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Renowned Speakers

Enric Stern-Taulats

Enric Stern-Taulats

Postdoctoral researcher University of Cambridge UK

John Kasianowicz

John Kasianowicz

University of South Florida USA

Nikolay N. Gerasimchuk

Nikolay N. Gerasimchuk

Matthew & Patricia Harthcock College of Natural & Applied Sciences Faculty Fellowship USA

Osman Adiguzel

Osman Adiguzel

Firat University, Turkey Turkey

Karl Ulrich Kainer

Karl Ulrich Kainer

Director Institute of Materials Research Germany

Nekane Guarrotxena

Nekane Guarrotxena

institute-of-polymer-science-and-technology-csic Spain

Saba Abdulghani Oliveira da Silva

Saba Abdulghani Oliveira da Silva

Senior Researcher, Coordinator of CHAIN Biobank Portugal

Hajo Dieringa

Hajo Dieringa

Helmholtz-Zentrum Geesthacht Germany

European Materials 2023

About

The organising committee for European Materials 2023 extends an invitation to all participants from around the world to attend the 6th European Meeting on Materials Science and Nanotechnology, which will take place in Zurich, Switzerland on June 27–28, 2022 and feature Keynote Presentations, Oral Talks, Poster Competitions, and Exhibitions.

"Exploring the Advancements in Materials Research and Nanotechnology" is the conference's theme. In order to share cutting-edge ideas and technological advancements, European Materials 2023 will bring together academics, businesspeople, and students from the fields of materials science and nanotechnology. Participants will discuss their current research projects and programmes, listen to insightful lectures, and participate in focused sessions. The Conference will also provide a space for businesses and institutions to highlight their services, goods, advancements, and research outcomes.

One of the main pillars of economic growth and social well-being in Europe and undoubtedly the sector as a whole is Materials Science & Nanotechnology. The goal of the convention is to support global study groups by enabling groups of professors, scientists, researchers, students, and business delegates to frequently interact and discuss issues with industry leaders. These conferences cover a variety of top specialties and emerging elements of important and fairly broad challenge areas. Organize conferences for the exchange of knowledge and to give a global platform for finding and researching new researchers in their particular fields.

Benefits of Attending European Materials 2023

  • To learn more about the major issues facing the Materials Science & Nanotechnology industry in general (and your particular area of interest in particular), as articulated by experts.
  • To network with organisations and individuals working on comparable major Materials Science & Nanotechnology issues.
  • To connect with folks you've established a relationship with through online networking platforms.
  • To get insight into the experiences of those who face difficult circumstances similar to yours.
  • To learn more about employment, temporary positions, missions, and other work-based competency outcomes.
  • To start relationships with people you may have met in person or through online meetings in addition to online gatherings

Why to attend?

Why to attend this Conference?

The primary objective of the European Materials 2023 Conference, which will be a prestigious event, is to network with colleagues in academia and business:

  • Panel Discussions & Speakers of Global Notoriety
  • Emerging Researcher Forum;
  • Interactive Poster Session;
  • Networking & Collaboration

Target Audience

  • Materials scientists, research faculty, and students, as well as physicists and chemists, as well as junior and senior fellows in materials science, nanotechnology, and polymer science
  • Members of several Materials technological associations;
  • Students studying materials science; 
  • Chemical company directors;
  • Materials engineers;
  • Polymer Businesses

Sessions/Tracks

Track 1: Material Science & Engineering

The field of technology known as "Material Science" deals with the structure, characteristics, performance, characterization, and method of materials that are related to their development or fabrication, such as metals, polymers, ceramics, and composites, among others. We will be able to understand the physical and chemical characteristics of cloth with the aid of fabric technology, which opens up a wide range of opportunities for fabric technology and engineering, particularly in the fields of rhetorical engineering, Nanotechnology, biomaterials, metallurgy, failure analysis, and research materials.

Materials Science Conferences | Materials Science Meetings | Materials Science Events | Nanotechnology Congress | Nanotech Conference

Track 2: Nano Scale Materials & Nanotechnology

Nanomaterial isn't really the final stage in the reduction of substances or particles in size. They frequently need for very specific manufacturing techniques. There are several "top-down" and "bottom-up" methods for producing different sizes of nanomaterial. While many nanomaterials are currently being produced in laboratories, nanotechnology, as defined by its size, is undoubtedly very broad and encompasses a wide range of technological fields, including floor technology, natural chemistry, molecular biology, semiconductor physics, electricity storage, micro fabrication, molecular engineering, etc. The associated studies and activities are also diverse, ranging from new approaches based entirely on molecular self-assembly to extensions of classical tool physics, to developing new materials with Nanoscale dimensions.

Nanotechnology & Materials Science Conferences | Nanotechnology & Materials Science Meetings | Nanotechnology & Materials Science Events | Nanotechnology & Materials Science Congress | Nanotech Conference

Track 3: Advanced Materials & Devices

This is The Creation of Advanced Materials at The Molecular or Nuclear Measure to Promote Innovation, Develop Similar Powerful Items, Make Novel Assemblage Advances, or Improve Human Learning. The ability to quickly and consistently put out several conductive layers with ultrafine willpower has led to the reduction and minimization of effort of the majority of microelectronic components. Within the HVAC, Building Controls, Energy Management, Energy Savings, Lighting Controls, and Wireless industries, Practical Devices has established itself as a pioneer.

Materials Engineering | Materials Science and Engineering | Engineering materials | Material Science | Advanced Materials in Civil Engineering | Advances in Materials Science and Engineering | Advanced Materials in Automotive Engineering | Electronic Materials | Nanotech Conference

Track 4: Batteries & Energy Materials

A tool such as an unmarried or a variety of chemical technology cells with outside connections supplied to electricity electronic devices like flashlights, cellphones, and electric cars can be considered an electric powered battery. When an electric battery is interested in electricity, the cathode is its active terminal and the anode is its passive terminal. The terminal with a poor signal is where electrons are delivered that, when connected to an external circuit, can power an external tool.
 
Materials partner degree power balances rectangle-shaped accounting tables that offer information on the material input into an economy that is provided by the natural environment, the transformation and use of that input in monetary activities (extraction, conversion, producing,

The fundamental tenet of physical physics is that matter (mass/power) cannot be created or destroyed by any physical process. The accounting ideas involved rectangular degree as their foundation. The United States of America wants to increase its efforts in developing materials and technology that focus on power generation, power harvesting, power conversion, and power storage.

Batteries and Energy Materials Conferences | Batteries and Energy Materials Meetings | Batteries and Energy Materials Events | Batteries and Energy Materials Congress | Nanotech Conference

Track 5: Bio Materials & Healthcare

From a medical perspective, biomaterials can be defined as substances with a few unique properties that enable them to immediately affiliate with the living tissue without inducing any unfavourable immune rejection reactions. Biomaterials have been in use by mankind for a long time, but subsequent evolution has increased their flexibility and improved their application. Biomaterials have transformed fields like bio engineering and tissue engineering to advance treatments for life-threatening diseases. These theories and techniques are being applied to the treatment of numerous conditions, including severe skin injuries, fractures, and heart failure. Research is being carried out to improve the currently used tactics and to develop novel new strategies. 

Materials Science Conferences | Materials Science Meetings | Materials Science Events | Conference Series

Track 6: ElectronicOptical & Magnetic Materials

The research in the field of electronic and magnetic materials combines the essential principles of stable-state physics and chemistry for the manufacture of materials science. Molecular interactions is another name for intermolecular interactions. Melting, unfolding, strand separation, and boiling are examples of changes in molecular interactions. Inflexible rotation and time dependency are the main characteristics of digital and magnetic materials. This is related to the computer simulation method to determine the physical interactions to have with atoms and molecules for a specific amount of time in order to create the device for evolution.

Material Science Conferences | Materials Electrochemistry | Advanced Materials Conference | Nanomaterials Conference

Track 7: Graphene & 2D Materials

The first 2D fabric to be isolated was graphene. Graphene and other two-dimensional materials have a long list of unique properties that have made them popular subjects for cutting-edge medical research and the development of technology solutions. These also possess enormous potential on their own or when combined with graphene. The exquisite physical properties of graphene and other 2D materials have the ability to both enhance existing technology and develop a number of cutting-edge programmes. A very wide range of mechanical, thermal, and electrical properties are available in pure graphene. Additionally, graphene can considerably improve a fabric's thermal conductivity, which improves heat dissipation.

Materials Science Conferences | Materials Science Meetings | Materials Science Events | Conference Series | Graphene and 2D Materials Conferences | Graphene and 2D Materials Meetings

Track 8: MetalsMiningMetallurgy & Materials

Material science is also very important in the field of metallurgy. The term "powder metallurgy" refers to a broad range of processes used to create materials or additives from metallic powders. They may lower prices and considerably reduce the desire to use metallic removal processes. Pyrometallurgy involves using heat to minerals, metallurgical ores, and concentrates to cause internal physical and chemical changes that make precious metal recovery possible. A thorough understanding of metallurgy can help us obtain metal more profitably and use it for a wider range of purposes.

Materials Science Conferences | Materials Science and Engineering Conferences | Materials Science Conferences USA

Track 9: MechanicsCharacterization Techniques & Equipments

Characterization, as used in materials science, refers to a more comprehensive process through which a fabric's properties and shape are examined and assessed. It is a crucial step in the field of materials research, without which no accurate medical information on engineering materials can be provided. The dimension of radiation depth is a characteristic of wavelength that is mentioned again in spectroscopy. The technical term for using microscopes to view devices that are invisible to the unaided eye is microscopy. Before using any substance, it may be very important to characterise and test it out. Fabric that has been properly tested may be more durable and flexible.

Materials Science Conferences | Materials Science Meetings | Materials Science Events | Conference Series | Mechanics Conferences | Mechanics Meetings

Track 10: Emerging Smart Material

The capability of a nation to harness nature as well as its ability to handle the challenges presented by it is determined by its total understanding of substances and its ability to widen and deliver them for various packages. Many technical advances that affect our daily lives are centred on advanced materials. Materials for strategic packages, mild alloys for higher transportation, optical and laser fibres for smart environment sensors, and electronic materials for conversation and record technologies are only a few examples. Due to their numerous uses and potential benefits for all of humanity, modern materials will play a significantly larger role in the years to come.

Emerging Smart Materials Conferences | Emerging Smart Materials Meetings | Emerging Smart Materials Events | Materials Science Conferences | Materials Science Meetings | Materials Science Events | Nanotech Conference

Track 11: Physics & Chemistry of Materials

The capability of a nation to harness nature as well as its ability to handle the challenges presented by it is determined by its total understanding of substances and its ability to widen and deliver them for various packages. Many technical advances that affect our daily lives are centred on advanced materials. Materials for strategic packages, mild alloys for higher transportation, optical and laser fibres for smart environment sensors, and electronic materials for conversation and record technologies are only a few examples. Due to their numerous uses and potential benefits for all of humanity, modern materials will play a significantly larger role in the years to come.

Materials Science Conferences | Materials Science Meetings | Materials Science Events | Nanotech Conference

Track 12: Surface Science & Engineering

The study of physical and chemical phenomena that appear at the interface of phases, such as solid-liquid interfaces, solid-fueloline interfaces, solid-vacuum interfaces, and liquid-fueloline interfaces, is known as surface technology. The disciplines of floor chemistry and floor physics make up this system. Surface chemistry can be thought of as the study of chemical processes at interfaces. It is closely related to floor engineering, which aims to improve the chemical composition of a floor by incorporating chosen elements or deliberate operations that produce various desired consequences or enhancements inside the properties of the floor or interface. The disciplines of heterogeneous catalysis, electrochemistry, and geochemistry all heavily rely on surface technology.

Surface Science Conferences | Surface Science & Engineering Conference | Surface Science Events | Nanotechnology & Engineering Conference | Nanotech Conference

Track 13: Nanotechnology for Oil & Gas Industry

Manufacturers of oil and gasoline were among the first to use nanotechnology since oil reserves are almost certainly nothing more than emulsions of oil, gasoline, and water that produce nanoscale particles. They have been able to improve their extraction procedures thanks to nanoscale research and commercialization. In order to increase oil recovery, device reliability, reduce production power losses, provide real-time analytics on emulsion features, and deliver new supply materials, major oil and gasoline companies invest in nanotechnology-enabled innovations.

Nanotechnology Conferences | Nanotechnology Meetings | Nanotechnology Events | Conference Series | Nanotechnology for Oil & Gas Conferences | Nanotechnology for Oil & Gas Meetings | Nanotechnology for Oil & Gas Events | Nanotech Conference

Track 14: Nanotechnology for Environment Protection

Through conserving raw materials, energy, and water, as well as by reducing greenhouse gases and hazardous wastes, nanotechnology products, techniques, and programmes are projected to make significant contributions to environmental and weather safety. Utilizing nanomaterials ensures sustainability and certain environmental benefits.

Nanotechnology Conferences | Nanotechnology Meetings | Nanotechnology Events | Conference Series | Nanotechnology for Environment Protection Conferences | Nanotechnology for Environment Protection Meetings | Nanotechnology for Environment Protection Events | Nanotech Conference

Track 15: Nanophotonics

Nanophotonics is a developing field that focuses on the application of photonics at nanoscale dimensions. It encompasses a wide range of topics, such as metamaterials, plasmonics, high-resolution imaging, quantum nanophotonics, and practical photonic materials. Subject improvement results in new optical phenomena that provide improved overall performance or completely new functionalities in photonic devices. This generation has the ability to impact a wide range of photonics products, from high-performance solar cells to ultra-steady communications to personalised fitness tracking devices.

Nanophotonics Conferences | Nanophotonics Meetings | Nanophotonics Events | Nanotech Conference

Track 16: Nano-Electronics & Microsystems

Nano-electronics preserves several solutions for how we can increase the capabilities of devices while lowering their weight and controlling use. improving device display quality. This entails reducing the amount of energy used while also lightening and thinning the displays. increasing the thickness of memory chips. For every rectangular motion slowly or more prominently, experts are adding to a type of memory chip with an estimated thickness of 1 terabyte of memory. reducing the quantity of transistors used in coordinated circuits. According to one scientist, it may be feasible to "put the pressure of the additional portion of modern available PCs inside the palm of your hand."

Nano-Electronics Conferences | Nano-Electronics Meetings | Nano-Electronics Events | Conference Series | Microsystems Conferences | Microsystems Meetings | Microsystems Events | Nanotech Conference

Track 17: Nanotechnology in Energy

Typically, hydride substance research for power projects focuses on improving the materials' gravimetric capability thickness and particle delivery. However, the requirements for desk-bound programmes, such as electrical devices, may be fundamentally different and open to a more substantial variety of capability materials. Numerous geophysical and socioeconomic factors are driving a transition away from fossil fuels and toward clean, renewable energy sources. We must provide the materials necessary to support new power advancements in order to bring about this revolution. The greatest desire to develop efficient and cost-effective solar cells is sun-oriented power.

Materials Science Conferences | Materials Science and Engineering Conferences | Materials Science Conferences USA

Track 18: Nano-FabricationCharacterization

Nanofabrication is the design and production of objects with dimensions that are measured in nanometers. One millionth of a millimetre, or 10-9 metres, is a nanometre. PC experts are interested in nanofabrication because it paves the way for extremely thick microchips and memory chips. It has been suggested that each data bit can be stored in a single iota. To further illustrate this, a single molecule might also truly have the power to communicate with a byte or expression of data. Additionally, the military, the avionics industry, and the restorative industry have all become interested in nanofabrication.

Nano-Fabrication Conferences | Nano-Fabrication Meetings | Nano-Fabrication Events | Nanotech Conference

Track 19: Nano Computational Modelling

Functional nano-scale systems frequently contain a wide range of constituents that can be challenging to characterise experimentally. As a result, these systems are assembled, controlled, and used by adjusting constituents on the macro-scale, a combination of abilities that places a high demand on theory, modelling, and simulation.

Nano Computational Modelling Conferences | Nano Computational Modelling Meetings | Nanotech Conference

Track 20: Polymer Science & Technology

A significantly wider range of programmes are available in material technological knowledge, including those in ceramics, composites, and polymer materials. SiO2 serves as a straightforward building block for covalent and ionic-covalent bonds in ceramics and glasses. The pliability of clay or the durability of stone and concrete describe ceramics. Typically, they take the shape of crystals. The majority of glasses contain silica and a metallic oxide. Applications range from gorilla glass to steel-bolstered concrete used as structural elements. Polymers are a crucial component of substance technology as well. The raw materials that go into creating what we commonly refer to as plastics are known as polymers. Specialty plastics are materials with unique properties like extremely high strength, electrical conductivity, electro-fluorescence, and extremely high thermal stability.

Materials Science Conferences | Materials Science and Engineering Conferences | Materials Science Conferences USA

Track 21: Materials Broader Impact

The National Science Foundation (NSF) evaluates each proposal's intellectual quality as well as the merit of its larger consequences, or the impacts and benefits of your planned research on society. A section describing the plan's intended larger consequences must be included in every proposal sent to the NSF.

However, consideration of wider consequences is not restricted to NSF submissions. In terms of outreach, community-engaged scholarship, translation, dissemination, public humanities, community-based participatory research, community-based teaching and learning, diversity/inclusion/equity, and other concepts, broader impacts (BI) can be defined.

Materials Science Conferences | Materials Science and Engineering Conferences | Materials Science Conferences USA

Track 22: Materials Characterization

In terms of materials science, characterization refers to the comprehensive and all-encompassing process of probing and measuring a material's structure and properties. Without it, no scientific understanding of engineering materials could be established. It is an essential procedure in the field of materials research. The range of the term's application varies greatly; for example, some definitions restrict its use to methods that examine the microscopic structure and characteristics of materials, whereas others use the term to describe any process of materials analysis, including macroscopic methods like mechanical testing, thermal analysis, and density calculation. The size of the structures seen during materials characterisation can range from angstroms, as in the imaging of individual atoms and chemical bonds, up to centimetres, as in the imaging of large-scale structures.

Materials Science Conferences | Materials Science and Engineering Conferences | Materials Science Conferences USA

Track 23: Materials Computing and Data Science

You will learn about the modelling and simulation of material dynamics relevant to real materials challenges, which frequently occur across various time and length scales, in computational materials science. You will gain knowledge of computational methods used in materials selection and design decisions that make extensive use of data from materials science.

Materials Science Conferences | Materials Science and Engineering Conferences | Materials Science Conferences USA

Track 25: Energy and Sustainability

Sustainable energy deployment is essential in the age of techno-economic diversity and the anarchy caused by global warming by implementing flexible techniques to meet long-term sustainability requirements within multidisciplinary endeavours. The burden of climate change and the rise in energy demand in the global context depend on a number of cross-disciplinary solutions, including technical, technological, social, political, environmental, ecological, economic, and institutional ones, to ease constraints and produce workable decision-making.

The goal of Goal  of the Sustainable Development Goals (SDGs) 2030 is to ensure that more than 3 billion people worldwide have access to clean energy. The section on "Energy Sustainability" highlights energy resource and technology advancement and their exploitation through tools, techniques, strategies, policies, procedures, assessments, and case studies that are in line with this goal. In support of Sustainable Development Goal #7, "Access to affordable, reliable, sustainable, and modern energy for all," the section addresses managerial, technical, technological, economic, policy, and efficiency aspects through research articles, conceptual analysis articles, review articles, and commentaries related to energy resources, technologies, applications, deployment options, and advanced techniques.

Materials Science Conferences | Materials Science and Engineering Conferences | Materials Science Conferences USA

Track 26: Electronics, Optics and Quantum

Quantum technology, one of the most promising new technologies, has the potential to greatly develop industry in the twenty-first century . A lot of considerations support these assurances. Most essential components for quantum technology have already been developed, and proofs of concept have been demonstrated. There is no fundamental reason why we cannot bring all the pieces together, however how challenging it may be.

Materials Science Conferences | Materials Science and Engineering Conferences | Materials Science Conferences USA

Track 27: Soft Materials and Biomaterials

Because of their deformability, biodegradability, biocompatibility, high bioactivity, and low antigenicity, soft biomaterials have a lot of potential for a variety of biomedical applications. In order to accommodate components comprised of various materials and produce combinative functions, multicomponent soft biomaterials are particularly appealing. Because it can precisely control multiphasic flows on the micron scale, microfluidic technology has emerged as a superb tool for producing multicomponent materials with complex shapes and components.

Materials Science Conferences | Materials Science and Engineering Conferences | Materials Science Conferences USA

Track 27: Structural and Functional Materials

Building high-performance materials with numerous uses can be greatly influenced by natural biological materials. Bioinspired materials have developed quickly during the past few decades by imitating their chemical makeups and hierarchical structures. Silk is gaining popularity as a very promising biosourced raw material because of its superior mechanical qualities, advantageous adaptability, and outstanding biocompatibility. We give a summary of the most recent developments in silk-based bioinspired structural and functional materials in this article. We begin with a succinct overview of silk, covering its origins, properties, production, and forms. The creation and use of silk-based materials that replicate four common biological materials—bone, nacre, skin, and polar bear hair—are next briefly discussed. Finally, we talk about the field's present difficulties and potential for the future.

Materials Science Conferences | Materials Science and Engineering Conferences | Materials Science Conferences USA

Market Analysis

Market Value on Materials Science Research:-

Building high-performance materials with numerous uses can be greatly influenced by natural biological materials. Bioinspired materials have developed quickly during the past few decades by imitating their chemical makeups and hierarchical structures. Silk is gaining popularity as a very promising biosourced raw material because of its superior mechanical qualities, advantageous adaptability, and outstanding biocompatibility. We give a summary of the most recent developments in silk-based bioinspired structural and functional materials in this article. We begin with a succinct overview of silk, covering its origins, properties, production, and forms. The creation and use of silk-based materials that replicate four common biological materials—bone, nacre, skin, and polar bear hair—are next briefly discussed. Finally, we talk about the field's present difficulties and potential for the future.

Market Growth of Materials Science withinside the remaining and upcoming ten years

The global market for clothing was valued at $149 million in 2015, and it is anticipated that by 2022, it will have grown to $1,387 million, with a CAGR of 39.7 percent. Material mediums are defined as clearly visible composites with occasionally mobileular, three-dimensional engineering designed to provide a more suitable mixture of at least reactions to a particular excitation that is no longer possible in nature. They imply amazing physical structures, such as low penetrability and permittivity. The great thing about chemicals is that they give professionals the ability to control wave proliferation by using various arrangements of the unit cells.

Past Conference Report

We would like to thank all who were attended and made sure that the conference was a great success. We extend our warm appreciation to our prolocutor who were supportive and make sure that the event was going as planned.

The conference was embarked with an opening ceremony followed by a series of lectures delivered by both Honourable Guests and Distinguished speakers. The veteran who disseminate the theme with their exquisite talk were, conferenceseries.com expresses its lively admiration to all the Chairs and co-chairs, Organizing Committee Members, Speakers, Students, Delegates, Media Partners and Editorial Members of conferenceseries.com Journals who supported this event in every featured and usher to the success of the event.

We look forward to your presence in our 6th European Meeting on Materials Science and Nanotechnology on April 12-13, 2023 in Zurich, Switzerland, and we welcome you all to the astounding and ingenious event.

To Collaborate Scientific Professionals around the World

Conference Date April 12-13, 2023

For Sponsors & Exhibitors

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Speaker Opportunity

Past Conference Report

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