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Annual Conference on Nanoscience, Nanotechnology & Advanced Materials (cse)...

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Fairfield by Marriott Bali Legian

8C Jalan Sri Rama

Kuta, Bali 80361

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Annual Conference on Nanoscience, Nanotechnology & Advanced Materials



About Conference

We welcome every one of the members from everywhere throughout the world to go to “Annual Conference on Nanoscience, Nanotechnology & Advanced Materials" November 26-28, 2018 Bali, Indonesia'. Which incorporates incite keynote introductions, Oral talks, Poster introductions and Exhibitions. While much research and item advancement in industry is item arranged, it requires researchers with a grip of the establishments of science, innovativeness, the capacity to cooperate, and appreciate seeing the viable uses of their work. Nanoscience2018 covers every one of the parts of related field analysts, the gathering of Scientists, and understudies from all edges of the globe, meet up to examine about Nanoscience and its advances. Every session of the gathering will be incorporated with master addresses, blurb and exchanges, go along with us to plan reasonable improvement forms, developments by which and how these techniques drive new approaches, propels the business and human wellbeing security. We are happy to welcome you in the interest of sorting out board of trustees to go along with us, where you are the chief for future.

Nanotechnology2018 will also provide the excellent opportunity to meet experts, exchange information, and strengthen the collaboration among Directors, Researchers, Associate Professors, Nano science students, deans, researchers and Scholars from both academia and industry. Nanoscience and nanotechnology involve the ability to see and to control individual atoms and molecules. Everything on Earth is made up of atoms—the food we eat, the clothes we wear, the buildings and houses we live in, and our own bodies. But something as small as an atom is impossible to see with the naked eye. In fact, it’s impossible to see with the microscopes typically used in a high school science classes. The microscopes needed to see things at the nano scale were invented relatively recently—about 30 years ago.

ME Conferences conducts Novel conferences, Symposia and Workshops, concerning current international interest. ME Conferences want to serve the global information community in the development and distribution of high quality, scholarly conferences. It aim to support Global research communities, by empowering clusters of scientists to regularly meet and discuss topics with frontrunners in the field. These conferences cover diverse top ranked specialties and budding aspects of important and relatively broad subject areas. Organize conferences for knowledge sharing and providing global platform to explore and learn new researches in their respective fields

Why to attend???

With individuals from around the globe concentrated on finding out about Nanoscience and Nanotechnology. The Conference unites a portion of the most recent, most provocative research from around the globe. In a little and close setting, scientists and researchers from all edges of the world can trade thoughts, share discoveries and examine future joint efforts. This will deliver a more extensive universal information base and magnificent advances in the field of Nanotechnology. Widely acclaimed speakers, the latest systems, and the freshest updates in Addiction research and Therapy are signs of this meeting.

Target Audience:

The conference discusses the latest research outcomes and technological advancements in the field and brings together leading, scientists, research scholars, students along with industrial professionals to exchange share their views on critical aspects of polymer research. The event is designed in a way to provide an exclusive platform for new researchers, scholars and educators to present and discuss the most recent innovations, trends, and concerns, practical challenges encountered and the solutions adopted in the field of Nanoscience and Nanotechnology.Nanoscience-2018 will comprise leading keynote speakers, session speakers, poster presenters who will be presenting their research on the carbon Nanotubes, grapheme, solar cell, graphite, fullerene by using Nano Technology.

  • Addiction Researchers
  • Academics
  • Recovery Managers
  • Industrialist Counsellors
  • Scholars
  • Scientists
  • Cancer therapist
  • Researchers
  • Drug delivery therapist


Sessions and Tracks

Conference Series LLC Ltd invites all the members of Nano family, from all over the world to join and share research at the"Annual Conference On Nanoscience,Nanotechnology and Advaneced Materials"during 26-28 November, 2018 at Bali, Indonesia. Which includes prompt keynote presentations, plenary talks, oral talks, poster presentations and exhibitions.

Theme: “THE ERA OF NANO- Applications of Nano systems and Technology for Smart Innovations ”

Nano is providing a global platform to discuss and learn about Nano Sciences, Nanotechnology, Nano Biomaterial and Nano molecular science to exchange their knowledge, experience and research innovations. The aim of Nano science and Nano technology Conferences is to create a platform for strong exchange of the recent advancement and technologies towards Nano world.

Track 1.Advaned Nanomaterials

Nano material is the basic part of the nano science and nano technology.The complex functions of nanomaterials in systems require further improvement in the preparation and modification of nanomaterials. Such advanced nanomaterials have attracted a massive interest during recent years and will form the basis for further development in this area.

Track 2. Nanomaterials Fabrication, Characterization And Tools

Fabrication of nano materials consist of nano structured surfaces,nano particles,materials.

Fabrication of nano materials of 2 types.

  1. Top- down process-In this process nano materials are derived from a bulk substract and obtained by progressive removal of material until desired material is obtained.
  2. Buttom-up process-Here nano materials are extracted from the atomic precursor and gradually collecting it until the desired structure is formed.

The integration of top-down and bottom-up techniques is expected to provide the best combination of tools for nanofabrication at the end. Nanotechnology requires new tools for fabrication and measurement.

Track 3.Nano Sensors and NanoScale Electronics

Usage of nanotechnology in electronic component is called nanoelectronics which includes design, construction and applications of electronic circuits and devices on a nanometer scale. Nanoelectronics increase the capabilities of electronic devices such as improvising the display screens on electronics devices by reducing the weight and thickness of the screens and decreasing the consumption of power.Nanosensors carry information about nanoparticles. Many scientific breakthroughs in Nanotechnology has been contributed by Nanosensors. Different type of sensors are build from nanomaterials to detect range of chemical vapors, to sense bacteria or viruses, to detect single molecules to help pharmaceutical companies in production of drugs.

Track 4.NanoPolymer,Nanotubes and NanoPorous Material

A carbon nanotube is a tube-shaped material which is made of carbon with a diameter measuring on the nanometer scale. These are unique because the strong bonding between the atoms.Recently the most popular use for carbon nanotubes is in structural reinforcement.approches are being made using carbon nanotubes to extract power from sunlight and even as a heat source. Carbon nanotubes are unique in that they are thermally conductive along their length but not across the tube itself. This lets carbon nanotubes play a role on both sides of thermal insulation. Carbon nano tubes are also electrically conductive, which have potential to make an extremely cost effective replacement for metal wires. The semiconducting properties of nano tubes make them candidates for the next generation of computer chips.

Track 5.NanoGenerators And Piezoelectonics

The nano generetors have some components inside these whose structures are similar to nanowire made up of a piezoelectric ceramic material. Piezoelectric materials can generate an electric current just by being bent. In a space less than the width of a human hair hundreds of nanowires can be packed side by side. At this scale and with the combined flexibility of the nanogenerator's components, even the least movement can generate current. Nanogenerators are small in size but increasingly powerful as well as responsive.

Track 6. Nanocatalysis And Application in Chemical Industry

Both in homogeneous and heterogeneous catalysis ,the field of nanocatalysis has undergone an explosive growth during the past decade. Since nanoparticles have a large surface-to-volume ratio compared to bulk materials, they are attractive candidates for use as catalysts. The main aim of this research is to produce catalysts with low energy consumption,100 percent selectivity and long lifetime which includes the use of nanomaterials as catalysts for a variety of catalysis applications. Nanoparticles of semiconductors,metals, oxides and other compounds have been widely used for important chemical reactions.

Track 7.Nano Based Drug and Gene Delivery

Nanoparticles has a huge potential of delivering drug effectivly. Nanosystems with different compositions have been considerably investigated for drug and gene delivery purposes. The interactions of nanomaterials with the biological environment, drug release, multiple drug administration, stability of therapeutic agents and Several anti-cancer drugs including paclitaxel, doxorubicin is much needed. Nanomaterials comprising of peptide-based nanotubes are used to target the vascular endothelial growth factor receptor and cell adhesion molecules like integrins, cadherins and selectins, which is a new approach to control disease progression.

Track 8.Quantom Dots and Nano Magnetism

Quantum Dots and Magnetic Nanoparticles have lots of applications in analytical methods. Quantum Dots are semiconductor nanoparticles whose electronic energy levels are considerably controlled by the particle dimensions. This control comes about due to quantum confinement. QDs are useful as an analytical tool due to its unique optical properties. These optical properties consist of narrow emission spectra, broad absorbance spectra, emission wavelength which is adjustable by adjusting size of particle, high quantum efficiency and low photobleaching rates. MNPs are made of magnetite (Fe3O4) or maghemite (γ‐Fe2O3). These materials are typically superparamagnetic in the nanoscale range. The magnetic properties of these nanomaterials allow them to be manipulated by magnetic fields. the relatively low toxicity of iron oxides allow for their use in vivo applications.

Track 9.Diemensional Metrology of Nano Particle in Complex Media

The nanometrology growth focuses on issues related to the reliability and the comparability of measurements on nanomaterials. Atomic Force Microscopy (AFM) and Scanning Electron Microscopy (SEM) techniques are used in the metrology laboratories. Nowadays with the development of the SEM equipped with a field emission gun (FEG), where the resolution can achieve 1 nm whatever the accelerating voltage is. The calibration of the instrument allows the operator to make the measurements traceable. The choice of the measurement protocol is essential to achieve an accurate result. A metrological evaluation of each step is required.

Track 10.Internate of Nano Things(IoNT)

When the nanoscale devices connect internally with the existing communication networks then it is known as Internet of Nano-Things .IoNT is derived from the merged concept of IOT and NANO TECHNOLOGY which are considered as new revolution with a huge popularity in the world of modern wireless telecommunications. Nanomachines are the most basic functional unit which are able to perform simple task like sensing and is integrated by nano-components. Coordination and information sharing among several nanomachines will expand the potential applications of individual devices both in terms of complexity and range of operation.Things such as smartphones , tablets , RFID (Radio Frequency Identification) ,sensors etc play a major role in interacting with each other to do desired tasks. Internet of NanoThings consist of miniature sensors connected to each other via Nano networks to abstract data from objects.Hence Internet of Nano things will open new doors of research in the area of Nano Sensing, Nano Devices and Nano Communication. The Internet of Nano Things (IoNT) concept was proposed by Ian Akyildiz and Josep Jornet in the paper “The Internet of Nano-Things”. Major research challenges are presented by the scientist in terms of channel modelling, information encoding and protocols for nano networks and proposed Internet of Nano-Things (IoNT).

Track 11. Nanotech For Energy and Environment

Nanotechnology has a significant role in all corner of the energy and environment sectors. It is helpful in producing an efficient and cost-saving energy which also would be renewable.Some examples are solar cells which generates electricity at a competitive price,organic chemical pollution in ground water clean up,pollution free manufacturing of material,cleaning volatile organic compound in air and more.

Track 12.Nanomaterial For Clean and Sustainable Energy

Nanotechnology has developed a sustainable energy production scheme which is one of the most important scientific challenges of the 21st century. The challenge is to design, to synthesize and to characterize new functional nanomaterials with controllable sizes, shapes and/or structures.It is now one of the fastest growing research fields in the world and will hopefully head to the development of a renewable energy economy in which fossil fuel resources will only be used to produce more valuable chemicals. This vision is that energy, environmental and security problems created by the consumption of fossil fuels will be solved once and for all.

Track 13.NanoBiotechnology and NanoBioMedicine

The application of nanotechnology for the prevention and treatment of diseases is known as Nano medicine which belongs to the branch of medicine. Biocompatible nanoparticles and nano robots are applicable to diagnosis, delivery and sensing purposes in a living organism. Particles in nano scale have been used in maximum number to improve the drug accumulation, internalization and therapeutic efficacy.The physicochemical and biological properties of the nanoparticles can also be finely adjusted by tailoring their chemical properties, sizes, shapes, structures, morphologies, and surface properties. understanding the issues related to toxicity and environmental impact of nanoscale materials is Current problems for nanomedicine.

The objectives of nanobiotechnology are involvement in application of nanotools to relevant biological problems and Developing new tools such as peptoid nanosheets for medical and biological purposes. The imaging of native biomolecules, biological membranes, and tissues is also a major topic for the nanobiology researchers.


Track 14.Nanomaterial For Food Packaging

Due to the range of advanced functional properties nanomaterials are increasingly being used in the food packaging industry. Nanotechnology-enabled food packaging contains improved packaging ,active packaging and smart packaging. Few studies have been published regarding the potential interaction of nanomaterial-based food contact materials (FCMs) with food components. The migration of silver and copper from nanocomposites are used for their anti-microbial properties in food packaging. NMs have been primarily used as antimicrobials and improvement of barrier function.Both Of The applications aim to extend the shelf life of packaged food products. By including nanoparticles in a polymer matrix Barrier function improvements are obtained.It slows down the diffusion of gases into the food . NMs may also be used to create intelligent packaging, NMs can alert the consumer to the presence of microbes, chemical contaminants or gases indicating spoilage by smart packing .Nano materials( NMs) have been incorporated into polymeric packaging materials such as polyamides (PA), nylons, polyolefins, ethylene-vinylacetate copolymer, polystyrene (PS), epoxy resins, polyurethane, polyvinyl chloride (PVC) and polyethylene terephthalate (PET). Metal and metal oxide NMs (silver, gold, zinc oxide, silica, titanium dioxide, alumina and iron oxides), carbon based NMs and nano-sized polymers are most commonly used. the migration potential of NMs from food contact materials into food cannot be easily predicted because of its tiny size.

Track 15.Nanotechnology in Tissue And Regeneration

There is a direct communication between the CNS and brain which is established by neural interfaces.In natural interface different kind of biomedical device is implemented in human body that already have been developed to translate the brain processes into specific actions by the control of external devices.These interfaces develop a neurophysiological understanding and provide a clinical means for treatment of neurological symptoms and diseases. These could help increase the independence of disable people by which they can control various devices with their thoughts – not surprisingly, the other candidate for early adoption of this technology is the Millitary.Neural Interfaces or brain-machine interfaces (BMIs) can preserve the function of impaired neuronal tissues by translating nervous system signals into quantities that can be computationally understood.


Track 16.Nanotechnology Safety and Risks

Although the Infinite potential of nanotechnology is encouraging the safety risks of nanoparticles have not been fully recognised. The widespread state of nanoparticles is not a threat, but it is critical to weigh the opportunities and risks of nanotechnology in products and applications that may affect the environment.As particles are becoming smaller in size, the more reactive they ll be. As per increased reactivity the effects of a substance is harmful. Hence nanotechnology can make normally harmless substances assume hazardous characteristics. Nanoparticles’ large relative surface area also enables them to exert a stronger effect on their environment and to react with other substances.

Track 17.Nanotechnology For Water Treatment

Now-a-days Water pollution is a global problem for which we need to find a solution.Due to worldwide increased population and changing climatea best innovative water technology is required in order to ensure a pollution free global water and supply drinking water. Recently highly advanced nanotechnology offers new opportunities in technological developments for advanced water and wastewater treatment processes.There are two types of nanotechnology membranes that may be effective: nanostructured filters, where either carbon nanotubes or nanocapillary arrays provide the basis for nanofiltration and nanoreactive membranes, where functionalized nanoparticles aid the filtration process.


Track 18.Characterization and Modelling of Nano Structures And Devices

Modeling techniques and simulation currently play a significant role in characterizing nanocomposite properties and understanding their mechanical behavior via atomistic modeling, continuum mechanics-based approaches, and multiscale modeling techniques.Characterization of nanocomposites is aimed at gaining knowledge on their global response such as the displacement and stress fields at the boundaries of a representative volume element. The continuum mechanics approaches are adequate and sufficient for modeling nanocomposites within this scope. On the other hand more advanced approach for simulation of nanoreinforced materials is the multiscale modeling , for more elaborate analyses, where the molecular dynamics and continuum mechanics models are integrated in a computing environment. This approach, in turn can be detailed enough to account for the material physics at nanoscale while efficient enough to handle the field variables of interest at larger length scales.Concentrating on nanoreinforced composite materials and their applications, the main objective of this special issue is to provide a forum for exchanging the state-of-the-art and novel ideas in the field of modeling, characterization, and processing of these emerging materials.


Track 19.Mathematical Modelling In Nanoscience and Nanotechnology

The mathematical analysis of any new field is a compelling goal. We ll consider three themes which indicates some of the directions that increasing role might take: in bridging time and length scales, in fast algorithms and in optimization and predictability.Its solutions contain significant technical challenges .In a complementary way, mathematics and simulation would be enormously stimulated by the challenges of nanoscale modeling. While some rapidly developing areas of mathematics such as fast multipole and multigrid algorithms, are ready to apply in nanoscale modelling.

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Date and Time

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Fairfield by Marriott Bali Legian

8C Jalan Sri Rama

Kuta, Bali 80361

Indonesia

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