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22nd International Conference on Graphene, Carbon Nanotubes and Nanostructu...

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22nd International Conference on Graphene, Carbon Nanotubes and Nanostructures

About the Conference

We take great pleasure and feels esteemed in welcoming the contributors over the globe to attend “22nd International Conference on Graphene, Carbon Nanotubes, and Nanostructures” is to be held at Berlin, Germany during September 17-18, 2018, which includes prompt keynote presentations, Oral Talks, Poster presentations and Exhibitions. Conference is organized around the theme: “Launching Carbon into the World of Nanotechnology”.

Conferenceseries organizes a conference series of 3000+ Global Events with over 600+ Conferences, 1200+ Symposiums and 1200+ Workshops in USA, Europe & Asia with support from 1000 more scientific societies and publishes 700+ Open access journals which contain over 30000 eminent personalities, reputed scientists as editorial board members.

It aims in bringing together world-class professors, researchers, scientists and students across the world to discuss about the current developments that are taking place in the field of Carbon. Graphene & Carbon Materials are designed in such a way to provide diverse and current research that will provide an in-depth analysis in that field. The 22nd International Conference on Graphene, Carbon Nanotubes, and Nanostructures is organized with a theme of “Launching Carbon into the World of Nanotechnology” with an objective to encourage young minds to overcome the challenges in the research field of Material Science by providing an opportunity to meet the experts.


Track 1: Graphene Modification and Functionalization

Chemical functionalization of graphene enables the material to be processed by solvent-assisted techniques, such as layer by layer assembly, spin coating, and filtration. Hexagonal boron nitride is electrically insulating, combined with graphene and other 2D materials to make heterostructure devices. The two-dimensional graphene sheet structures for field emission of electrons due to the carrier mobility and electron mass. The filed emitter by using multi-layered graphene nanostructure, the graphitic structure of pristine graphene and the carbon nanotube is the driving force of their interaction. The combination of graphene with carbon nanotubes to produced hybrids increased electrical conductivity, mechanical properties, and high surface area.

Track 2: Graphene Synthesis

The best way to synthesize graphene is by the process of chemical method. The Mechanical exfoliation method is possibly the technique to attain single and few layered graphene products from natural graphite by recurrent peeling/exfoliation. Chemical vapor deposition method has procedures for making thin continuous films with thickness control in micro-electronics. Plasma Enhanced Chemical Vapor Deposition (PECVD) synthesize larger part of graphene on copper foils using spin coated PMMA films. Graphene heterostructures are synthesized on cobalt substrates by means of the molecular beam epitaxial growth.

Track 3: Applications of Graphene in Energy

Graphene enhanced lithium ion batteries could be more beneficial for advanced energy usage applications such as in smartphones, laptops and tablet PCs. Graphene is cost-effective, flexible and extremely efficient for photovoltaics devices due to its outstanding electron-transport properties and carrier mobility. Single or few layered graphene with less agglomeration, shows higher surface area and improved supercapacitor. In hydrogen storage, hydrogen plays an important role in energy carriers. As a fuel it is light weight, comprises high energy density and produces no-harmful chemical by-products, hydrogen considered as a green energy.

Track 4: Graphene and 2D Materials based Nanocomposites

Graphene based composites is currently popularized on an enormous scale. These graphene-based composites are increasing constantly, and they are available in market for their use as tennis rackets, to bikes, to skis. The execution of such materials is not almost identical to that of immaculate graphene sheets, that are measured at the nanoscale, which excellently go around settled materials, for example, steel, silicon, or copper. A significant description behind this discrepancy in properties is that it is not yet entirely seen how two-dimensional (2D) - based composites work at the nanoscale level (mechanical, electrical, and so on.) when they are fused into a mass material.

Track 5: Emerging Trends in the field of Graphene Nano

Graphene has been extensively exploited as a part of numerous applications in the current decade because of its excellent properties, that include extensive surface-to-volume proportion, exciting optical properties, outstanding electrical conductivity, high bearer portability, high transporter thickness, high warm conductivity, room temperature Hall impact, ambipolar field-impact attributes, high flag to-clamor proportion, and importantly high mechanical quality. It is a two-dimensional (2D) planar sheet of sp2-fortified carbon molecules stuffed thickly in a honeycomb like cross section. The huge scale engineering of graphene is by the help of Concoction Vapor Affidavit (CVD). A few substance alterations, biomolecular immobilization and Nano composite arrangement techniques have also been formed.

Track 6: Carbon Nanotubes and Graphene

Graphitated Carbon Nanotubes are the novel hybrid materials that combines graphitic foliates produced with sidewalls like bamboo style Carbon Nanotubes (CNTs). It has high surface area with 3D outline of CNTs joined with high edge density of graphene. Chemical modification of carbon nanotubes (CNT) are covalent and non-covalent alterations owing to their hydrophobic nature and expand their adhesion to a bulk polymer via chemical bonding. Applications of the carbon nanotubes (CNT) include composite fiber, cranks, baseball bats, Microscope probes, supercapacitor, and useful in the fields of tissue engineering, energy storage etc. Nanotubes are characterized as single-walled and multi-walled nanotubes with associated structures.

Track 7: Semiconductor Materials and Nanostructures

By alloying multiple compounds, some semiconductor materials are tunable that results in ternary, quaternary compositions. Applications of semiconductors materials are optoelectronic, solar cells, Nano photonics, and quantum optics. Fabrication of cellulose Nano-structures via Nano Synthesis is a direct conversion of TMSC layers into cellulose via a Nano-sized focused electron beam as used in scanning electron microscopes.

Track 8: Graphene-like 2D Materials

The initial two-dimensional (2D) material that was revealed is graphene during the year 2004. 2D Materials which are referred to as single layer materials, are the crystalline materials that involves only single layer of atoms. Since the isolation of graphene, a huge research was carried out in segregating other 2D materials owing to their distinct features and their wide applications in photovoltaics, semiconductors, electrodes and water purification. Research on these materials has increased more hastily than that of graphene since 2010.The global marketplace for 2D materials is predictable to reach USD390 million within an era, generally for graphene in their applications as semiconductor materials, electronics, batteries and composites markets.

Track 9: Graphene Nano in Energy and Storage

Graphene based Nanomaterials have abundant promising applications in vitality associated zones. Graphene enhances both energy limit and charge rate in rechargeable batteries; Enacted graphene makes dominant super capacitors for energy stockpiling. Graphene terminals is going to be the prominent methodology for creating sunlight-based cells that are economical, lightweight and adaptable. Likewise, the multifunctional graphene mats are promising substrates for synergist frameworks. The prominent energy associated areas where graphene will have an effect in sun powered solar cells, supercapacitors, lithium-particle batteries, and catalysis for energy units.

Track 10: Carbon Nano chips and Nanostructures

Carbon is one among those materials that can stick itself to its shape to a greater degree solid two-dimensional (2D) sheets. In this three-dimensional world, these sheets can be rolled and collapsed into several three-dimensional structures. The ball-formed fullerenes and the tube-shaped nanotubes are familiar among the three-dimensional (3D) structures. Other possible structures are carbon nanocones and Swiss cheddar like nanoporous carbon.

Market Analysis

Graphene, Carbon Nanotubes, and Nanostructures

(Theme: Launching Carbon into the World of Nanotechnology)


Nanomaterials (Graphene, carbon nanotube & nanostructures) is an international, interdisciplinary journal which publishes articles covering both basic and applied research on Nanomaterials and related materials. Nanomaterials research takes a materials science-based approach to nanotechnology, leveraging advances in materials metrology and synthesis which have been developed in support of microfabrication research. Materials with structure at the nanoscale often have unique optical, electronic, or mechanical properties. Papers published cover all fundamental and technological aspects of synthesis, characterization, properties, devices and generic applications of these materials.

Graphene, the two-dimensional crystal of carbon, has many extraordinary properties and characteristics which are either unique or surpass those of other materials. The fundamental properties of Graphene are making it an attractive material for a wide variety of applications. The uptake of Graphene will be driven by confidence in its performance and progress in its production with properties appropriate for specific application. A semiconductor is a substance, usually a solid chemical element or compound that can conduct electricity under some conditions but not others, making it a good medium for the control of electrical current.

Importance & Scope:

Graphene is the thinnest strongest material in nature. This element is important because it may function as conductors, semiconductors, as well as insulators. Fullerene, Graphene, and graphite are a few of the most important allotropes of carbon that exist in Nano scale dimensions, and all three have unique physical, material, and chemical properties. Electricity flows very quickly through the simple honeycomb sheet. Most conductors we encounter are metals, yet Graphene is based on carbon, a nonmetal. Semiconductor devices can be mainly used to display a range of useful properties such as passing current more easily in one direction than the other, showing variable resistance, and sensitivity to light or heat.Graphene-2017 covers the area of Graphene and Graphene oxide, Graphene like 2-D materials, production and forms of Graphene, Semiconductor materials, Semiconductor technologies, Emerging areas of semiconductors, Mechanics and behavior of Graphene and Semiconductors, Industrial Applications of Graphene and Semiconductor.

The global carbon nanotubes market size is expected to reach 15.10 kilotons by 2022. In terms of value, the market size was USD 3.43 Billion in 2016, and is likely to reach USD 8.70 Billion by 2022, at a CAGR of 17.09% during 2017 to 2022. The demand for carbon nanotubes has been increasing rapidly in applications such as field emission displays, integrated circuits, hydrogen storage, lithium batteries, solar PV cells, fuel cells, drug delivery, and so on. Increasing commercialization; ramping up of installed capacities; and technological advancements to bring down prices, improve quality, and develop more advanced products are the trends in the carbon nanotubes market. Currently, R&D is being undertaken for capturing new applications, including food materials, glass ceramic, structural steel, agriculture, and hair color. The constant increase in feasibility of potential applications for carbon nanotubes will keep the demand ticking upwards during the forecast period.

The carbon nanotubes market is segmented based on application into electronics & semiconductor, advanced materials, chemical & polymers, batteries & capacitors, energy, aerospace & defense, medical, and others. The electronics & semiconductor segment is expected to grow at the highest CAGR during the forecast period of 2017 to 2022. The CNTs offer unique electrical properties for building electronic devices such as field effect transistors and diodes. These are also used to form a p–n junction diode by polymer coating and chemical doping. Furthermore, CNT based diodes can potentially disperse heat out of the computer chips due to their unique thermal transmission properties.

The Asia Pacific carbon nanotubes market is expected to grow at the highest CAGR during the forecast period, which can be attributed to the rising demand for carbon nanotubes from economies of the Asia Pacific region, including India, China, South Korea, Vietnam, Taiwan, and Singapore, among others. The robust demand in Asia Pacific is the major driving factor for the global carbon nanotubes market. China will lead the demand for carbon nanotubes due to its increased industrial production. It is also among the largest consumers of carbon nanotubes at the global level.

Most of the industrial carbon and graphite materials are synthesized form carbonaceous precursors. But also natural graphite is an important raw material. The majority of natural graphite is still consumed for refractory applications. However its use as anode material in lithium-ion batteries is fundamental for electro-mobility.

Many physical properties of graphite are not yet sufficiently used. Better use and new, huge fields of application can be generated with Nano forms of the element carbon. This comprises fullerenes, single- and multiwall nanotubes, Graphene and other Nano forms. Most promising fields of application are in electronics, sensor technology, medical and also mechanical applications.

Why Berlin :

Berlin is the capital and the largest city of Germany as well as one of its 16 constituent states. It has a population of 3.7 million. In the terms of population, Berlin is the Second most populous city in the European Union and the seventh most populous urban area in the European Union.

Berlin is rich in history, Culture and Science. Berlin is a worldwide city of culture, governmental issues, media and science. Its economy depends on cutting edge firms and the administration part, including a different scope of inventive enterprises; investigate offices, media companies and tradition scenes. Berlin fills in as a mainland center point for air and rail activity and has a very mind boggling open transportation arrange. The city is a mainstream traveler destination. Significant businesses likewise incorporate IT, pharmaceuticals, biomedical designing, clean tech, biotechnology, development and hardware.

Modern Berlin is the home for many universities, orchestras, museums, entertainment venues and is host to many sporting events. The city is well known for its festivals, diverse architecture, nightlife, contemporary arts and a high quality of living.Moreover the market of Biopolymers is very rich in Germany for Europe followed by Italy and France.

Why to attend?

Graphene, Carbon Nanotubes, and Nanostructures 2018 International Conference is a premier forum to showcase the latest results in the science and technology of Graphene & carbon materials, with an emphasis on combination of graphene with carbon nanotubes as well fundamental physical and chemical concepts to applied research focusing on the next generation carbon-based devices.


World Coal Association

European Carbon Association

The Carbon Capture & Storage Association (CCSA)

The Graphene Council

International Association of Advanced materials

Ensilica’s Industry Associations

Nanotechnology Industry Association

Graphene Stakeholders Association




Top Managers (CEOs, CMOs, Vice-Presidents, Directors, GMs)

Practitioners (Brand Specialists, Heads of Marketing)

PhD students

MBA/ M.Sc. Students

Please contact the event manager Marilyn (marilyn.b.turner@nyeventslist.com ) below for:
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