ConferenceSeries llc Ltd is overwhelmed to announce the commencement of 2nd World Congress on Advanced Materials and Nanotechnology, which is to be held during September May 27-28, 2022 at Montreal, Canada
On this great gathering, Organizing Committee invites participants from all over the globe to take part in this annual conference with the theme “Exploring the Possibilities in the Field of Advanced Materials and Nanotechnology”. NANOTECH-2022 aims at sharing new ideas and new technologies amongst the professionals, industrialists and students from research areas of Advanced Materials and Nanotechnology to share their recent innovations and applications and indulge in interactive discussions and technical sessions at the event. The Conference will also have a space for companies and/or institutions to present their services, products, innovations and research results.
NANOTECH-2022 and Material Science involves the tracks like Advanced Materials and Functional Devices, Engineering Materials,Composite Materials, Magnetism & Multiferroism, Optical materials and plasmonics, Energy and Harvesting Materials, Nanotechnology-Basics to applications, Nanopore science, Nanomedicine, Bio Nanotechnologies, Carbon nanostructures and graphene, Spintronics, Nanoparticle synthesis and applications.
Importance and Scope
Advanced Materials plays a vital role in our lives because of its uniqueness in properties and extended application in various industries. These are the basis of modern science and technology. Advanced Materials are at the heart of many technological developments that touch our lives and find applications such as electronic materials for communication and information technology, biomaterials for better health care, sensors for intelligent environment, energy materials for renewable energy and environment, light alloys for better transportation, materials for strategic applications and more.
Nanotechnology is science, engineering, and technology conducted at the nanoscale, which is about 1 to 100 nanometers. Nanotechnology is the study of application of extremely small things and can be used across all the other science fields, such as chemistry, biology, physics, materials science, and engineering. Today's scientists and engineers are finding a wide variety of ways to deliberately make materials at the nanoscale to take advantage of their enhanced properties such as higher strength, lighter weight, increased control of light spectrum, and greater chemical reactivity than their larger-scale counterparts
Why to attend
2nd World Congress on Advanced Materials and Nanotechnology professionals providing a premier technical forum for reporting and learning about the latest new generation technologies developed during the course of time along with discussing their applications. Events include hot topics presentations from all over the world and professional networking with industries, leading working groups and panels.
Meet Your Objective Business sector With individuals from and around the globe concentrated on finding out about Polymer science and Engineering, this is the best chance to achieve the biggest collection of members from everywhere throughout the World. Conduct shows, disperse data, meet with current, make a sprinkle with another product offering, and get name acknowledgment at this occasion. Widely acclaimed speakers, the latest methods, strategies, and the most up to date overhauls in Polymer science and Engineering are signs of this meeting.
Research Scholars and students
Advanced Materials and Nanotechnology Engineers
300+ Participation (70 Industry: 30 Academia)
5+ Keynote Speakers
50+ Plenary Speakers
14 Innovative Educational Sessions
Benefits of Participation for Speaker
Worldwide appreciation of the profile of Researchers.
Obtain credits for professional growth. Explore the latest of cutting edge analysis.
Make long-term bonds at social and networking activities.
An ability to advertise one page in the distribution of abstract books and flyers that ultimately gets 1 million views and adds great value to your research profile.
Learn a transition beyond your area of interest to learn more about new subjects and studies away from your core subject of Nanotechnology.
We have distinctive networking, learning and enjoyable integration into a single package.
Benefits of Participation for Delegate
Professional Development-Improve understanding and knowledge.
Attendance at conference supports, rejuvenates and energises delegates.
Your involvement in our conference will help with a new methodology and ideology that can be used to broaden the outcomes of businesses or industries.
Opportunities for Nanotechnology researchers and experts in the same field to meet and exchange new ideas through an conference.
Benefit of Participation for Sponsor
Exposure to the international environment would increase the possibility of new companies.
Opportunity to demonstrate your company's latest technologies, new products, or service your business to a wide range of international participants.
Increase business by our conference participants through lead generation.
It takes a lot of time, effort and drive to create a successful company, so it's always nice to have a network of colleagues and associates to draw energy from individuals who share a common drive and objective.
Conferences in Nanotechnology provide opportunities for more attention and contemplation that could help you move your company to the next stage.
Benchmarking main organization plans and moving it forward. Get feedback from trustworthy people at our conference to your company questions and challenges.
On our conference banner, website and other proceedings, branding and marketing content, the advertising logo of your company.
Benefit of Association for Collaborators
Nobody has this massive visitor to Nanotechnology in the world; this is the best forum to highlight society.
Creating long-lasting peer relationships.
In our conference banner, website and other proceedings, branding and marketing material, promotional content and your Organization logo will increase your number of subscribers/members by 40%.
The exposure of our event to your Company listing in the Global Business forum will have a great effect on your association.
Your representatives can network to update their knowledge and understanding of your organisation and services with key conference delegates.
Nanotechnology advertising materials such as posters, brochures, pamphlets, services that will be circulated to hospitals, universities, society and researchers will be integrated with information.
Young Researchers Forum-Young Scientist Benefits
Young Research’s Awards at Nanotech-2022 for the Nomination: Young Researcher Forum - Outstanding Masters/Ph.D./Post Doctorate thesis work Presentation.
Young Scientist Benefits
Our conferences provide best Platform for your research through oral presentations.
Share the ideas with both eminent researchers and mentors.
Young Scientist Award reorganization certificate and memento to the winners.
Young Scientists will get appropriate and timely information by this Forum.
Platform for collaboration among young researchers for better development.
Award should motivate participants to strive to realize their full potential which could in turn be beneficial to the field as whole.
For Scientific Sessions please go through the link:
For Abstract Submission please go through the link:
Track 1: Materials Science and Engineering
Materials Science and Engineering is an accepted scientific discipline that has grown to include polymers, ceramics, glass, composite materials and biomaterials in recent decades. Technology and engineering of materials, includes the exploration and creation of new materials. Some of the most important technological challenges faced by humans today are due to the limitations of the available resources, and as a result, major breakthroughs in materials science are expected to have a profound effect on the future of technology. Scientists of materials lay emphasis on understanding how a material's past affects its structure, and thus its properties and results.
• Computational materials science
• Engineering applications of materials
• Modern materials need
• Global materials science market
• Teaching and technology transfer in materials science
• Graphene Technology
Track 2: Nanomaterials and Nanotechnology
Nanotechnology is the atomic, molecular and supramolecular-scale handling of matter. The fascinating thing about nanotechnology is that as the size scale of their dimensions exceeds nanometers the properties of several materials change. Materials scientists and engineers are working to understand those improvements in properties and use them at nanoscale stage in the production and manufacturing of materials. The field of materials science includes nanoscale materials discovery, characterization, properties, and use. Work on nanomaterials takes a science-based approach to nanotechnology, affecting developments in the metrology and synthesis of materials that have been developed to support work on microfabrication. Nanoscale-level materials with structure have special optical, electrical, or mechanical properties.
• Nano/Meso-Structured Carbon Materials
• Nanostructured Materials
• Functional Nanomaterials
Track 3: Advanced Materials and Nanotechnology
Advanced materials described to refer to all materials representing advancements over conventional materials used thousands of years ago. Smart materials, semiconductors, biomaterials, and nanoengineered materials include advanced materials. Advanced Materials Research focuses on the study of novel building materials used in IT, effective mechanical engineering, space engineering, medicine, and other areas. Nanodevices have a huge impact in increasing pollution control, improving human health and longevity, producing food and converting energy. These are crucial enablers that will allow humanity to harness the ultimate technological capabilities of mechanical, magnetic, electronic, and biological systems.
• Advanced Engineering Materials
• Advanced Functional Materials
• Advanced Energy Materials
• Advanced Healthcare Materials
• Advanced Optical Materials
Track 4: Biomaterials and Medical Devices
From a healthcare perspective, biomaterials can be characterized as materials that have some novel properties that make them suitable for immediate interaction with the living tissue without causing any adverse reactions to immune rejection. Biomaterials are natural or synthetic, alive or lifeless and typically consist of multiple components which interact with biological systems. Biomaterials have served mankind since ancient times but subsequent evolution has made them more flexible and increased their use. Biomaterials have changed the fields such as bioengineering and tissue engineering to establish strategies to combat diseases that endanger life. Similar principles and techniques are used to treat different illnesses, such as heart failure, fractures, deep skin injuries, etc. Work is being carried out to develop the current procedures and to invent new approaches. Biomaterials and Medical Devices interact indirectly with biological systems. Biomaterials can be inserted in medical applications to replace or restore the missing tissue.
• Bio inspired materials
• Biomedical devices
• Biomedical devices
• 3D printing of organs and tissue
• Biomimetic materials
• Biomedical Applications of Nanoparticles
Track 5: Smart Materials and Applications
Smart materials are materials with one or more properties that can be dramatically altered by external factors such as electric or magnetic fields, heat, moisture, light, temperature, pH, or chemical compounds in a controlled technique. Smart materials are also called sensitive or reactive materials. The Smart materials applications include sensors and actuators, or artificial muscles, particularly as electroactive polymers.
• Renewable smart materials
• Smart materials and structures
• Graphene-based smart materials
• Smart Functional Nanoenergetic Materials
• Smart building materials and structures
• Smart biomaterials
• Smart Materials and Structures
Track 6: Ceramic Materials
A ceramic is an inorganic non-metallic solid made up of either metal or non-metal materials, often crystalline oxide, nitride or carbide, formed and then heated to high temperatures. Ceramic materials are brittle, strong, compressive and stiff in shearing, stress and resistant to corrosion. Ceramics demonstrate very strong covalent (and/or ionic) bonding. Oxides, nitrides, and carbides are the main compositional groups in engineering ceramics. Engineering ceramics are used to produce components in various tappet heads, industrial industries, electronic devices and turbochargers etc. for applications.
• Ceramic Cutting Tools
• Ceramic Films and Coatings
• Ceramic Lasers
• Advanced Ceramics
Track 7: Glass Science and Engineering
Glass is the most transparent non-crystalline material and has broad practical, technical and decorative applications in window frames, tableware, optics and optoelectronics. Container glass and ordinary glazing are made from a particular form of glass called soda-lime glass, consisting of roughly calcium oxide, 75 percent silicon dioxide, sodium carbonate oxide and some minor additives. Glass can be colored by adding metallic salts, and vitreous enamels can also be painted and printed.
• Optical lens design
• Glass and Optical Materials
• Amorphous Materials
• Optical devices
• Glass physics
• Glass chemistry
Track 8: Polymer Science and Technology
Polymer science or macromolecular science is a subfield of polymer-related materials science, mainly synthetic polymers, such as plastics and elastomers. The polymer science field includes researchers from many disciplines including chemistry, physics, and engineering. Polymer manufacturing used in the areas of electronics and electrical products, textiles, aerospace, automotive, etc. Polymer Technology's recent advances have advanced the field of material science, through the use of polymer-based substances from electrical engineering, electronics, and construction materials to packaging materials, fancy decoration products, automotive, etc.
• Smart Polymeric Materials
• Hybrid organic-inorganic materials synthesis, sol gel formation
• Dendritic polymers
• Ring-opening metathesis polymerization
Track 9: Surface Science and Engineering
Surface science and engineering was used to research chemical and physical processes occurring at the two-phase interface of solid-gas interfaces, solid-vacuum interfaces, liquid-gas interfaces, and solid-liquid interfaces. Surface science and engineering, including tribology, but with a particular focus on friction, wear, coating and surface modification processes such as surface treatment, coating, machining, polishing and grinding. The science involves concepts like self-assembled monolayers, heterogeneous catalysis, and fabrication of semi-conductor structures, fuel cells, and adhesives.
• Interfaces and thin films
• Nanostructured materials
• Surface engineering, modification and functionalization.
Track 10: Computational Materials Science
Computational materials research requires computational methods to solve interconnected problems with the materials. Specific mathematical models are available to examine issues on various length and time scales that help to explain the nature of material structures and how these structures efficiently regulate material properties. At the electronic point, Density Functional Theory (DFT) is a popular computational technique while atomic simulation methods Molecular Dynamics (MD) and Monte Carlo (MC) are considered preferred tools. Phase-field Process (PFM) is used routinely on micron and mesoscale (between micro and Nano) regimes for materials problems.
• Computational materials science and chemistry
• Statistical/artificial intelligence methods, numerical techniques
• Expert systems, genetic algorithms, neural networks
• Process system design, engineering/materials/technological design.
Track 11: Graphene Technology
Graphene is the first 2D substance in the world, and it is the most versatile, thinnest and strongest substance. Graphene is a specific type of carbon that can better conduct electricity and heat than anything else. Graphene is basically a single layer of graphite, a sheet of bonded carbon atoms sp2 arranged in a hexagonal (honeycomb) lattice.
• Graphene and fullerenes
• Graphene and ultra-tin 2D materials
• Graphene 3D printing
• Graphene the Ultra-Capacitor
• Graphene devices
Track 12: Carbon and 2D Materials
Carbon products take many forms from graphene, black carbon, activated carbon, fullerene, graphite, carbon fiber, nanotube, and diamond. Such types vary significantly in the method of operation, structure, properties and manufacturing. Such carbon types are applied to natural, mechanical, electromagnetic, electrochemical, and biomedical applications. 2D Materials also known as single-layer materials are crystalline materials composed of one single atom layer. The applications of photovoltaic materials, semiconductors, electrodes, and water purification.
• Carbon nanotubes
• Uses on carbon Nanotubes
• Growth, synthesis techniques and integration methods
• Carbon nanotubes and grapheme
Track 13: Green Technologies
Green materials are local and regenerative materials. Local materials are special to the area and bind whatever people in a region make. Products such as stone, cement, and sand are green products from the earth. Plant materials like bamboo, grasses, wool, and wood are also materials that have been used by humans since construction started.
• Green Technology & Alternative Energy
• Green building materials
• Green technology application in construction thesis
• Green technology architecture
Track 14: Electronic, Optical and Magnetic Materials
Electronic materials are types of materials that are usually used as key elements in a variety of applications for electronics. For daily electronic gadgets such as smartphones, GPS systems, LED bulbs, cell phones, and computers, laptops, TVs, and monitors, these components can be Lights, images, screens and can be seen easily. Changing dimensions and level of functionality require ongoing efforts to develop state-of-the-art materials to meet the technical challenges associated with these devices' growth.
Optical materials are substances used for controlling the flow of light. This can involve reflecting, absorbing, focusing or splitting an optical beam. The efficacy of a particular material at each function is highly dependent on wavelength, so it is important to better understand the relationship between light and matter.
Magnetic materials are primarily materials which are used for their magnetic properties. A substance may be defined as a reaction to an applied magnetic field as diamante, paramagnet, ferromagnetic or antiferromagnetic.
• Electronic Materials and Devices
• Quantum Materials
• Nanofabrication and Processing
• Point Defects, Doping and Extended Defects
Track 15: Metallurgical and Materials Engineering
Metallurgical and Materials Engineering educates students about the verticals of different metals' physical and chemical properties. This research mainly deals with all sorts of metal related areas. The course covers Hydrometallurgy, Mechanical Metallurgy, Steel Heat Treatment, Welding Metallurgy, etc. Using metallurgy, the metals are isolated from their ore. It also concerns the chemical, physical, and atomic properties and structures of metals and the principles by which alloy-forming metals are mixed. The metallurgical sciences are divided into chemical metallurgy and physical metallurgy.
• Hydro Metallurgy
• Phase Transformations
• Physical Metallurgy
• Metal Forming and Mechanical Behavior
• Materials Joining
Track 16: Nanostructured And Structural Materials
Nanostructured materials are solid materials in the order of a few nanometers, with at least one characteristic structural dimension. In contrast to its optical, electronic, magnetic, or chemical characteristics, structural materials are used or studied mainly for their mechanical properties. These may involve a material reaction to an applied force, whether it's an elastic or rigid reaction, stiffness and strength. A nanostructure is an intermediate size between molecular and micro-structures.
• Gradient multilayer nanofilm
• Magnetic nanochains
Track 17: Bioinspired Materials and Systems
Bioinspired materials are synthetic materials whose structure, properties and properties are those of natural or living materials. Bioinspiration is the creation of new materials, structures, and tools that are inspired by biological processes and biological evolution related solutions. Bio-Inspired Materials and Systems bring a diverse group of complementary researchers together to develop functional, programmable, and responsive materials for deployment in soft robotic systems.
• Bio-inspired Materials and Sensing Systems
• Bioinspired materials and surfaces for green science
• Biological and bioinspired materials
• Bioinspired Materials for Medical Applications
• Bio-Inspired Material Design and Optimization
• Bioinspired self-healing materials
Track 18: Synthesis and Catalysis
Catalysis is the process of increasing the rate of a chemical reaction by using a catalyst. Catalysts are not consumed in the reaction and thus remain unaffected by it. Often, only a trace amount of catalyst is required. Catalysts generally react with one or more reactants to form intermediates that then give the final reaction product, regenerating the catalyst in the process.
• Chemo-enzymatic Catalyst
• Synthetic Chemistry
• Quantum Chemistry
• Enzyme Catalysis
Materials science is developed bit by bit each day. Materials Science Conference is associate degree acclaimed subject, the sector of innovation that envelops the vary of materials assortments and also the best approach to utilize them in making and increasing in recent decades to surround polymers, ceramics, glass, composite materials and biomaterials. The world automotive interior materials market is calculable to be USD 46.63 in 2018 and is projected to grow at a CAGR of three.5% to succeed in USD 55.41 billion by 2023. The event in showcase is evaluated to be driven by the increasing interest for aerogel materials from oil and gas and development applications. The North yank space remains the largest market, trailed by Asia-Pacific. The Europe showcase is evaluated to be development at a permanent rate thanks to monetary recovery within the space aboard the increasing worry for the building protection and vitality reserve funds. The U.S. Bureau of Labor Statistics (BLS) produces yearly wage gauges for quite 800 individual occupations. Recently discharged figures for 2012 place BLS Code 19-2032 (a word connected gathering close materials researchers) in 82nd place in yearly wages. The gathering, which contains seven, 970 representatives the state over, denote a standard yearly pay of $89,740.
The worldwide market is anticipated to achieve $6,000 million by 2020 and enlist a CAGR of 10.2% within the section of 2015 and 2020 as way as esteem. Increased properties, for instance, high weakness life, top quality and modulus, diminished weight, acoustic protection, associate degree erosion resistance have prompted to a growth within the request. Unpredictability within the crude material prices and non-recyclable nature of composites represent a unprecedented risk within the development of the market.
Market Growth of Material Science Research in the last and upcoming ten years:
The worldwide savvy glass showcase is needed to develop from USD 2.34 Billion out of 2015 to USD 8.13 Billion by 2022, at a CAGR of nineteen.2% within the neighborhood of 2016 and 2022.The worldwide material market was prestigious at $149 million in 2015, and is needed to achieve $1,387 million by 2022, developing at a CAGR of 39.7% amid the gauge time-frame. The worldwide marketplace for metallurgy elements and powder shipments was 4.3 billion pounds (esteemed at $20.7 billion) in 2011 and developed to regarding four.5 billion pounds ($20.5 billion) in 2012. This market is relied upon to realize five.4 billion pounds (an estimation of regarding $26.5 billion) by 2018.
Planning a Trip to Montreal, Canada!!! Attending Meeting!!!
An issue with VISA!! Nanotech Committee will be happy to help you in all regards to plan your trip to Montreal, Canada. Avail the official invitation letter from us to attend this event ahead with a closer step for approval of your VISA.
Find out what you need to do to visit Canada as a tourist or business person, how to extend your stay in Canada and what documents you need to carry with you to transit through Canada.
Canada does not have a visa office in every country so it is important that Delegates/Attendees visit the website of the visa office responsible for processing their visa applications. Information is available on the website on how to submit a visa application and the documentation required.
Delegates/Attendees are encouraged to submit their visa applications well in advance of the date of the event at a Visa Application Centre or on-line E-applications (e-Apps).
This system allows clients to submit applications online.
Delegates/Attendees that need a visa but require their passport for other travel purposes are strongly encouraged to submit their visa applications online (e-Apps). Delegates/Attendees that choose to apply online will not have to submit their passport until a decision has been taken on their applications. If required, the visa office will send the applicant instructions on how and where to send their passports to finalize the visa process.
Visa Application Centers (VACs):
VACs are commercial service providers authorized by Canada to provide specific services to applicants. VACs provide a number of services including help applicants fill out forms, answer questions and ensure that applications are complete, thereby reducing unnecessary delays or refusals due to incomplete applications.
Applicants that are required to provide biometrics information as part of the visa application process can do so at a VAC. Additional information on the biometrics requirements is available at the IRCC website.
VACs send applications to Visa Offices and transmit decisions to applicants in a secure and confidential manner. VACs do not process visa applications and play no role in the decision-making process.
Visa Applications Processing Time:
Processing time for visa applications vary depending on the office and the time of the year. Participants should be encouraged to apply early for their visas, and to submit complete applications including all supporting documents.
Please visit the IRCC website for information on the time it takes to process visa applications at the various visa offices.
NEW - Electronic Travel Authorization (eTA)
As of March 15, 2016, visa-exempt foreign nationals are expected to have an Electronic Travel Authorization (eTA) to fly to or transit through Canada. Exceptions include U.S. citizens and travelers with a valid Canadian visa. Canadian citizens, including dual citizens and Canadian permanent residents are not eligible to apply for an eTA.
However, from March 15, 2016, until fall 2016, travelers who do not have an eTA can board their flight, as long as they have appropriate travel documents, such as a valid passport. During this time, border services officers can let travelers arriving without an eTA into the country, as long as they meet the other requirements to enter Canada. We invite you to consult the IRCC website regularly for information updates on eTA.
Thanks for attending NANO TECH CON-2022!
Another Materials Science Conference has been successfully completed - The 1st edition – and we must say Thanks to the attendees, and the Organizing Committee and everyone else that helped to make this World Congress on Advanced Materials and Nanotechnology with the theme: Synergy to Rehabilitate the Innovations in Material Science a successful conference.
We hope that you obtained the kind of advance technical information in the arena of Materials Science and Nanotechnology that you were seeking, and that your role in the field has been enhanced via your participation. We hope that you were able to take part in all the sessions and take advantage of the tremendous advancements in Materials Science and Engineering that scientists are working with.
The meeting covered various sessions, in which the discussions included the scientific tracks:
• Material Science and Engineering
• Nanomaterials and Nanotechnology
• Biomaterials and Medical Devices
• Materials for Green Technology
• Polymers Science & Nano Engineering
• Electrical, Optical, and Magnetic Materials
• Catalysis Materials
• Nanoengineering and its Applications
• Ceramics, Glasses & Composite Materials
• Functional Materials • Pharmaceutical Nanotechnology
• Nanomaterials in Safety and Regulations
The Keynote and Speaker presentations were given by:
• "A.Krishna sailaja", Osmania Uiversity, India
• Shahid ullah, S Khan Lab, Mardan, Khyber Pakhtunkhwa, Pakistan
• Amardeep kaur, Punjabi University, India
• Shivani R Padnya, Parul University , India
Bookmark your dates:
We hope to see you at NANO TECH CON-2022 @Montreal, Canada, during May 27-28, 2022