Nano Particles

Nanoparticles are particles which lie between 1 and 100 nanometers (nm) in size with a surround with layer called interfacial layer. This interfacial layer is an important part of Nano scale matter, essentially affecting all of its properties. This layer typically consists of ions, inorganic and organic molecules. It also use coating inorganic nanoparticles is known as stabilizers, capping and surface ligands, or passivizing agents. They frequently possess unexpected optical properties as they are small enough to limit their electrons and yield quantum effects.. Nanoparticles in clay combined into polymer mediums increase reinforcement, which leads to stronger plastics, provable by a higher glass transition temperature and other mechanical property tests. These particles are rigid and impart their properties to the polymer (plastic). These are also used as attachment in textile fibers which help to create smart and functional clothing.

1. Silver nanoparticles
2. Nitrite Material/Compounds
3. Nano Scale Science
4. Gold Nano Particals
5. Application of Nano Particals

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Associations

International Association of Nanotechnology, European Nano science and Nanotechnology Association (ENNA), German Association of Nanotechnology, Innovationsallianz Carbon Nanotubes (Germany), Asian Nano science and Nanotechnology Association (ANNA), Nanotechnology Industries Association, Asian Society for Precision Engineering and Nanotechnology (ASPEN), Nano Business Commercialization Association, Nano Technology Research Association (NTRA) South Korea, Nano Science and Technology Institute (NSTI)

Smart Materials / Nano Materials

Smart materials are defined as materials with properties engineered to modify in a skillful method under the impact of external stimuli. These exterior impacts can contain temperature, force, moisture, electric charge, magnetic fields and ph. Nanotechnology is rapidly entering the world of smart materials and taking them to the next level. Piezoelectric materials either yield voltage when stressed or change shape under the impact of an electric charge. Thermo responsive materials are also known as shape memory alloys or shape memory polymers. These materials alter their shape under the influence of the ambient temperature. In the field of medical the use of smart materials that respond to injuries by delivering drugs and antibiotics or by hardening to produce a cast on a broken limb. Energy generation and conservation with highly efficient batteries and energy generating materials.

1. Carbon Nanomaterial Technology
2. Piezoelectric Materials
3. Thermo responsive Materials
4. Polychromic, Chromogenic or Halo chromic Materials
5. Applications of Smart Nanomaterials

 

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Associations

International Association of Nanotechnology, European Nano science and Nanotechnology Association (ENNA), German Association of Nanotechnology, Innovationsallianz Carbon Nanotubes (Germany), Asian Nano science and Nanotechnology Association (ANNA), Nanotechnology Industries Association, Asian Society for Precision Engineering and Nanotechnology (ASPEN), Nano Business Commercialization Association, Nano Technology Research Association (NTRA) South Korea, Nano Science and Technology Institute (NSTI)

Nano Physics

Any condensed matter systems whose at least one (out of three) dimension is of the order of nanometer can be considered as Nano scale system. Nanotechnology is branch of science which deals with designing, fabricating and monitoring materials and components with dimensions on the Nano scale, i.e. from 1 to 100 nm. Nanophysics teach how nanotechnology can be used in order to develop new optic and electronic components and new materials for use in communications technology, sensor technology or catalysis. Nano physics is branch of physics which applied at nanometer range in order to get proper result. In Nano range properties of materials changed. Basically at Nano range the surface properties of materials start dominating compare to bulk properties. In surface there are dangling bond which have high surface energy compared to bulk.

1. Nanophysics applications
2. Quantum Measurements using Nano mechanical Resonators.
3. Carbon Nano tube
4. QUANTUM MECHANICS

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Associations

International Association of Nanotechnology, European Nano science and Nanotechnology Association (ENNA), German Association of Nanotechnology, Innovationsallianz Carbon Nanotubes (Germany), Asian Nano science and Nanotechnology Association (ANNA), Nanotechnology Industries Association, Asian Society for Precision Engineering and Nanotechnology (ASPEN), Nano Business Commercialization Association, Nano Technology Research Association (NTRA) South Korea, Nano Science and Technology Institute (NSTI)

Nano Chemistry

Nano chemistry unites – naturally – Nano science and chemistry. It works from the atom up, with the aim of engineering Nano sized materials. They use many methods to formulate and collect small pieces of matter which indicate unique magnetic, electronic, optical, chemical and mechanical actions attributable only to their nanometer size. This science use approach from the synthetic chemistry and the materials chemistry to acquire nanomaterials with particular sizes, shapes, surface properties, deformities, self-gathering properties, intended to fulfill particular capacities and uses. Nanomaterial’s can be made from for all objectives and purposes any material, for example, metals, semiconductors and polymers, both in their nebulous and crystalline structures. Its tactics can be utilized to make carbon nanomaterials, for example, carbon nanotubes (CNT), graphene and fullerenes which have picked up consideration as of recently because of their mechanical and electrical properties.

1. Nanolithography
2. Nanomaterials Synthesis
3. Nanocomposites
4. Nanoparticle Synthesis

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Associations

International Association of Nanotechnology, European Nano science and Nanotechnology Association (ENNA), German Association of Nanotechnology, Innovationsallianz Carbon Nanotubes (Germany), Asian Nano science and Nanotechnology Association (ANNA), Nanotechnology Industries Association, Asian Society for Precision Engineering and Nanotechnology (ASPEN), Nano Business Commercialization Association, Nano Technology Research Association (NTRA) South Korea, Nano Science and Technology Institute (NSTI)

Nano Weapons

Nano weapon is the tag which identifies the military technology currently under develop which seeks to exploit the power of nanotechnology in the modern battlefield. These particles used in different military materials could possibly hazard in nature to the soldiers that are wearing the material, if the material is allowed to get worn out. As the uniforms wear out it is likely for nanomaterial to separate and enter into the soldiers’ bodies’. Soldiers having nanoparticles arriving the soldiers’ bodies would be very unhealthy and could create seriously harm to them. There is not a lot of information on what the actual damage to the soldiers would be, but there have been studies on the effect of nanoparticles entering a fish through its skin. The studies showed that the different soldiers suffered from varying degrees of brain damage. These brain damage would create serious negative effect; the studies also say that the results cannot be taken as an accurate example of what would happen to soldiers if nanoparticles entered their bodies. There are very strict regulations on the scientists that manufacture products with nanoparticles.

1. Military Research
2. Soldier Battle suit
3. Aerospace Applications
4. Communications

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Associations

International Association of Nanotechnology, European Nano science and Nanotechnology Association (ENNA), German Association of Nanotechnology, Innovationsallianz Carbon Nanotubes (Germany), Asian Nano science and Nanotechnology Association (ANNA), Nanotechnology Industries Association, Asian Society for Precision Engineering and Nanotechnology (ASPEN), Nano Business Commercialization Association, Nano Technology Research Association (NTRA) South Korea, Nano Science and Technology Institute (NSTI)

Nano Biotechnology

Nano biotechnology refers function which joins nanotechnology and biology. The subject of Nano Biotechnology is one that has only arose very recently and helps as blanket terms for various related technologies. The use of the intrinsic properties of nucleic acids like DNA to create useful materials is a promising area of modern research. This frequently used to define the assemble multidisciplinary actions associated with biosensors, particularly where photonics, chemistry, biology, biophysics, Nano medicine, and engineering converge. Bio nanotechnology is the term that refers to the juncture of nanotechnology and biology. These Ideas which improved through Nano biology are includes with Materials like Nano scale, Nano devices, and nanoparticles phenomena that occurs within the discipline of nanotechnology. Its applications are under research currently, verified and in some cases already applied in different field like food technology, from agriculture to food processing, packaging and food supple.

1. Nano Science in agriculture
2. Nano Science in Food Industry
3. Surface modified polystyrene nanoparticles
4. Nano systems
5. Nano ink

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Associations

International Association of Nanotechnology, European Nano science and Nanotechnology Association (ENNA), German Association of Nanotechnology, Innovationsallianz Carbon Nanotubes (Germany), Asian Nano science and Nanotechnology Association (ANNA), Nanotechnology Industries Association, Asian Society for Precision Engineering and Nanotechnology (ASPEN), Nano Business Commercialization Association, Nano Technology Research Association (NTRA) South Korea, Nano Science and Technology Institute (NSTI)

Green Nano Technology       

Green nanotechnology refers to the technology that uses the nanotechnology as improvement supplement for environmental sustainability which uses different methods producing negative externalities. It also refers the products of nanotechnology which can be used to enhance sustainability. It includes making green Nano-products and using Nano-products in maintenance of sustainability. It has been defined as the development of clean technologies to decrease potential of environmental and human health risks related with the manufacture and use of nanotechnology products, and to inspire replacement of existing products with new Nano-products that are more environmentally friendly throughout their lifecycle. It involves developing products that benefit the environment either directly or indirectly. Its materials or products can be used directly to unsoiled hazardous waste sites, desalinate water, treat pollutants, or sense and monitor environmental pollutants

1. Nano remediation and water treatment
2. Environmental remediation
3. Air pollution control

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Associations

International Association of Nanotechnology, European Nano science and Nanotechnology Association (ENNA), German Association of Nanotechnology, Innovationsallianz Carbon Nanotubes (Germany), Asian Nano science and Nanotechnology Association (ANNA), Nanotechnology Industries Association, Asian Society for Precision Engineering and Nanotechnology (ASPEN), Nano Business Commercialization Association, Nano Technology Research Association (NTRA) South Korea, Nano Science and Technology Institute (NSTI)

Nano Therapy

Nano therapy is a branch of Nano medicine that contains nanoparticles to deliver a drug to a target location in the body so as to treat the disease through a procedure known as targeting. Nano therapy is an actual newest mode of treatment that can be applied for cancer therapy. To imagine and test the hypothesis and idea regarding the new hypothesized nontherapeutic system, there are many issues to be addressed including the change of properties of substances at the Nano-https://nanoscience.conferenceseries.com/conference-brochure.phplevel, the use of in vitro studies for testing the new drug and the safety of the new Nano-substance. the biggest aids of nanoparticles is they have a larger surface area, which permits for several functional groups to be added to the surface nanoparticles are very small as they have a larger surface area, which presents a major advantage in drug delivery.

1. Passive Targeting
2. Active Targeting
3. Material Used for Making Nanoparticles
4. Nano therapy Advantages

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Associations

International Association of Nanotechnology, European Nano science and Nanotechnology Association (ENNA), German Association of Nanotechnology, Innovationsallianz Carbon Nanotubes (Germany), Asian Nano science and Nanotechnology Association (ANNA), Nanotechnology Industries Association, Asian Society for Precision Engineering and Nanotechnology (ASPEN), Nano Business Commercialization Association, Nano Technology Research Association (NTRA) South Korea, Nano Science and Technology Institute (NSTI)

 

Nano Tubes and Nano wires

A nanotube is nanometer-scale tube-like structures, which are also known as nanowires, in terms of feature ratio; but unlike wires, tubes are hollow. Nanotubes maybe single-walled or multi-walled. These wires are in 1D nanostructure which generally has diameters of the tens in order of nanometers, with unrestricted length scales. The length to diameter ratio may be as much as 1000. Nanowires and nanotubes are now at the forefront of materials science at the Nano scale. This article starts with introductory comments about nanowires and nanotubes and then addresses in more detail the special structure and properties of bismuth nanowires and carbon nanotubes, which are considered as prototype examples of nanowires and nanotubes. Both Nano-materials are important for the new Nano science concepts that they introduce and for their promise for practical applications. Both provide a system that is simple enough so that detailed calculations of their properties can be carried out, and predictions about their physical behavior can be made. The occurrence and control of unusual and unique properties of specific nanostructures are the drivers for the exploitation of Nano science in nanotechnology applications.

1. Nano rods
2. Inorganic Nanowires
3. Inorganic Nanotubes
4. Carbon Nanotubes

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Associations

International Association of Nanotechnology, European Nano science and Nanotechnology Association (ENNA), German Association of Nanotechnology, Innovationsallianz Carbon Nanotubes (Germany), Asian Nano science and Nanotechnology Association (ANNA), Nanotechnology Industries Association, Asian Society for Precision Engineering and Nanotechnology (ASPEN), Nano Business Commercialization Association, Nano Technology Research Association (NTRA) South Korea, Nano Science and Technology Institute (NSTI)

Nano Toxicity

Nanotechnology is a fast developing field in the 21st century, and the commercial use of nanomaterials for novel applications is growing exponentially. Till Now the scientific basis for the cytotoxicity and genotoxicity of most manufactured nanomaterials are not understood. The mechanisms underlying the toxicity of nanomaterials have recently been studied intensively. The growth of ROS has increase which leads to oxidative stress, resulting in cells failing to maintain normal physiological redox-regulated functions. This in turn leads to DNA damage, tolerant cell signaling, change in cell motility, cytotoxicity, apoptosis, and cancer beginning. There are critical determinants that can affect the generation of ROS. These critical causes, discussed briefly here, include: size, shape, particle surface, surface positive charges, surface-containing groups, and particle dissolution, metal ion release from nonmetals and nanometer oxides, UV light activation, aggregation, mode of interaction with cells, inflammation, and pH of the medium. The Nano size particles are probable to raise an needless unlimited toxicological effect on animals and environment, although their toxicological effects related with human exposure are still unknown.

1. Nano Technology interaction with living systems
2. Cytotoxicity
3. Genotoxicity
4. Oxidative stress
5. Bio distribution

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Associations

International Association of Nanotechnology, European Nano science and Nanotechnology Association (ENNA), German Association of Nanotechnology, Innovationsallianz Carbon Nanotubes (Germany), Asian Nano science and Nanotechnology Association (ANNA), Nanotechnology Industries Association, Asian Society for Precision Engineering and Nanotechnology (ASPEN), Nano Business Commercialization Association, Nano Technology Research Association (NTRA) South Korea, Nano Science and Technology Institute (NSTI)

Nano Electronics

Nano electronics refer to the usage of nanotechnology on electronic components, particularly transistors. Nano electronics often mention to transistor devices that are so small that inter-atomic relations and quantum mechanical properties need to be studied widely. Theses Nano electronic expedients are manufactured with hybrid molecular/semiconductor electronics, one dimensional nanotubes/nanowires, or advanced molecular electronics. Nano Electronics involves the study of the synthesis and characterization of materials of Nano scale size. It is the combination of chemistry and Nano science. At particularly small level of Quantum effect is very important, fascinating and possibly scientifically very rewarding innovative ways of carrying out chemical reactions are possible. Nanoparticles have the high surface to volume ratio which has a intense effect on their properties. This small size of nanoparticles gives them unusual structure and optical properties with applications in catalysis, electro-optical devices, medicine, cosmetics etc.

1. Energy Harvesting
2. Thin Films and Nanotechnology
3. Semiconductor
4. Microelectronics
5. Semiconductor Devices

 

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Associations

International Association of Nanotechnology, European Nano science and Nanotechnology Association (ENNA), German Association of Nanotechnology, Innovationsallianz Carbon Nanotubes (Germany), Asian Nano science and Nanotechnology Association (ANNA), Nanotechnology Industries Association, Asian Society for Precision Engineering and Nanotechnology (ASPEN), Nano Business Commercialization Association, Nano Technology Research Association (NTRA) South Korea, Nano Science and Technology Institute (NSTI)

Nano Devices and Nano Sensors

Nanodevices, the quickest moving section of the overall market, the Nanotek research includes in smart sensors and smart delivery systems, Magnetic Nano devices, Nano-biosensors, Nano switches, Optical biosensors, and biologically inspired devices are expected to transport at a excellent 34% CAGR.. Nano sensors will work better on the onset of sicknesses along with cancer or coronary heart ailment, and Nano markets assumes the marketplace for biomedical Nano sensors to reach approximately $800 million in 2019. Around 18 universities and 53 new research initiatives are exhibited in Nanotechnology convention The electrical properties of carbon nanotubes1 (CNTs) and graphene2 make them exceptional candidates for developing novel devices with functionality and efficiency that is orders-of-magnitude better than state-of-the-art technologies. These next-generation electronics will significantly increase the capabilities of high-throughput information systems while simultaneously decreasing their size, weight, cost, and assembly complexity.  It also uses to detect various chemicals in gases for pollution monitoring in Atmosphere.

     1. Biologically inspired devices

     2. Quantum dots/Nano dots

     3. Smart sensors and smart delivery systems

     4. Magnetic Nanodevices

     5. Nano-biosensors

     6. Nano switches.

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Associations

International Association of Nanotechnology, European Nano science and Nanotechnology Association (ENNA), German Association of Nanotechnology, Innovationsallianz Carbon Nanotubes (Germany), Asian Nano science and Nanotechnology Association (ANNA), Nanotechnology Industries Association, Asian Society for Precision Engineering and Nanotechnology (ASPEN), Nano Business Commercialization Association, Nano Technology Research Association (NTRA) South Korea, Nano Science and Technology Institute (NSTI)

Nano Robotics

Nano robotics is the technology of making machines or robots at or close to the scale of a nanometer (10-9 meters).Nano robots (nanobots or nanoids) are typically devices ranging in size from 0.1-10 micrometers. As no artificial non-biological Nano robots have so far been created, they remain a theoretical concept at this time. Following this definition even a large apparatus such as an atomic force microscope can be considered a Nano robotic instrument when configured to perform nanomanipulation.Also, micro robots which can move with Nano scale precision can also be considered Nano robots. These machines are largely used in the research and development segment but some primitive molecular machines and Nano motors have been tested. These can then be linked by chemical or physical means to form subassemblies, which in turn can be further manipulated. Applications in building wires, single-electron transistors, and Nano waveguides are presented.

1. Biochip
2. Nubots
3. Surface-bound systems
4. Positional Nano assembly
5. Biohybrids
6. 3D printing

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Associations

International Association of Nanotechnology, European Nano science and Nanotechnology Association (ENNA), German Association of Nanotechnology, Innovationsallianz Carbon Nanotubes (Germany), Asian Nano science and Nanotechnology Association (ANNA), Nanotechnology Industries Association, Asian Society for Precision Engineering and Nanotechnology (ASPEN), Nano Business Commercialization Association, Nano Technology Research Association (NTRA) South Korea, Nano Science and Technology Institute (NSTI)

Nano Mechanics

Nano mechanics is a branch of Nano science studying important mechanical (elastic, thermal and kinetic) properties of physical systems at the nanometer scale. Nano mechanics has looked as if on the crossroads of classical mechanics, solid-state physics, statistical mechanics, materials science, and quantum chemistry. As an area of Nano science, Nano mechanics provides a scientific basis of nanotechnology. Nano mechanics is based on some experimental principles (basic observations), specifically general mechanics principles and specific principles arising from the smallness of physical sizes of the object of study. These principles serve to offer a basic insight into novel mechanical properties of nanometer objects. Novelty is understood in the sense that these properties are not present in similar macro scale objects or much different from the properties of those (e.g., Nano rods vs. usual macroscopic beam structures). In particular, compactness of the subject itself gives growth to various surface effects determined by higher surface-to-volume ratio of nanostructures and thus affects mechanoenergetic and thermal properties (melting point, heat capacitance, etc.) of nanostructures.

1. Energy and momentum conservation principles
2. Vibrational Hamilton's principle 
3. Symmetry principles
4. Importance of thermal fluctuations
5. Importance of entropic effects

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Associations

International Association of Nanotechnology, European Nano science and Nanotechnology Association (ENNA), German Association of Nanotechnology, Innovationsallianz Carbon Nanotubes (Germany), Asian Nano science and Nanotechnology Association (ANNA), Nanotechnology Industries Association, Asian Society for Precision Engineering and Nanotechnology (ASPEN), Nano Business Commercialization Association, Nano Technology Research Association (NTRA) South Korea, Nano Science and Technology Institute (NSTI)

Nano Fabrication

Nanofabrication refers to the design procedure of nanomaterial and devices that are measured in nanometers. One nanometer is one millionth (10-9) of a meter. It helps in parallel processing of material over a large scale. It is a cost-effective method whereby large-scale economy is manufactured using the same machinery and design and small amount of material. To meet the continuing challenge of shrinking component size in microelectronics, new tools and techniques are continuously being developed. Component sizes that were in tens of micrometers became single-digit micrometers, and then hundreds of nanometers, and then went down to a few tens of nanometers where they stand today. As a result, what used to be called micro fabrication was rebranded as nanofabrication, although the governing principles have remained essentially the same. The main driver of this technology has been the manufacture of integrated circuits, but there have been tremendous fallout benefits to other areas, including photonics. Nanofabrication can be loosely divided into three major areas: thin films, lithography, and etching. Each of these are vast subject areas in and of themselves, but in this chapter we attempt to cover their essential concepts in a concise fashion for someone new to these areas. The goal is not to provide a working experience that allows one to walk into a laboratory and perform these tasks, but to provide an overall understanding of what these areas are as well as the pros and cons of the most commonly used techniques. Hopefully it will build a foundation for more specific training for anyone who wants to venture further into these areas.

1. Micro/Nano fabrication
2. Laser surface micro-texturing
3. Conditions for Nanofabrication
4. Position and control strategy
5. Environment

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Associations

International Association of Nanotechnology, European Nano science and Nanotechnology Association (ENNA), German Association of Nanotechnology, Innovationsallianz Carbon Nanotubes (Germany), Asian Nano science and Nanotechnology Association (ANNA), Nanotechnology Industries Association, Asian Society for Precision Engineering and Nanotechnology (ASPEN), Nano Business Commercialization Association, Nano Technology Research Association (NTRA) South Korea, Nano Science and Technology Institute (NSTI)

Nano Technology In Clinical and Translation Research

Nanotechnology offers some exciting potentials in medicine Science. Submission of Nanotechnology in Nano medicine involves two main techniques i.e. Diagnostic technique and Therapeutic technique. Nano flares are nanoparticles which are designed bind to genetic targets in cancer cells and generate light when that particular genetic target is found .Nanotechnology provides methods to inactivate specific proteins or genes in cells without genetic changes, to isolate their function. It is a combination of therapeutic and imaging material based on the use of nanoparticles for drug delivery. It will combine imaging with cell-specific therapeutic delivery to allow better evaluation of how medication is reaching its intended target. The other is the impact of nanoparticles in diagnostic assays, which allow precise measurements of concentrations that are orders of magnitude lower than current techniques. Both approaches give an insight into the potential breakthroughs in clinical research that might be accomplished with nanotechnology. Furthermore, the nanotechnology-based methods are emerging as a significant step forward for the easy and rapid analysis of the genetic basis and treatment of diseases. The study comprises a limited number of strategies and a glimpse where the nanotechnology field could evolve. Nanotechnology has given excellent tools that allow the delineation of processes in complex biological systems to a degree that was previously impossible.

1. Nano Medicine
2. Nano Drug delivery System
3. Nanotechnology and Nano biomaterials in Dentistry
4. Regenerative Engineering and Translational Medicine
5. Viruses as Nanoparticles

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Associations

International Association of Nanotechnology, European Nano science and Nanotechnology Association (ENNA), German Association of Nanotechnology, Innovationsallianz Carbon Nanotubes (Germany), Asian Nano science and Nanotechnology Association (ANNA), Nanotechnology Industries Association, Asian Society for Precision Engineering and Nanotechnology (ASPEN), Nano Business Commercialization Association, Nano Technology Research Association (NTRA) South Korea, Nano Science and Technology Institute (NSTI)

 

NANO SCIENCE 2020 the platform to gain or share the knowledge in the new technological developments in the field of Nanotechnology. This conference brings together professors, researchers, scientists, students in all the areas and provides an international forum for the spreading of approved research. We are honored to invite you all to attend and register for the “25th World Congress on “Nano science and Nanotechnology” (NANO SCIENCE 2020)” which is scheduled for August 03-04, 2020 at Hanoi, Vietnam

The organizing committee is gearing up for an exciting and informative conference program this year also which includes plenary lectures, symposia, workshops on a variety of topics, poster presentations and various programs for participants from all over the world. We invite you to join us at the NANO SCIENCE 2020, where you will be sure to have a meaningful experience with scholars from around the world. All members of the Nano science and Nanotechnology committee look forward to meeting you in Hanoi, Vietnam.

NANO SCIENCE 2020 Is the best platform to discuss the basic principles involved in the development of Materials Science and Nanotechnology? As this conference deals with the basics concepts, students, delegates, academicians and business people can attend the conference to root up the knowledge and excel in this field. It encompasses the spectrum of materials types and how to use them in manufacturing. Materials span the range: metals, ceramics, polymers (plastics), semiconductors, and combinations of materials called composites. We live in a world that is both dependent upon and limited by materials. The future will bring ever-increasing challenges and opportunities for new materials and better processing. Materials are evolving faster today than at any time in history.

For more details please visit: https://nanoscience.conferenceseries.com/

Scope and Importance:-

Nanotechnology is a broad, diverse and multidisciplinary field. It is continuous interaction with basic disciplines and is also contributing to meet all Grand Societal Challenges. This contribution is such that numerous reports have been produced in recent years in Asia and world - wide, with the aim of drawing a comprehensive picture and proposing coordinated actions towards the establishment of coherent strategies in the field. The present report subscribes to this perspective, with a particular goal which is to contribute to the establishment of a comprehensive view of the role in efficient development of key enabling technologies.

Branches of Nano Science and Nanotechnology Includes:

• Nano Particles
• Smart Materials / Nano Materials
• Nano Physics
• Nano Chemistry
• Nano Weapons
• Nano Biotechnology
• Green Nano Technology
• Nano Therapy
• Nano Tubes and Nano wires
• Nano Toxicity
• Nano Electronics
• Nano Devices and Nano Sensors
• Nano Robotics
• Nano Mechanics
• Nano Coating
• Nano Fabrication
• Nano Technology In Clinical and Translation Research

Why to attend???

International Conference on Nano science and Nanotechnology -2020 which is going to be the biggest conference dedicated to Nano science and Nanotechnology professionals providing a premier technical forum for reporting and learning about the latest new generation technologies developed during the course of time along with discussing  their applications. Events include hot topics presentations from all over the world and professional networking with industries, leading working groups and panels.

Meet Your Objective Business sector With individuals from and around the globe concentrated on finding out about Polymer science and Engineering, this is the best chance to achieve the biggest collection of members from  everywhere throughout the World. Conduct shows, disperse data, meet with current, make a sprinkle with another product offering, and get name acknowledgment at this occasion. Widely acclaimed speakers, the latest methods, strategies, and the most up to date overhauls in Polymer science and Engineering are signs of this meeting.

Target Audience:

• Scientists.
• Professors.
• Research Scholars and students
• Nanotechnology Companies
• Nanotechnology Associations
• Materials Science and Nanotechnology Engineers
• Materials Scientists/Research Professors
• Physicists/Chemists
• Junior/Senior research fellows of Materials Science/ Nanotechnology/ Polymer Science/
• Biotechnology
• Materials Science Students
• Directors of chemical companies
• Materials Engineers
• Members of different Materials science associations.
• Polymer companies.

Market Value on Nanoscience and Nanotechnology Research:-

Rise in demand from the end user industries drives the composites market. Improved properties such as high fatigue life, high strength and modulus, reduced weight, acoustic insulation, and corrosion resistance have led to an increase in the demand. Volatility in the raw material prices and non-recyclable nature of composites pose a great threat in the growth of the market.

The report segments the composites market on the basis of fibre type, resin type, manufacturing process, and application. On the basis of fibre, the market is divided into carbon fibre composites, glass fibre composites, and others. Based on the resin type, market is classified into thermosetting composites and thermoplastic composites. On the basis of type of manufacturing process, the market is categorized into layup, filament, injection moulding, pultrusion, compression moulding, RTM, and others. On the basis of application, the market is divided into transportation, aerospace & defence, electrical & electronics, construction, wind energy, pipes and tanks, marines, and others. Geographic breakdown and deep analysis of each of the aforesaid segments is included for North America, Europe, Asia-Pacific, and LAMEA. Growth of the electrical & electronics, construction & infrastructure, and improved transportation facilities has led Asia-Pacific to be the largest market of composites.

Comprehensive competitive analysis and profiles of major market players such as Hexcel Corporation, Huntsman Corporation, Toray Industries, Teijin Limited, and Owens Corning are also provided in this report. The target end users for these companies can be categorized as automotive, aerospace, construction, and wind energy related companies such as BMW, Ford, Bell Helicopter, Boeing, Mercedes-Benz, and Vestas.

 Benefits for stake holders on Nanoscience and Nanotechnology:-

This report entails the detailed quantitative analysis of the current market and estimations through 2014-2022, which assists to identify the prevailing opportunities.

Exhaustive analysis of the global composites market by type helps understand the types of composites that are currently being used along with the variants that would gain prominence in the future.

An in-depth analysis of the current research and clinical developments within the composites market is provided with key dynamic factors that predict the behaviour of the market.

Extensive analysis is conducted by following key product positioning and monitoring the top competitors within the market framework.

Key market players within the composites market are profiled in this report and their strategies are analysed thoroughly, which interprets the competitive outlook of the global composites market. This report provides an extensive analysis of the current and emerging trends and dynamics in the global composites market. In-depth analysis has been done in this report by constructing market estimations for the key market segments between 2014 and 2022.

 Market Growth of Nanoscience and Nanotechnology Research in the last and upcoming ten years:

The global material market was valued at $149 million in 2015, and is expected to reach $1,387 million by 2022, growing at a CAGR of 39.7% during the forecast period. Material mediums are defined as macroscopic composites possessing a man-made, three-dimensional, periodic cellular architecture designed to produce an optimized combination, not available in nature, of two or more responses to a specific excitation. They show exceptional physical properties such as negative permeability and permittivity. The significance of materials is that they allow engineers to manipulate wave propagation by arranging the unit cells in different ways. For example, though copper is a good conductor and appears bronze in colour, a materials designed out of copper can be engineered to be an insulator and reflect yellow. Major factors that drive the market growth are capital investment from public and private sources and highly skilled researchers for product commercialization. In addition, the unique engineered properties of material mediums are not found in nature, making them inherently valuable. However, inefficient research despite huge investment is expected to restrain the market growth.

 INVESTMENT POCKETS:

 The telecommunication industry segment dominated the global market in 2015, accounting for a market share of 100%, and is expected to maintain this trend in the coming years due to increase in use of negative index materials to manufacture optical fibers and antennas. Moreover, increase in use of electrically small antennas in applications such as telephone network, television network, and satellites boosts the rapid use of material medium in the telecommunication industry in various regions. Moreover, the optics segment is projected to exhibit the highest growth rate during the forecast period. The adoption of material medium in sensing devices such as antennas and absorbers is driven by ease of availability of various plastics and polymers used in the manufacturing process of negative index material medium.

 Funds allotted to Nanotechnology:-

MSE faculty are leading numerous research projects, which are supported by an average of $4-5 million annually.

A significant portion of this funding comes from federal grants: U.S. Department of Defence and all branches of the military, U.S. Department of Energy, National Science Foundation, and Centre for Disease Control & Prevention. Another part comes from State or private foundations.

Finally, industry (from small start-up companies to large international corporations) provides much of the remainder funding, which provide both for graduate research assistantships and support for undergraduates conducting research on a project.

 Federal Agencies:-

• National Science Foundation(NSF)
• Department of Energy(DOE)
• Department of Defence(DOD)
• Intelligence Advanced Research Projects Activity(IARPA)
• Smithsonian Institution research centres and programs

Business Operations Jobs:-

• Product Manager
• Strategy Director
• Business Development Manager
• Business Operation Analyst

Apart from the industrial personnel where most of the research work is done, other research communities include:-

• Academicians include Student community.
• Researchers include Post docs, Research Associates.
• Scientists include Professors, Associate professors, and Assistant professor.
• Industries include Presidents, CEO’s, and R&D Managers.

  Major Advanced Material’s science Associations around the Globe

• The Materials Information Society (ASM International)
• Microscopy Society of America (MSA)
• The Minerals, Metals & Materials Society (TMS)
• Sigma Xi: The Scientific Research Society
• International Society for Optical Engineering (SPIE)
• Czech Nanotechnology Industries Association (Czech Republic)
• International Association of Materials Science(IAAM)
• British Society for Nanomedicine (UK)
• American Bar Association Section Nanotechnology Project (USA)
• Erwin Schrödinger Society for Nanosciences (Austria)
• Nano Science and Technology Consortium (NSTC) (India)
• Nanotechnologies for Tomorrow's Society (NanoSoc) (Belgium)

Major Nano science and Nanotechnology Associations in Asia Pacific

• Asia Nano Forum (ANF)
• Asia Nano Forum (ANF)
• Asia Pacific Nanotechnology Forum (APNF)
• Asian Nanoscience and Nanotechnology Association
• Center of Excellence in Nanotechnology (CoEN)
• Center for Knowledge Management of Nanoscience & Technology
• Global Nanotechnology Network
• International Association of Nanotechnology (IANANO)
• ICPC Nanonet
• Iran Nanotechnology Initiative Council (INIC)
• National Nanotechnology Center (NANOTEC)
• Nanoforum
• Nanomission

 

Academia 50%

Industry    40%
Others      10%

                                  

Top Universities in New Zealand:

• Massey University.
• Massey University - Bachelor of Science (Nanoscience).
• University of Canterbury Nanotechnology.
• University of Wellington - Computational Nanotechnology.
• Victoria University of Wellington - MacDiarmid Institute for Advanced Materials and Nanotechnology.

Figure 2: Statistical Analysis of Universities

Glance at Market of Nano science:

The global market is projected to reach $6,000 million by 2020 and register a CAGR of 10.2% between 2015 and 2020 in terms of value. The growth in market is estimated to be driven by the increasing demand for aero gel materials from oil & gas and construction applications. The North American region remains the largest market, followed by Asia-Pacific. . The Europe market is estimated to be growth at a steady rate due to economic recovery in the region along with the increasing concern for the building insulation and energy savings.  The structural core material market in aerospace interior is estimated to grow from USD 142.2 Million in 2016 to USD 220.2 Million by 2021, at a compound annual growth rate (CAGR) of 9.13% between 2016 and 2021. The base year considered for the study is 2015 and the market size is projected between 2016 and 2021. Increase in the demand for Boeing 787 and Airbus 350 is expected to significantly drive the structural core material market in aerospace interiors.  The market size of high-temperature composite materials is projected to reach USD 5.01 Billion by 2021, at a CAGR of 8.41% during the forecast period. The introduction of safety norms in public transport as well as increasing demand for lightweight and high-performance composite materials in the aerospace & defence, transportation, and energy & power applications are key factors responsible for the growth of the high-temperature composite materials market.  Global Metallurgy market will develop at a modest 5.4% CAGR from 2014 to 2020. This will result in an increase in the market’s valuation from US$6 bn in 2013 to US$8.7 ban by 2020.  The global market for powder metallurgy parts and powder shipments was 4.3 billion pounds (valued at $20.7 billion) in 2011 and grew to nearly 4.5 billion pounds ($20.5 billion) in 2012. This market is expected to reach 5.4 billion pounds (a value of nearly $26.5 billion) by 2018

Nanotechnology:

Although much of nanotechnology's potential still remains un-utilized, investment in the field is booming. The U.S. government distributed more than a billion dollars to nanotechnology research in 2005 to find new developments in nanotechnology. China, Japan and the European Union have spent similar amounts. The hopes are the same on all fronts: to push oneself off a surface on a growing global market that the National Science Foundation estimates will be worth a trillion dollars. The global market for activated carbon totalled $1.9 billion, in 2013, driven primarily by Asia-Pacific and North American region for applications in water treatment and air purification.

 

Figure 3: Growth forecast for nanotechnology

 

Materials Industry:

The global market for carbon fibre reached $1.8 billion in 2014, and further the market is expected to grow at a five-year CAGR (2015 to 2020) of 11.4%, to reach $3.5 billion in 2020. Carbon fibre reinforced plastic market reached $17.3 billion in 2014, and further the market is expected to grow at a five-year CAGR (2015 to 2020) of 12.3%, to reach $34.2 billion in 2020. The competition in the global carbon fiber and carbon fiber reinforced plastic market is intense within a few large players, such as Toray Toho, Mitsubishi, Hexcel, Formosa, SGL carbon, Cytec, Akas, Hyosung, Subic etc.

Figure 4: Growth forecast of materials

Materials Chemistry:

Today, many materials chemists are synthesizing functional device materials, and the discipline is often seen as directed towards producing materials with function—electrical, optical, or magnetic. Material chemistry is involved in the designing and processing of materials. Global market for catalysts is expected to reach $28.5 billion by 2020, growing at a CAGR (2015 to 2020) of over 3%. Asia-Pacific is having the largest market for catalysts accounting for more than 35% share.

Figure 5: Growth forecast of material chemistry