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Renowned Speakers

Hong-Ming Lin

Hong-Ming Lin

Tatung University Taiwan

Ramesh K. Agarwal

Ramesh K. Agarwal

Washington University, USA

Coleman Anthony

Coleman Anthony

University of Lyon, France

Lavinia Balan

Lavinia Balan

CNRS Institute of Materials Science of Mulhouse (IS2M), France

Esmaiel Jabbari

Esmaiel Jabbari

University of South Carolina, USA

Beverly A. Rzigalinski

Beverly A. Rzigalinski

Edward Via College of Osteopathic Medicine, USA

Hai-Feng (Frank) Ji

Hai-Feng (Frank) Ji

Drexel University, USA

Mahi R. Singh

Mahi R. Singh

Western University, Canada

Nano World 2018

Sessions and Tracks

 

Advanced Nanomaterials:

 

Nanomaterials are foundations of Nanoscience and Nanotechnology. Nanostructure science and innovation is an expansive and interdisciplinary territory of innovative work movement that has been becoming violently worldwide in the previous couple of years. It has the potential for altering the courses in which materials and items are made and the range and nature of functionalities that can be gotten too.

Nanomedicine:

Nanomedicine seeks to deliver a valuable set of research tools and clinically useful devices. The pharmaceutical industry is developing new commercial applications that may include advanced drug delivery systems, new therapies, and nanomaterials for imaging and drug delivery. Another active and very much relevant area of research in this context is the investigation of toxicity and environmental impact of nanoscale materials, since nanomedicine must be biocompatible for clinical application.

Bionanotechnology:

Bionanotechnology is the term that refers to the interdisciplinary academic meeting point between nanotechnology and biology. This discipline aids to indicate the fusion of biological research with several fields of nanotechnology. Concepts that are improved through nanobiology with comprises of objects in the nanoscale, nano devices, and nanoparticles phenomena that occurs within the discipline of nanotechnology.

Nano Pharmaceuticals:

Nanopharmaceuticals represent an emerging field where the sizes of the drug particle or a therapeutic delivery system operate in the nanoscale. Nanopharmaceuticals offer the ability to detect diseases at an earlier stage so that the diagnostic applications could be built upon conventional procedures using nanoparticles. Nanopharmaceuticals represent an emerging field where the sizes of the drug particle or a therapeutic delivery system functions at the nanoscale. In the pharmaceutical industry, a long standing unresolved issue is the difficulty in delivering the appropriate dose of a particular active agent at specific disease site. Nanopharmaceuticals have enormous potential in addressing this failure of traditional therapeutics which offers site-specific targeting of active agents. Such precision targeting via nanopharmaceuticals reduce toxic systemic side effects, resulting in better patient compliance.

Materials Science and Engineering:

Material science and engineering is an interdisciplinary field of science and engineering incorporating wide range of natural and man-made materials which integrates extraction, structure, synthesis, properties, characterization, performance and material processing. The engineering of materials has shown advancement in healthcare industries, medical device, electronics and photonics, energy industries, batteries, fuel cells, transportation, and nanotechnology. Material science and engineering aims at developing materials at the nano, micro and macro scales and involves several subjects such as biomaterials, structural materials, chemical and electrochemical materials science, computational materials science, electrochemical materials. The advances in materials lead to new revolutions in every discipline of engineering. Material scientist and engineers can develop new materials with enhanced performance by modifying the surface properties.

Nanotechnology in Electronics: Nanoelectronics:

Nanoelectronics possess insights how we might raise the competences of electronics devices while we lessen their weight and power consumption. Improving display screens on electronics devices. This involves decreasing power consumption while decreasing the weight and thickness of the screens, increasing the density of memory chips. Researchers are developing a type of memory chip with a projected density of one terabyte of memory per square inch or greater.

Micro and Nanomechanics

The field of micromechanics and nanomechanics are concerned with the fine scale mechanical behaviour of materials. A micro or nanoscale point of view allows for a more refined treatment of the material constituent behaviour compared to traditional macromolecular approach. Microscale and nanoscale systems are becoming more viable for engineered application. Nanoscale components will be used in conjugation with components which are larger and respond at different timescale. In such a hybrid system, the interaction of different time and length scales may play a crucial role in the performance of the complete system.

Computer Memory Improvements with Nanotechnology:

Hard drives used as memory in computers consume additional power and have additional chances of failure than solid state memory that doesn't have any moving parts. For that reason, solid-state computer memory has become popular in smaller computers, such as tablets. This solid-state computer memory consume less space, uses less battery power,  and is less likely to be damaged if the device is dropped. Nanotechnology is being used to improve the density of solid-state computer memory.

Space Nanotechnology:

Nanotechnology may hold the key to making space flight more practical. Advancements in nanomaterials make lightweight solar sails and a cable for the space elevator possible. By significantly reducing the amount of rocket fuel required, these advances could lower the cost of reaching orbit and traveling in space. In addition, new materials combined with nanosensors and nanorobots could improve the performance of spaceships, spacesuits, and the equipment used to explore planets and moons, making nanotechnology an important part of the ‘final frontier.’

Energy & Environment:

Sustainable nanotechnology is the development of science and technology within the 1 – 100 nanometre scale, with considerations to the long-term economic viability and a sensible use of natural resources, while minimizing negative effects to human health and the environment. Potential negative effects may be caused by engineered nanomaterials or by anthropogenic changes in the prevalence of naturally occurring nanomaterials. Nanotechnology offers substantial prospects for the development of innovative products and it is expected that the number of nanotechnology-based products will increase in the future.

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STUDY BACKGROUND

While it appears inevitable that nanotechnology will have a broad and fundamental impact on many sectors of the U.S. economy, various technical, marketing and other hurdles need to be overcome before nanotechnology fulfils this promise. These challenges and differences of opinion regarding commercial applications are reflected in the widely diverging estimates of the U.S. and global nanotechnology markets.

Estimates of the global nanotechnology market in 2010 range from about $15.7 billion (the figure used in this report) to $1 trillion. By 2016, the market may be worth more than $2.4 trillion, according to different analysts. These differences reflect not only different analytical methods and assumptions, but also different definitions of the nanotechnology market (e.g., whether to include decades-old technologies such as carbon black rubber reinforces and photographic silver, or whether to base the market value on nanotechnology inputs alone, as opposed to the total value of products that incorporate nanotechnology).

Perhaps as a reflection of the difficulty of quantifying the market for nanotechnologies, some analysts downplay the commercial dimensions of the nanotechnology market, and focus instead on the supply side, i.e., the development of new Nano scale technologies and applications. These analysts have made valuable contributions, raising investors’ awareness of and interest in nanotechnologies.

However, by itself, the work of these analysts does not provide sufficient information in order to guide corporate or individual investment decisions. Investors require additional data, such as the size of specific nanotechnology markets, prices, and competition, as well as potential regulation

SCOPE OF REPORT

India keeps on being inside the improvement arrange for innovation and it'll take very couple of years for this field to end up noticeably settled in India. Examination labs and foundations like IISc, TIFR, NCBS, IITs and so forth are performing expressions brilliant investigation in Asian country. Nonetheless, contrasted and nations like UK, FRG and USA, yield of best quality investigation pales extensively. This is frequently a direct result of many reasons like absence of incorporation between totally extraordinary offices for Research and development in innovation. innovation is doing okay abroad in countries like USA, UK, Singapore, Germany, China and so on as far as Research and development.

There has been imperative improvement towards the use of innovation in beauty care products, sustenance and materials. Nanomedicine keeps on being inside the Research and development organize and far reaching development is however not out of the ordinary and concentrated investigation is being led in hazardous speed. There is the likelihood that the eventual fate of nanotechnology is splendid, that this will be the one exploration without bounds that no other science can live without. There is likewise a shot this is the science that will make the world very awkward with the potential energy to change the world. One of the best concerns with respect to the fate of Nanoscience incorporates sub-atomic assembling, which would be the capacity to breathe life into materials from the basic sub-atomic recreation of regular items.

The fate of nanotechnology could enhance the viewpoint for medicinal patients with genuine ailments or wounds. Doctors could hypothetically think about nano surgery and have the capacity to assault disease and damage at the sub-atomic level. This, obviously, could annihilate growth as the surgical techniques would be done on the cell base. The eventual fate of nanotechnology could incorporate the utilization of Nanorobotics. These nanorobots can possibly go up against human assignments and additionally errands that people would never total. The modifying of the exhausted ozone layer might possibly be performed.

 

Why to attend?

With members from around the world focused on learning about Nanotechnology engineering and Nano medicine this is your single best opportunity to reach the largest assemblage of participants from all over the world. Conduct demonstrations, distribute information, meet with current and potential customers, make a splash with a new product line, and receive name recognition at this 2-day event.

World-renowned speakers, the most recent techniques, tactics, and the newest updates in fields Nanotechnology and engineering, Medical Nanotechnology, tissue engineering are hallmarks of this conference. Nano World-2018 is an exciting opportunity to showcase the modern technology, the new products of your company, and/or the service your industry may offer to a broad international audience. It covers a lot of topics and it will be a nice platform to showcase their recent researches on Nanotechnology, Material Science and other interesting topics.

INTENDED AUDIENCE

The report is especially intended for entrepreneurs, investors, venture capitalists, and other readers with a need to know where the nanotechnology market is headed in the next 5 years. Other readers who should find the report particularly valuable include nanotechnology marketing executives and government officials associated with the National Nanotechnology Initiative and other state-level programs that promote the development of the nanotechnology industry. The report’s findings and conclusions should also be of interest to the broader nanotechnology community.

World-renowned speakers, the most recent techniques, tactics and the newest updates along with the Future era of Nanotechnology

Target Audience:

 Nano Science and Nano Technology Researchers

 Nano Science and Nano Technology Faculty

 Nano Science and Nano Technology Associations and Societies

 Business Entrepreneurs

 Training Institutes

 Global Nano Science and Nano Technology Companies

 Nano Science and Nano Technology Investors

 Exhibitors and Sponsors

Come be Part of it...!

Market Analysis

Nanoscience involves the study of phenomena and manipulation of matter on a nanometre scale and development of a wide range of tools, objects, structures, devices, systems and techniques of nanotechnologies. This is a fast-growing area of research and development. It is widely predicted that the nanotechnologies will become a central focus for driving economic growth in the 21st century. These fields are attracting rapidly increasing investments from governments and from businesses across the globe. The aim of the current UK Strategy for nanotechnologies is to describe the actions necessary to ensure that the UK obtains maximum economic, environmental and societal benefit from nanotechnologies while keeping the risks properly managed (EPSRC).

 

Nanotechnology has the ability to solve problems associated to human civilizations, pertaining to both basic needs and aspirations for a comfortable life. Although nanotechnology involves the manipulation of matter on an atomic, molecular and supramolecular scale, the specific technological goal is of precisely manipulating atoms and molecules for fabrication of macro scale products, also now referred to as molecular nanotechnology. Nanotechnology is evolving towards becoming a general-purpose technology by 2020, encircling four generations of products with increasing structural and dynamic complexity such as Passive nanostructures, active nanostructures, nano systems, molecular Nano systems.

            Recent research study, "Nanotechnology Market Outlook 2017", RNCOS' analysts have identified that the global nanotechnology industry has been growing at a rapid pace with rising applications in sectors like electronic, energy, healthcare sector etc. In addition, market trends like nanotechnology-based thin film solar cells with high efficiency; nanomaterials with higher strength; robust growth in nanofibers and nanomedicine market; etc., are booming growth in this industry. Considering the above factors, the global nanotechnology market is anticipated to grow at a CAGR of around 19% during 2013-2017.

Product

Global market

Compound annual growth rate

Year

Million

Year

  Quantum dots

          $610.0

           2016

          41.3%

       2016-2021

   Nanofibers

          $276.0

           2014

          38.6%

       2015-2021

 Carbon nanotubes

          $158.6

           2014

          33.4%

       2014-2019

 Nanofilteration membrane

          $215.5

          2014

         15.6%

       2014-2019

  Nanocomposites

          $225.0

          2014

         21.1%

       2014-2019

The U.S. consumed more than $3.1 billion worth of advanced and nanoscale ceramic powders in 2010. Consumption is projected to increase to nearly $3.4 billion in 2011 and $5.4 billion in 2016, a projected compound annual growth rate (CAGR) of 9.9% between 2011 and 2016. Molecular Diagnostics market is likely to grow at healthy CAGR between 2016 and 2021.
Nanotechnology has been the greatest incentive to technological and industrial development in the 21st century and has been recognized as the resource for the next industrial revolution. The evolving technology has already influenced a significant impact of industrial segments, and the economic activity generated from it has been high in magnitude and wide in scope. The nanotechnology-based products, which have had an enormous impact on almost each industrial sector, are now entering the consumer market in a big way.

In this report, the analysts have studied the nanotechnology market by application, by component and by region. On the application front, they have analyzed nanotechnology use in electronics, energy, cosmetics, medical and defense sector. In addition, they have covered the current nanotechnology market and forecast for each of the above-mentioned segments till 2017. In terms of component, the nanotechnology market can be segregated into nanomaterials, nanotools and nanodevices. The report covers their present and future shares in the market.

Further, country level analysis discusses nanotechnology market in major countries like USA, Germany, France, the U.K., Russia, etc., the present key growth drivers, and future directions for each nation. In addition, it covers the nanotechnology patent analyses, including number of patent publications and global top assignees of nanotechnology patent literature.

 

Besides this, the report covers the global R&D funding for the nanotechnology industry, including break-ups for corporate, public and venture capital funding along with their forecasts. The report even covers country-level analysis of R&D funding to provide in-depth understanding about investment related to nanotechnology.

The nanotechnology global market report

The nanotechnology market reports consist of two large areas: commercial and research community.

 

The number of schools and colleges that offer attractive programs in nanotechnology is increasing, we are providing the list of the most successful nanotechnology engineering schools in the world based on their dedication to research, education, facilities, and industrial cooperation. 

Best Nanotechnology Schools or Universities in the world

  • SUNY Polytechnic Institute
  • Cornel University
  • University of Michigan
  • Rice University
  • University of Virginia
  • The University of North Carolina at Chapel Hill (UNC)
  • Purdue University

Best Nanotechnology Schools or Universities in USA

  • University of pennsylvania
  • Johns Hopkins University
  • Caenegie Mellon University
  • Stevens Institute of Technology
  • University of Washington Seattle Campus
  • University of Minnesota Twin Cities
  • University of Denver

Best Nanotechnology Schools or Universities in Hawaii

  • University of Hawaii

 

Total nanotechnology companies

The markets for nanotechnology products and nanotechnology uses are set to grow in the coming years. Nanotechnology uses include everything from more efficient drug delivery systems to tiny transistors that allow for smaller and more powerful computer chips.

Major nanotechnology companies in USA

  • Nanoscaffold
  • Nanolabs
  • Nanosonic
  • Nanoxplore
  • Alligiance nano solutions
  • Qudos technologies
  • NEI corporation
  • Nanocraft
  • SmallTech
  • Tarveda therapeutics
  • CytImmune
  • DNA medicine institute
  • Invitrogen
  • Luna innovations
  • Novira therapeutics
  • MagArray
  • Nanobio
  • Nanospectra
  • Nanoviricides
  • Parvus therapeutics

Major nanotechnology companies in Europe

  • Kelvin nanotechnology
  • Cristal therapeutics
  • Nanobiotix
  • Oxonica
  • Biomerieux
  • Ademtech
  • Baikowski
  • Flamel technologies
  • Marion technologies
  • Nanolane
  • Soitec
  • Surfactis technologies
  • Nanoident

Major nanotechnology companies in Asia

  • Beijing nano sunshine technologies
  • Fullerene international corporation
  • Hitachi high technologies
  • Nanometal global
  • Arc flash corporation
  • Advanced nanotechnology limited
  • Velbionanotech
  • Nanochem
  • Nanogist

To Collaborate Scientific Professionals around the World

Conference Date June 06-07, 2018

Speaker Opportunity

Supported By

1. Journal of Nanomedicine & Nanotechnology

2. Journal of Nanomaterials & Molecular Nanotechnology

3. Journal of Nanomedicine & Biotherapeutic Discovery

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