Global assembling of Academicians, Researchers, Scholars & Industry to disseminate and exchange information at 100+ Allied Academics Conferences

Exploring the New Advancements of Nanotechnology
- Advanced Nano 2017

Market Analysis

Nanotechnology ("nanotech") is manipulation of matter on an atomic, molecular, and supramolecular scale. The earliest, widespread description of nanotechnology  referred to the particular technological goal of precisely manipulating atoms and molecules for fabrication of macroscale products, also now referred to as molecular nanotechnology. A more generalized description of nanotechnology was subsequently established by the National Nanotechnology Initiative, which defines nanotechnology as the manipulation of matter with at least one dimension sized from 1 to 100 nanometers. This definition reflects the fact that quantum mechanical effects are important at this quantum-realm scale, and so the definition shifted from a particular technological goal to a research category inclusive of all types of research and technologies that deal with the special properties of matter which occur below the given size threshold. It is therefore common to see the plural form "nanotechnologies" as well as "nanoscale technologies" to refer to the broad range of research and applications whose common trait is size. Because of the variety of potential applications (including industrial and military), governments have invested billions of dollars in nanotechnology research. Until 2012, through its National Nanotechnology Initiative, the USA has invested 3.7 billion dollars, the European Union has invested 1.2 billion and Japan 750 million dollars.

Importance & Scope:

What is Nanotechnology? Nanotechnology is the manipulation of matter at the smallest scale (in the order of a nanometer) to produce enhanced products that are more durable, effective and economical. To explain the size in visual terms, one strand of human hair is 80,000-100,000 nanometers in width. Yes, it is that minute!! Nanotechnology researchers and engineers work at manipulating the structure of materials at the nanoscale level to alter their properties to make materials more durable, stronger and effective. 
Nanotechnology is a highly interdisciplinary field and  is considered to be a confluence of engineering, technology and pure sciences such as physics, chemistry, biology and material sciences. Students who are interested in pursuing a career in Nanotechnology must be willing to learn from different fields. 

The 2000s have seen the beginnings of the applications of nanotechnology in commercial products, although most applications are limited to the bulk use of passive nanomaterials. Examples include titanium dioxide and zinc oxide nanoparticles in sunscreen, cosmetics and some food products; silver nanoparticles in food packaging, clothing, disinfectants and household appliances such as Silver Nano; carbon nanotubes for stain-resistant textiles; and cerium oxide as a fuel catalyst. As of March 10, 2011, the Project on Emerging Nanotechnologies estimated that over 1300 manufacturer-identified nanotech products are publicly available, with new ones hitting the market at a pace of 3–4 per week.

Nanotechnology is being used in developing countries to help treat disease and prevent health issues. The umbrella term for this kind of nanotechnology is Nanomedicine.Nanotechnology is also being applied to or developed for application to a variety of industrial and purification processes. Purification and environmental cleanup applications include the desalination of water, water filtration, wastewater treatment, groundwater treatment, and other Nano remediation. In industry, applications may include construction materials, military goods, and Nano-machining of Nano-wires, Nano-rods, few layers of graphene, etc. Also, recently a new field arisen from the root of Nanotechnology is called Nano biotechnology. Nano biotechnology is the biology-based, application-oriented frontier area of research in the hybrid discipline of Nanoscience and biotechnology with an equivalent contribution

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.

Nanotechnology Research Worldwide:

Nanotechnology has been heralded as having the potential to lead to the next industrial revolution. Nanotechnology is one of the top-ranked subjects in the academic and research field. It is an enabling technology which generates new capabilities, products, markets and so on.

The global market for nanotechnology products was valued at $22.9 billion in 2013 and increased to about $26 billion in 2014. This market is expected to reach about $64.2 billion by 2019; a compound annual growth rate (CAGR) of 19.8% from 2014 to 2019.The global market for nanotechnology-enabled printing technology was estimated to total $14 billion in 2013. The market is expected to grow at a projected compound annual growth rate (CAGR) of 17.7% over the next five years to total $31.8 billion by 2018.

Notechnology Budget:

The 2016 Budget supports nanoscale science, engineering, and technology R&D at 11 agencies. Another 9 agencies have nanotechnology-related mission interests or regulatory responsibilities. Budget provides $1.5 billion for the nanotechnology, a continued investment in support of the priorities and innovation strategy. The investments in 2014 and 2015 and those proposed for 2016 reflect a renewed emphasis on accelerating the transition from basic R&D to innovations that support national priorities, while maintaining a strong foundation of broad, fundamental research in nanoscience that provides a continuing pipeline of new discoveries that will enable future revolutionary applications. This conference is focusing on all the major aspects in the fields of Nanotechnology. It would be beneficial for all the students and Researchers who ever willing to enter into corporate worlds targeting to the respective fields.

Target Audience:

Nanotechnology Students, Scientists

Nanotechnology Researchers

Nanotechnology Faculty

 Nanotechnology Colleges

Nanotechnology Associations and Societies

Business Entrepreneurs

Training Institutes

Manufacturing Medical Devices Companies

World-renowned speakers, the most recent techniques, tactics and the newest updates along with the Advances in the fields of & Nanotechnology and Nanotechnology.

Come be Part of it...!

Welcome Message

Allied Academies officially welcomes you to attend the 20th International Conference on Advanced Nanotechnology during September 11-12, 2017 at Amsterdam, Netherlands. Nanotechnology Conference 2017 conference will focus on the latest and exciting innovations in all areas of Nanotechnology and Nano medicine research offering a unique opportunity for investigators across the globe to meet, network, and perceive new scientific innovations.

Nanotechnology Conference 2017 highlights the theme “Exploring the New Advancements of Nanotechnology” which reflects the emerging progress being made in Nanotechnology research as discoveries in the lab are translated into treatments in an increasingly targeted and precise manner.

Allied Academies Global assembling of Academicians, Researchers, Scholars & Industry to disseminate and exchange information at 100+ Allied Academics Conferences

We look forward to see you @ Nanotechnology Conference 2017


Track 1:  Nano photonics

Nano-optics or Nanophotonics is the study of the behaviour of light on the nanometer scale and of the interface of nanometer-scale substances with light. It is a branch of optics, electrical engineering, optical engineering and nanotechnology. It frequently involves metallic components which can transport and focus light via surface plasmon polaritons..

Nano photonics | Nano Biotechnology | Nano Science and Technology | Nano medicine | Nano Robotics 

Track 2:  Nano Biotechnology

Nano-biotechnology is the term that refers to the juncture of nanotechnology and biology. This discipline supports to indicate the fusion of biological investigation with several fields of nanotechnology. Concepts that are enhanced through nano-biology are comprises with nano-devices, nano-scale and nano-particles phenomena that happens within the discipline of nanotechnology.

Nano Biochemical  Nano biodiversity |  Nano biotech |  Nano bioremediation  |  Nano medicine 

Track 3:  Nano Science and Technology

Nano Science is a technology directed at the Nano scale. It is the uses and study related to very small things that can be used in all the other fields of science like biology, physics, chemistry, engineering and Materials sciences. These particles have the capability to control single atoms and molecules. Nanotechnology has a vast potential to offer technological solutions to many complications in science, physics, energy, environment al and medical fields. 

Nano Science and Technology | Nano Biotechnology  | Nano medicine  | Nano fluidics | Nano mechanics 

Track 4 :Nano medicine 

Nano-medicine is the medical application in the field of nanotechnology. Nano-medicine varies from the medical applications of biological devices and nano-materials to nano-electronic bio-sensors and even probable future uses of molecular nanotechnology such as biological machines. However the recent problems for nano-medicine include accepting the issues related to toxicity and environmental impact of nano-scale materials.

Advances in Materials Science | Mining and Metallurgy | Energy materials | Synthesis and processing | Thermodynamics and kinetics 


Track 5:Nano mechanics

Nano mechanics is a branch of Nano science studying major mechanical properties of physical systems at the nanometer scale. Nano mechanics has developed on the crossroads of classical mechanics, statistical mechanics, solid-state physics, materials science, and quantum chemistry. As an area of nano science, nano mechanics offers a scientific foundation of nanotechnology. Nano mechanics deals with the study and application of major mechanical properties of physical systems at the nanoscale, such as thermal, elastic and kinetic material properties.

Nanofluidic circuitry | nanofluidic structures | Tuneable Microlens Array | Membrane Science | Microfluidic cell sorting and Analysis | Nanofluidic Devices for DNA Analysis 

Track 6: Nano-Robotics

Nanorobotics is an emerging technology field producing machines or robots which components are at or closer to the scale of a nanometre. More specially, nanorobotics refers to the nanotechnology engineering discipline of designing and constructing nanorobots, with devices ranging in size from 0.1–10 micrometres and made of nanoscale or molecular components. The terms nanobot, nanite , nanoid, nanomachine or nanomite have moreover been used to define such devices currently under research and development..

Nano photonics | Nano Biotechnology | Nano Science and Technology | Nano medicine | Nano Robotics 

Track 7: Nano Computing

Nanocomputing defines computing that uses very small, or nanoscale, devices (one nanometer [nm] is one billionth of a meter). The integrated circuits (IC) industry still looks to the future to regulate the smallest electronic devices possible within the parameters of computing technology.

Nano fluids Nanostructured materials |  Nanoporous  Materials and Devices Nanoparticles Synthesis  

Track 8: Nano Tribology

Nanotribology is the branch of tribology that studies wear, friction, adhesion and lubrication phenomena at the nanoscale, where atomic interfaces and quantum effects are not negligible. The aim of this discipline is characterizing and modifying surfaces for both scientific and technological purposes.

Advances in Materials Science | Mining and Metallurgy | Energy materials | Synthesis and processing | Thermodynamics and kinetics 


Track 9: Nanotechnology in Tissue Engineering

Tissue engineering is the usage of a group of cells, engineering and materials means and proper biochemical and physicochemical factors to rise or replace biological tissues. Tissue engineering includes the usage of a scaffold for the making of innovative feasible tissue for a medical purpose. While it was once categorized as a sub-field of biomaterials, having settled in scope, importance and it can be considered as a field in its own.

Nano photonics | Nano Biotechnology | Nano Science and Technology | Nano medicine | Nano mechanics 

Track 10: Molecular Nanotechnology

Molecular nanotechnology is a technology centred on the capability to build structures to complex, atomic conditions by means of mechanosynthesis. This is individual from nanoscale materials. Molecular nanotechnology would include combining physical ethics demonstrated by chemistry, biophysics, other nanotechnologies, and the molecular machinery of life with the systems engineering values found in recent macroscale factories.

Nanofluidic circuitry | nanofluidic structures | Tuneable Microlens Array | Membrane Science | Microfluidic cell sorting and Analysis | Nanofluidic Devices for DNA Analysis 

Track 11: 3D & Nanotechnology

3D printing was developed by a team led by Emanuel Sachs from Massachusetts Institute of Technology in the late 1980s. Also known as binder jetting, the method involves placing down a layer of a powder and then jetting a liquid binder on the areas to be solidified. While related to predictable ink jet printers, 3-D printers are capable to build further layers on top of previous ones to build 3-D objects, even refined objects that assist as medical implants. These 3D printing methods are reaching a stage where preferred products and structures can be made self-determining of the complexity of their shapes – even bioprinting tissue is currently in the realm of the possible.

Nano photonics | Nano Biotechnology | Nano Science and Technology | Nano medicine | Nano Robotics 

Track No: 12 Advanced Nanomaterials

Advanced Nanomaterials and Their Applications in Renewable Energy presents timely topics related to nanomaterials' feasible synthesis and characterization, and their application in the energy fields. In addition, the book provides insights and scientific discoveries in toxicity study, with information that is easily understood by a wide audience. Advanced energy materials are important in designing materials that have greater physical, electronic, and optical properties.

Nano fluids | Nanostructured materials |  Nanoporous  | Materials and Devices | Nanoparticles Synthesis 

Track No: 13 Material Science

Materials science and engineering, is a discipline which deals with the discovery and design of new substances. The research in material technological know-how includes in Transmission electron microscopy in cutting-edge substances technological know-how, advancements of materials technological know-how, Mining and metallurgy, power substances there are 50 universities and a marketplace to growth of 5.1% over the duration 2014-2019. The strength materials marketplace changed into predicted to be $7,292.eight million in 2014 and is projected to boom of 7.8% from 2014 to 2019.

Advances in Materials Science | Mining and Metallurgy | Energy materials | Synthesis and processing | Thermodynamics and kinetics 

 Track No: 14 Nano Fluidics

Nano fluidics is the study of the behaviour, manipulation, and control of fluids that are confined to structures of nanometre  (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 

Organizing Committee
OCM Member
S.Joseph Antony
University of Leeds
London, United Kingdom
OCM Member
Mary M. Eshaghian-Wilner
California South University
San Francisco, USA
OCM Member
Ramesh K. Agarwal
Washington University
michigan, USA
OCM Member
Surendra P. Shah
Northwestern University
Chicago, USA
OCM Member
Uri Nir
Bar-Ilan University
Israel, Israel
OCM Member
Daniel Bonn
University of Amsterdam
Amsterdam, Netherlands
OCM Member
Yoon-Bong Hahn
Chonbuk National University
Deokjin-gu, South Korea
OCM Member
Mato Knez
Barcelona, Spain
OCM Member
Liqiu Wang
University of Hong Kong
Kowloon Tong, Hong Kong
Scientific Program

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