EuroSciCon Conference on

Nanoscience and Technology

Theme: Nanoscience and Nanotechnology: An Innovative Future

Event Date & Time

Event Location

Tokyo, Japan

18 years of lifescience communication


Performers / Professionals From Around The Globe

Tracks & Key Topics

Nanoscience 2019

About Conference

The EuroSciCon will be organizing EuroSciCon Conference on Nanoscience and Technology, conference focus on Advancements & Future of NanoSciences from  November 25- 27, 2019 in Tokyo, Japan. The theme of this year’s meeting is Nanoscience and Nanotechnology: An Innovative Future

What's New

EuroSciCon Conference on Nanoscience and Technology offers a best stage with its proficient legitimate program to the social event of individuals which consolidates instinctive board discoursed, keynote addresses, all-hands gatherings and notice sessions on the topics Nanophysics Nanochemistry, Materials Sciences, Carbon Nanotechnology, Biosurface engineering, Optical Devices, Nano dentistry, Nanodiagnostics, Nanoscience and Technology in the 21st Century, new coherent approaches to managing overall managerial measures. Nanotech, Companies and Market Analysis, The get-together invites delegates from associations associated with nanotechnology, Academicians, Clinicians, Engineers, Researchers, Health mind specialists, understudies, business operators and Young authorities over the globe giving a predominant stage, interconnecting the latest research, creative enhancements in the field and furthermore helpful viewpoints.

Target Audience:

   Why To Attend

  • Share your research discoveries with others in your field
  • Realize what others in the field are doing can prompt new thoughts
  • Meet others in your field-can prompt new open doors for community-oriented endeavours
  • Have a fabulous time! Gatherings are not all business. There are generally chances to associate with your companions and on the off chance that you mastermind your excursion designs suitably you might have the capacity to tour previously or following the meeting.
  • Grow as a researcher and presenter
  • Get feedback on your research
  • Meet and become acquainted with your companions
  • Gain perceivability in your field.

About Tokyo

Tokyo, once in the past (until 1868) Edo, city and capital of Japan. It is situated at the head of Tokyo Bay on the Pacific shore of focal Honshu. It is the focal point of the tremendous metropolitan region regularly called Greater Tokyo, the biggest urban and mechanical agglomeration in Japan.

The metropolitan zone is the biggest modern, business, and monetary focus in Japan. Numerous local and universal money related organizations and different organizations are headquartered in focal Tokyo. The city is an essential discount focus, where merchandise from all parts of the nation and the world are dispersed. Tokyo is a piece of the Keihin Industrial Zone, focused on the western shore of the narrows, which has turned into the nation's driving assembling area. Light and work concentrated ventures prevail in the city, strikingly printing and distributing and the fabricate of electronic gear.

Tokyo is Japan's major social focus. Showcases portraying the workmanship and history of Japan and Asia are included at the Tokyo National Museum in Ueno Park. Ueno Park is likewise the site of a science historical center, a zoological garden, and two noteworthy craftsmanship exhibition halls. Workmanship and science exhibition halls are found near the Imperial Palace, and historical centers of different kinds are found somewhere else in the city. Dramatic works, including everything from conventional Kabuki to current dramatization, are performed consistently, as are symphonic works, musical dramas, and other Western types of move and music. The University of Tokyo heads an extensive rundown of real colleges and schools in the metropolitan territory.

Session and Tracks

Track1: Nanoscience and Technology

Nano Science is an innovation-led at the Nanoscale. It is the applications and study associated with small things that can be utilized around the various fields of science, similar to biology, designing, physics, chemistry and Materials sciences. These particles have the capacity to control single atoms and molecules. Nanotechnology has a gigantic potential to give technological explanations for various issues in science, vitality, material science, conditional and medicinal fields.

Track 2:Nanophysics

Any dense issue frameworks whose somewhere around one (out of three) measurement is of the request of nanometer can be considered as nanoscale framework. Nanoscience and nanotechnology are tied in with relating and abusing wonders for materials having one, a few measurements diminished to the nanoscale.

Track 3: Nanochemistry

Nanochemistry is the fusion of chemistry and nanoscience. Nanochemistry is related with the construction of building blocks which are reliant on size, surface, shape and deformity properties. Nanochemistry is being utilized in substance, materials and physical, science and additionally in engineering, natural and therapeutic applications.

Nanochemistry can be portrayed by ideas of size, shape, self-get together, faults and bio-nano; So the blend of any new nano-build is related with every one of these ideas. Nano-develop combination is reliant on how the surface, size and shape will prompt self-assembly of the building obstructs into the useful structures; they presumably have practical imperfections and may be valuable for electronic, photonic, restorative or bioanalytical issues.

Track 04: Materials Sciences

The interdisciplinary field of materials science, additionally regularly named as materials science and the building is the outline and revelation of new materials, especially solids. The scholarly sources of materials science come from the Enlightenment when scientists started to utilize diagnostic reasoning from science, material science, and designing to comprehend antiquated, phenomenological perceptions in metallurgy and mineralogy. Materials science still consolidates components of material science, science, and building.

Track 05: Pharmaceutical Nanotechnology

Utilization of biopharmaceutical thoughts to definition headway has disturbed framework for estimations shape plan. Nanotechnology has transformed into a central part of pharmaceutical sciences and finds different applications in calm movement systems in updating medicinal execution of solutions. An impressive parcel of the current "Nano" sedate movement systems are the group of customary estimations shapes like Nanosuspensions, Nanoemulsions and Nano micelles. Nanosuspension is an approach to manage passes on water-insoluble and deficiently bioavailable meds by diminishing size to submicron expand.

Track 6: Nanomaterials

Nanomaterials portray, on a fundamental level, materials of which a solitary unit is estimated (in no less than one measurement) between 1 to 1000 nanometers (10−9 meters) however normally is 1 to 100 nm (the standard meaning of nanoscale).

Track 7: Nano particles

Nanoparticles are particles somewhere in the range of 1 and 100 nanometers (nm) in measure with an encompassing interfacial layer. An interfacial layer is a necessary unit of nanoscale matter, on a very basic level influencing the majority of its properties. The interfacial layer regularly comprises of particles, inorganic and natural atoms. Natural atoms covering inorganic nanoparticles are known as stabilizers, topping and surface ligands, or passivating specialists. In nanotechnology, a particle is characterized as a little protest that operates the overall unit as for its vehicle and properties.

Track 8: Nanoelectronics and nanometrology

Nanoelectronics attributes to the utilization of nanotechnology in electronic segments. The term covers a various arrangement of dvices and materials, with the basic trademark that they are small to the point that between nuclear cooperations and quantum mechanical properties should be considered widely.

Nanometrology is a subfield of metrology, distressed about the art of estimation at the nanoscale level. Nanometrology has a critical aspect keeping in mind the end goal to produce nanomaterials and devices with a high level of precision and unwavering quality in nanomanufacturing.

Track 9: Micro/ Nano-fabrication, Nanopatterning, Nano Lithography & Nano Imprinting

Nanofabrication is the plan and produces of gadgets with measurements estimated in nanometers. One nanometer is 10 - 9meter, or a millionth of a millimetre.

Nanoimprint lithography is a technique for manufacturing nanometer scale designs. It is a basic nanolithography process with ease, high throughput and high goals. It makes designs by mechanical distortion of engraving oppose and ensuing procedures.

Track 10: Bio-Nanomaterials and biomedical devices, applications

Nanomaterials are being researched for use in new medicinal devices, for example, diagnostics and implantable gadgets, for example, stents and catheters. New nanotech-empowered medicinal gadgets expect to give the advantageous ongoing conclusion of illness that should be possible at a centre instead of at a research facility and in addition implantable devices that cause less irritability and have enhanced usefulness.

Track11: Nanotechnology: Environmental effects and Industrial safety

As nanotechnology is progressing, so is the augmentation for its business advancement. The broad assortment of potential things and applications gives nanotechnology its huge advancement prospects. Significant commitments are required to natural and atmosphere insurance from Nanotechnological devices, procedures and applications are relied upon to by sparing crude materials, vitality and water and by decreasing ozone-depleting substances and risky squanders.Utilization of nanomaterials guarantees certain ecological advantages and supportability impacts.

Track12: Nanobiomaterials

Nanostructured Materials for Biomedical Applications fills in as an uncommon source for the quickly developing biomaterials network on points at the interface of biomaterials and nanotechnology. The book covers a broad scope of points identified with the handling, portrayal, demonstrating, and uses of nanostructured therapeutic gadget materials and natural materials.

Track13: Nanoengineering

Nanoengineering is the process of engineering on the nanoscale. It bears its name from the nanometer, a unit of estimation equalling one billionth of a meter. Nanoengineering is to a great extent an equivalent word for nanotechnology, however, accentuates the building as opposed to the unadulterated science parts of the field.

Track14: Carbon Nanotechnology

Carbon nanotubes are allotropes of carbon with a round and hollow nanostructure. These barrel-shaped carbon atoms have abnormal properties, which are important for nanotechnology, hardware, optics and different fields of materials science and innovation. Attributable to the material's remarkable quality and solidness, nanotubes have been developed with the length-to-measurement proportion of up to 132,000,000:1, fundamentally bigger than for some other material.

Track15: Nanotechnology in Agriculture and Food Industry

Nanotechnology will upset horticulture and sustenance industry by novation new strategies, for example, exactness cultivating procedures, improving the capacity of plants to ingest supplements, more proficient and focused on utilization of sources of info, malady identification and control ailments, withstand ecological weights and compelling frameworks for preparing, storage and packaging.

Track 16: Molecular Nanotechnology

Molecular nanotechnology (MNT) is an innovation in light of the capacity to assemble structures to unpredictable, nuclear particulars by methods for mechanosynthesis. This is unmistakable from nanoscale materials. MNT would include joining physical standards shown by biophysics, science, different nanotechnologies, and the atomic hardware of existence with the frameworks building standards found in present-day macroscale plants.

Track17: Nano Computational Modelling

Improvement of Nanotechnology and making of Nanomaterials opened new points of view for various territories of industry. These materials clarify developed quality, sturdiness, biocompatibility, and can guarantee higher administration properties, dependability and frameworks.

Track18: Nano Fluidics

Nanofluidics is the investigation of the conduct, manipulation, and control of liquids that are kept to structures of a nanometer (ordinarily 1– 100 nm) trademark measurements (1 nm = 10−9 m). Liquids restricted in these structures show physical practices not saw in bigger structures, for example, those of micrometre measurements or more, on the grounds that the trademark physical scaling lengths of the liquid, (e.g. Debye length, hydrodynamic sweep) nearly correspond with the measurements of the nanostructure itself.

Track 19: Nanophotonics

Nanophotonics or nano-optics is the investigation of the conduct of light on the nanometer scale, and of the cooperation of nanometer-scale objects with light. It is a part of optics, optical building, electrical designing, and nanotechnology. It frequently (however not solely) includes metallic parts, which can transport and concentrate light through surface plasmon polaritons.

Track 20: Optics and Laser Technology

Optics and Lasers in engineering intent to arrange a universal symposium to the networking of data on the improvement and use of optical methods and laser innovation in engineering. Priority  is set on commitments managing the efficient utilization of strategies and gadgets, the assessment of results and improvements and upgrade of arrangements and new hypothetical establishments for Optical Metrology.

Track 21: Nanodevices and Nanosensors

Nanodevices are basic empowering agents that will enable humankind to abuse definitive innovative abilities of electronic, attractive, mechanical, and natural frameworks. Nanosensors are the substance or mechanical sensors that can be utilized to identify the existence of synthetic species and nanoparticles, or screen physical parameters, for example, temperature, on the nanoscale.

Track 22: Nanomedicine

Nanomedicine can be characterized as restorative utilization of nanotechnology. Nanomedicine ranges from the restorative uses of nanomaterials and organic gadgets, Nanoelectronic gadgets &biosensors and conceivable future utilization of sub-atomic nanotechnology. Nanomaterials can be functionalised to interface with organic atoms and structures as the span of nanomaterials is practically identical to most natural particles and structures.

Track 23: Future prospects of Nanotechnologies and commercial viability

Nanoscience and Molecular Nanotechnology is the new edges of science and development in Europe and around the world, working at the measure of individual particles. Top analysts and also policymakers by and large praise the focal points it would pass on to the entire society and economy: an extensive segment of them request the key part research would play in the quality creation method to make exploitable game plan of advancements by the European business inciting a choice of momentous applications, things, markets and beneficial pay sources.

Market Analysis

Generally, Japan has been extremely dynamic in the field of nanotechnology. In the fourteenth century the brilliant structure in Kyoto was assembled, later on when it was covered with gold leaf, the thickness of the covering was 100 nanometers. In spite of the fact that that procedure isn't utilized any longer, it represents that the Japanese are generally inventive and exact specialists. Japan has been among the main three nations in licenses and distributions in the field of nanotechnology, albeit recently Asian nations, for example, China and Korea are picking up the force outperforming Japan in many fields.

Market size of the Japanese nanotech part has run 29,6 billion euros in 2010 and is anticipated to develop broadly later on achieving 94,4 billion euros in 2020 and ought to be worth 188,9 billion euros in 2030.

Japan has delivered some vital advancements and improvements in the field of nanotechnology; creation of carbon nanotubes has greatly affected the zone and it has been the establishment for differing headings of advancement. Headways in Silicon carbide prompt viable semiconductors bringing littler PC gadgets with more noteworthy exhibitions. Encourage improvements have been done on Gallium arsenide utilized likewise for thin movies in sun-powered cells and finders; every one of those accomplishments can convey new specialities or real markets to Japanese organizations.

Regardless of the financial challenges that Japan is handling with, cutting-edge innovations have dependably been the main thrust of new chances and further improvement. Consistent innovative work on new advancements in particular nanotechnology can bring market advantage for creative organizations.

Recent Developments

The United Nations Office for Outer Space Affairs as of late worked together with the University of Tokyo keeping in mind the end goal to compose the United Nations/Japan Nano-Satellite Symposium that occurred somewhere in the range of October 10 and 13 this year in Nagoya, Japan. This symposium permits people associated with smaller scale and nano-satellite missions to take in more about the most recent mechanical advancements, applications and significant lawful and administrative issues and in addition to examining the systems for limit working in space innovation improvement.

Analysts at the Japan Atomic Energy Agency and NIMS have utilized a turn spellbound metastable helium shaft to distinguish the electronic turn condition of graphene reached an attractive metal anode. This work is pertinent to cutting-edge spintronics.

Nanotechnology Companies in Japan

  • Asahi Glass
  • Fujifilm
  • Hitachi High-Technologies
  • Hosokawa Micron Group
  • JEOL
  • JFE Steel
  • Nano-Optonics Energy
  • Nano Control Co., Ltd

Learn More


Nanotechnology Universities in USA:

College of Nanoscale Science and Engineering | Johns Hopkins University | Virginia Commonwealth University | University of Central Florida | University of California, Berkeley | Northeastern University | University of California, Irvine | University of Tennessee | Northwestern Polytechnic University | George Mason University | University of New Mexico | Northwest Missouri State University | Saint Francis University | Millersville University | University of Maryland | Virginia Tech | Penn State York | Stony Brook University | University of Pennsylvania | North Dakota State College of Science | University of Wisconsin-Stout | North Dakota State University | Mansfield University of Pennsylvania | University of California, Los Angeles | Wayne State University | University of Utah | Rutgers,  The State University of New Jersey | Stevens Institute of Technology | University of Denver | University of Central Florida, Shore light | Louisiana Tech University | University of Connecticut | University of Colorado Boulder | University of North Carolina at Greensboro | Arizona State University | Johns Hopkins University | University at Albany, The State University of New York  | University of Oklahoma  | University of Washington | University of Maryland, College Park  | University of Pittsburgh

Nanotechnology Universities in Europe:

Bangor University | University of Birmingham | University of Bristol | Cranfield University | University of Glasgow | Lancester University | University of Strathclyde | University of Surrey | Swansea University | Teesside University | Aalto University | Aarhus University | Barcelona University | University of Cambridge | Chalmers University of Technology | University College Dublin | University of Erlangen-Nurnberg | University of Greenwich | Grenoble Institute of Technology | Imperial College London | Linkoping University | National University of Ireland, Galway | National University of Science and Technology (MISIS) | University of Oxford | Politecnico de Torino | Politecnico de Milano | Queen’s University Belfast | Rovira I Virgili University | University College London (UCL) | University of Southampton | Technical University of Denmark | University of Twente | Ulster University | University of Valencia

Nanotechnology Universities in Asia and Middle East:

VIT University, India | Indian Institute of Science, Bangalore | IITs | NITs | Nano Science and Technology Consortium, Delhi | Hong Kong University of Science and Technology | Preston Institute Of Nanoscience And Technology (PINSAT), Islamabad | National University of Singapore (NUS) | Center of Excellence in Nanotechnology at AIT | College of Nanotechnology at KMITL | University Putra Malaysia | Sri Lanka Institute of Nanotechnology (SLINTEC) | The University of Tokyo | Tokyo Institute of Technology | Indian Institute of Nano Science & Technology Bangalore


Nanotechnology Societies in USA:

International Institute for Nanotechnology (IIN) | American Nano Society | International Association of Nanotechnology (IANT) | IEEE Nanotechnology Council | Institute for Molecular Manufacturing (IMM) | Microscopy Society of America (MSA) | Nano Science and Technology Institute (NSTI) | NanoBusiness Alliance | American Chemistry Council Nanotechnology Panel | International Council on Nanotechnology (ICON)

Nanotechnology Societies in Europe:

European Society for Precision Engineering and Nanotechnology (EUSPEN) | British Society for Nanomedicine | Nanotechnology Industries Association (NIA) | Royal Microscopical Society | Royal Society - Nanotechnology and Nanoscience | Institute of Nanotechnology | Schau-Platz NANO | Safenano | Innovationsallianz Carbon Nanotubes (Inno.CNT) | Czech Nanotechnology Industries Association | European Society for Molecular Imaging (ESMI) | Erwin Schrödinger Society for Nanosciences | National Institute for Nanotechnology

Nanotechnology Societies in Asia and Middle East:

Nano Technology Research Association | Russian Society of Scanning Probe Microscopy and Nanotechnologies | Nano Science and Technology Consortium (NSTC) | Centre for Nano and Soft Matter Sciences | National Centre for Nano-Structured Materials, CSIR | Institute of Nano Science and Technology | Iran Nanotechnology Initiative Council (INIC) | Sri Lanka Institute of Nanotechnology | National Nanotechnology Center (NanoTec) | National Center for Nanoscience and Technology


Nanotechnology Companies in Europe:

Ad-particles | Quick step Technologies | Deerac Fluidics | CS Instruments | Cordouan Technologies | Biokowski psb Industries | Fluigent Smart Microfludics | PLIN Nanotechnology| Auto Car Brands | Leblog auto | WTS Global | BR Automation | AGM Automation System Inc | AGI Automation Components | Aveni Collaborative Centre for Applied Nanotechnology | Silicon Biosystems | SCRIBA Nanotechnologies | Plasma Diagnostics and Technologies | Organic Spintronics | Mindseeds Laboratories | MBN Nanomaterialia S.p.A | Linari Biomedical | HiQ-Nano | Directa Plus | Digisens 3D Tomography Software Solutions | Russian Corporation of Nanotechnology (RCNT) | A.P.E. Research | Sandvik | Delphi Automotive | Reckitt BenckiserVoestalpine | Seagate Technology| Prysmian Group | Pernod Ricard| Tyco International |GKN | Rusal | Carlsberg Group| Norsk Hydro| Lanxess| DSM | Covidien | Novolipetsk Steel | Nornickel | Cr.E.S.T. - Crisel Elettrooptical Systems Technology | Digital Surf | Marion Technologies | ABCR supplies Lmtd | AIXTRON | Buhler | BASF | Bio Gate

Nanotechnology Companies in  USA:

Ade 10 Angstroms | Advance TEC | Aegis Techologies | Angstrom Engineering | American Dye Source, Inc. | Applied Nanotools Inc. | Advance Reproductions | Indigo Instruments | Klean Carbon | MCH nano soloutions | MFS Technologies Ltd | IMEMS | Advanced Diamond Solutions | AEB | Advanced Energy | Advanced optical technologies | Clemex Technologies Inc.| Cytodiagnostics Inc.| D-Wave Systems ADVANO | Advenira solutions | Delong  America group Inc. | Publications | Epoc Blood Analyst System | Innovative Bioceremix,Inc | 3D systems | 4WAVE | A&A coatings | A Beam Technologies | Accelrys(BIOVIA) | ACS Materials

Nanotechnology Companies in Asia and Middle East:

NOF CORPORATION | Showa Denko | Osaka | Taisei Kogyo | Digit Link | Gobiz Korea | BMVIT | AIT | Nanotech Enterprice SSV | KSU | Nano yo | Curiox Accelerating life Sciences | Liwei Nano | Micron | ATIP | F- Carbon | Fuji Xerox | Marubeni| Comtech Advanced | Amphenol | Alpha Casting | HSRE Work | ICAM | Precision Type | Bugatti |Aixam | SBEC | ATKINS Group | PACIFIC COAST | FM Global | ISAT | Candc Infrastructure | Proteck Coating | TE Connectivity | Salzgitter AG  |Atlas Copco  |UPM | Novo Nordisk Merck Group | Vedanta Resources |Ingersoll Rand | Stora Enso | Syngenta | Nanomaterials technology  Interation Point | Green Prophet | Proactive Investors | Innovation Kaust  |  Molecular Raber Design | Society of Petroleum Engineers | Knights Security | Nanotech | United Plastic Curtiss-Wright


Nano Letters | Journal of Nanoscience and Nanotechnology (JNN) | Nanotechnology | Encyclopedia of Nanoscience and Nanotechnology | NanoTrends | Journal of Nanophotonics (JNP)  | ACS Applied Nano Materials | ACS Nano | Advances in Natural Sciences: Nanoscience and Nanotechnology| American Journal of Nanomaterials | Applied Nanoscience | Artificial Cells, Nanomedicine and Biotechnology | Beilstein Journal of Nanotechnology | Bioinspired, Biomimetic and Nanobiomaterials | Biomedical Microdevices: bioMEMS and Biomedical Nanotechnology | Cancer Nanotechnology | Current Nanoscience e-Journal of Surface Science and Nanotechnology  | Environmental Science: Nano | European Journal of Nanomedicine (EJNM) | Fullerenes, Nanotubes and Carbon Nanostructures | Hans Journal of Nanotechnology | HSOA Journal of Nanotechnology: Nanomedicine & Nanobiotechnology | IEEE Nanotechnology Magazine | International Journal of Biomedical Nanoscience and Nanotechnology (IJBNN) | International Journal of Green Nanotechnology  | International Journal of Nano and Biomaterials (IJNBM) | International Journal of Nano Device, Sensor and Systems (IJ-Nano) | International Journal of Nano Dimension (IJND) | International Journal of Nano Studies & Technology | International Journal of Nanoelectronics and Materials (IJNeaM) | International Journal of Nanomanufacturing (IJNM) | International Journal of Nanomedicine | International Journal of Nanoparticles (IJNP) | International Journal of Nanoscience | International Journal of Nanotechnology | International Journal of Nanotechnology and Applications  | International Journal of Smart and Nano Materials | International Nano Letters | ISRN Nanotechnology | Journal of Biomaterials and Nanobiotechnology | Journal of Biomedical Nanotechnology (JBN) | Journal of Bionanoscience | Journal of Experimental Nanoscience | Journal of Geoethical Nanotechnology | Journal of Micro - Nano Mechatronics | Journal of Nano Education | Journal of Nano Research (JNanoR) | Journal of Nano- and Electronic Physics | Journal of Nanobiotechnology | Journal of Nanoelectronics and Optoelectronics (JNO) | Journal of Nanoengineering and Nanosystems | Journal of Nanomaterials | Journal of Nanomaterials & Molecular Nanotechnology (JNMN) | Journal of Nanomechanics and Micromechanics | Journal of Nanomedicine & Nanotechnology (JNMNT) | Journal of NanoneuroscienceJournal of Nanoparticle Research | Journal of Nanostructured Polymers and Nanocomposites (JNPN)  | Microfluidics and Nanofluidics | NANO | Nano Biomedicine and Engineering | Nano Hybrids and Composites | Nano LIFE

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A huge thanks to all our amazing partners. We couldn’t have a conference without you!

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A huge thanks to all our amazing partners. We couldn’t have a conference without you!