ordering apparatus for upgrading and enhancing process controller over various unit strategies by acquiring an inside and out liberal of the modern transport events in nourishment framework. This includes procedures for nanoencapsulation, nanoemulsions, nano packaging, nano conveyance frameworks and other imaginative applications. Furthermore, considering the imminent of nanotechnology, the unit additionally stands thinks about on nano-level sustenance handling. Innovative work on a few qualities of nanostructured nourishments, nano sustenance added substances, nanocarrier frameworks, nanocoatings, and improvement of nanosensors are a work in progress. The basic improvements in multi-scale PC entertainment methods for computational displaying are computational materials science have been made in the most recent decade as inventors and specialists endeavour to inject continuum-based models with increasingly reasonable specifics at quantum and atomistic scales.
· Computational Modelling of Photonic Nanomaterials and devices
· Computational Modelling of the Catalytic Cycle of Glutathione Peroxidase Nanomimic
· Computational modelling of the collective stochastic motion of Kinesin Nanomotors
· Computational modelling and optimisation Nanostructures
· Molecular Modelling and simulation of Nanoscale systems
· Foundation of Nanoscale Physics and Modelling
Nanotechnology applications are being researched currently, tested and in some cases already applied across the entire scope of food technology, from agriculture to food processing, packaging and food supply.
· Nanotechnology in Agriculture
· Nanotechnology in the Food Industry
· Nanotechnology in Food Microbiology
· Nanotechnology for Controlled Release
· Nanotechnology Research - Agriculture and Food Industry
· Nanotechnology and Risk Assessment
· Regulatory Approaches to Nanotechnology in the Food Industry
Green nanotechnology alludes to the utilization of nanotechnology to improve the ecological supportability of procedures creating negative externalities. It additionally alludes to the utilization of the results of nanotechnology to improve maintainability. It incorporates making green nano-items and utilizing nano-items in the help of supportability. Green nanotechnology has been depicted as the advancement of clean innovations, "to limit potential ecological and human wellbeing dangers related with the fabricating and utilization of nanotechnology items and to empower supplanting of existing items with new nano items that are all the more naturally cordial all through their lifecycle.
· Water filtration by Nanotechnology
· Graphene Nanotechnology in Solar cells
· Greener Techniques to make Nanomaterials
· Toxicology and analysis
· Social and economic aspects
· Environment Applications
· Green Nanotechnology Challenges And Opportunities
· Barriers to Green Chemistry Innovation
Nanofluidics is the study of the manipulation, and control of fluids that are confined to structures of the nanometer (typically 1–100 nm) characteristic dimensions (1 nm = 10?9 m). Fluids confined in these structures exhibit physical behaviours not observed in larger structures, such as those of micrometre dimensions and above, because the characteristic physical scaling lengths of the fluid, (e.g. Debye length, hydrodynamic radius) very closely coincide with the dimensions of the nanostructure itself.
· Nanofluidic circuitry
· Nanofluidic structures
· Tuneable Microlens Array
· Membrane Science
· Microfluidic cell sorting and Analysis
· Nanofluidic Devices for DNA Analysis
Quantum Dots and Magnetic Nanoparticles have bunches of uses in explanatory strategies. Quantum Dots are semiconductor nanoparticles whose electronic vitality levels are impressively controlled by the molecule measurements. This control occurs because of quantum repression. QDs are helpful as an investigative device because of its extraordinary optical properties. These optical properties comprise of restricted outflow spectra, wide absorbance spectra, discharge wavelength which is flexible by changing the extent of the molecule, high quantum effectiveness and low photobleaching rates. MNPs are made of magnetite (Fe3O4) or maghemite (?â€Fe2O3). These materials are commonly superparamagnetic in the nanoscale extend. The attractive properties of these nanomaterials enable them to be controlled by attractive fields. the generally low poisonous quality of iron oxides takes into consideration their utilization in vivo applications.
· Quantum dot photodetectors
· Quantum dots in development of Nanomedicine
· Light-Emitting Quantum Dots with Tuneable and Equalized Fluorescence Brightness
· Electric Field Controlled Ferromagnetism
· Quantum dots in Graphene
· Magnetic Quantum dots in spintronic semiconductor devices
Nanodevices are critical enablers that will allow mankind to exploit the ultimate technological capabilities of electronic, magnetic, mechanical, and biological systems. Nanosensors are chemical or mechanical sensors that can be used to detect the presence of chemical species and nanoparticles, or monitor physical parameters such as temperature, on the nanoscale.
· Nano Medical Devices
· Nano Wires
· Magnetic Nano-Particles
· System integration, NEMS
· Optical Nanosensors
· Biosensor and Bioprinting
· Magnetic Sensors
The future of nanotechnology has been a subject of numerous logical and non-scientific theories, incorporating a few doomsday dreams in pop culture that anticipated self-recreating nanoparticles participating in enormous strikes on humankind and nature. The more advanced dreams of nanotechnology incorporate on one hand the imagined utilization of nanoparticles inside the body and the circulation system (for demonstrative and helpful purposes), and then again – potential improvement of new weapons of mass annihilation empowered by nanotechnology.
· Light-Seeking Synthetic Nanorobot
· Super-powered bionic plants
· Other potential innovative ideas
· Nanomedicine for improved HIV drug therapies
|Day-1: Dec 16, 2019|
|program time||program session|
|10:00-10:45||Keynote Session I|
|11:00-11:45||Keynote Session II|
|12:00-14:45||Break Out Session I|
|15:00-18:00||Break Out Session II|
|Day-2: Dec 17, 2019|
|program time||program session|
|10:00-10:45||Keynote Session III|
|11:00-13:00||Break Out Session III|
|15:30-17:30||Break Out Session IV|