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Materials Science-Ann-2020

About Conference


We are glad to welcomes international Speakers, delegates from Materials Science research groups across the world to the forthcoming 4th Global Meet on Material Science and Nano Materials during November 11-12, 2020 at Paris, France.

Material Science-ANN-2020 2020 includes exhibition of products, high-standard lectures and keynote lectures given by outstanding scholars invited from academia and industry in the field of MSNM.

This event will be an occasion for participants and delegates to mark new connections and strengthen existing friendships. Material Science-ANN-2020 program motivates and encourages young scientists and graduate students to enhance their research and career level.

Our multidisciplinary meeting will feature the most up-to-date research, diverse topics of interest as well as educational sessions with leading experts in the arena of Material Science, Tribology, Advanced and Smart Materials, Nanomaterial’s, Materials Energy, Semiconductors, Magnetic Materials, Metallurgy, Polymer Science and Technology, Trends in Materials Science, Surface Science and Engineering, Nanotechnology Safety, Nano scale Electronics, Nanotechnology for Drug and Gene Delivery, Nanomagnitism, Nano generators and piezoelectric, Nanotechnology for Water Treatment, clean and Sustainable Technology,  Engineering, Biomaterials, Metallurgy, Physics, and Chemistry.

We hope that, despite an intense program, you also will be able to get some glimpses of our host city Paris. Paris is one of the France’s leading tourist destinations and its diversity supports a vibrant cultural scene, in addition to its economy and infrastructure.

We are looking forward to welcoming you all for what promises to be an outstanding educational and industrial event.

Scientific Sessions

Materials Science and Engineering:

These are always changed our world over the past 20 years and have been started on improvements in Materials Science and Engineering. Materials are proceeding very faster today than any time in history; empowering engineers to enhance the performance of existing products and to create innovative advances that will improve each part of our lives. Materials Science and Engineering has revolved into a key discipline in the digital worldwide economy and knows as one of the specialized disciplines with furthermost exciting job openings. Materials Scientists or Engineers, through perceiving how materials work, can create new materials for new solicitations and in addition to produce existing materials to enhance performance. They can be controlled by the structure of a material, from a nuclear level up, so that its properties, for instance strength, can be tailored to suit a definite application.

  • Biomaterials
  • Tissue Engineering
  • Computational Materials Science
  • Material Science in Textiles

Tribology:

Earlier, Tribology research was concentrated on the strategy and effective lubrication of device components such as bearings. Over time, there has been a change in tribology’s focus to consist of numerous aspects of the present technology. In the latest decades, it has established continuous and growing attention as it has developed evidence that the wastage of resources consequential from high friction and wear is greater than 6% of the Gross National Product.

Tribology has its application in the utmost common rolling or sliding components and these are bearings, cams, gears, seals and brakes. This quick focus on improving operation and spread out the life of industrial machinery has developed into other applications where it has prepared a major impact on a variety of applications.

Advanced Nanomaterial’s:

Nanomaterial’s are considered as materials with no less than one outer measurement in the size extent from around 1-100 Nanometres. Nanoparticles are substances with each of the three outer measurements at the Nano scale. These have always been happening (e.g., volcanic powder, ash from woodland fires) or are the accidental side effects of explosion procedures are usually physically and synthetically heterogeneous and commonly named ultrafine particles. Nanoparticles are intentionally delivered and scheduled with specific properties recognized with size, shape, surface properties and science. These properties have reflected in mist colloids, concentrates or powders. Commonly, the conduct of Nanomaterial’s might depend more on the external region than molecule Pre-arrangement itself. The world interest in Nanomaterial’s will increase more than two times to $5.5 billion in 2016. Nanotubes, quantum dabs, and Nano Clays will be the fastest developing sorts. The development markets and vitality stockpiling will offer the best development prospects. India, the US, and China will lead picks up amongst countries. This study divides the $2 billion world Nanomaterial industry. It presents noted interest information for the years 2001, 2006 and 2011, and gauges for 2016 and 2021 by the material.

Advanced and Smart Materials:

These are made designed capitals that have different properties that can be changed in a controlled method by exterior stimuli, such as temperature, stress, pH, electric or magnetic fields and depending on the stimuli and they are classified into different types. Some examples are piezoelectric materials, Shape memory alloys and also smart materials that can be classified into passive and active smart materials.

  • Carbon Nanomaterial Technology
  • Piezoelectric Materials
  • Thermo responsive Materials
  • Polychromic, Chromogenic or Halo chromic Materials
  • Applications of Smart Nanomaterial’s

Materials Energy:

The country needs increased efforts on making energy materials and inventions which focuses on energy harvesting, energy generation, conversion and storage of energy. Different geophysical and social pressures are making a move from fossil fuels to sustainable and renewable energy sources. Due to this change, we should grow the materials that will support advanced energy technologies.

Semiconductors:

Semiconductors are having a huge effect on the world. Semiconductors are at the heart of microprocessor chips and transistors. This is computerized or uses radio waves based on semiconductors. Presently utmost semiconductor chips and transistors are manufactured with silicon as silicon is the heart of any electronic device.

Nanomaterial’s:

Nanomaterial’s are typical size features in the inferior nanometre size range and characteristic mesoscopic properties; for example, quantum size effects. These properties have made them attractive substances of fundamental inquiry and potential different applications. The possibility of Nanomaterial’s safeties the preparation, characterization, and application of all Nanomaterial’s.

  • Nanotechnology
  • Nanomaterial’s Fabrication, Characterization & Tools

Magnetic Materials:

It is strong to envision a world without magnetic materials, and they are apposite more essential in the growth of present-day society. Non-polluting electric vehicles will fall on productive engines utilizing proceeded magnetic materials. The telecommunications industry is frequently striving for speedier data communication and scaling down of devices, both of which need the advancement of enhanced magnetic materials.

  • Diamagnetism
  • Para-magnetism
  • Ferromagnetism
  • Ferrimagnetism
  • Anti-ferromagnetism

Metallurgy:

The science of metallurgy is classified into two broad categories: Chemical Metallurgy and Physical Metallurgy. Chemical Metallurgy is chiefly afraid of the reduction and oxidation of metals. It emphases on the mechanical properties, the physical properties, and the physical performance of metals. Topics considered in physical metallurgy consist of crystallography, material characterization, mechanical metallurgy, phase transformations, and failure mechanisms.

  • Mechanical Metallurgy
  • Physical Metallurgy
  • Powder Metallurgy
  • Chemical Metallurgy

Polymers Science and Technology:

Nowadays everyone knows plastics. The plastics or thermoplastics are polymers that soften when warmed and are moulded into various structures. Fibers incorporate numerous kinds of engineered yarn or rope that are made using amorphous materials, for example, the polyesters. Crystalline polymers can similarly be recycled to make filaments, which are found in bullet-resistant clothing.

Polymer recycling is a method to decrease natural problems caused by polymeric waste aggregation created from everyday utilization of polymer materials such as construction and development. The reusing of polymeric waste saves natural resources as a huge portion of polymer materials are produced using oil and gas.

  • Polymer synthesis
  • Polymer analysis
  • Polymer physics
  • Polymer theory and simulation
  • Polymer processing and performance
  • Polymer applications
  • Biopolymers

Trends in Materials Science:

It has prepared in this field encompass from nanotechnology to cutting edge polymers, had accomplished for different purposes. These are amazing significance to the economy and in addition to scientific endeavours. The field of materials science and the building is essential both from a scientific viewpoint and from an engineering one. Subsequently, there is a considerable measure of science to be found when functioning with materials. Materials science likewise gives a test to hypotheses in dense issue physical science. Graphene, Aerogel, Fullerenes, Quantum Dots are the frontiers in Materials Science and Engineering.

  • Atom Thick
  • Electric Ink
  • The Heroics of Multiferroics
  • The Nano Anode
  • Spinning Smoke
  • Surface Science and Engineering

Nanotechnology Safety:

The health and safety hazards of nanomaterial’s cover the potential toxicity of different types of nanomaterial’s, and fire and dust eruption hazards. Because nanotechnology is a modern development, the health and safety effects of exposures to nanomaterial’s, and what stages of exposure may be satisfactory, are subjects of on-going research. Breathing exposure seems to contemporary the most concern, with animal educations showing pulmonary special things such as inflammation, fibrosis, and carcinogenicity for certain nanomaterial’s. Skin contact, ingestion exposure, and dust explosion hazards are also a concern.

  • Toxicity
  • Fire and explosion
  • Radioactivity
  • Elimination and substitution
  • Engineering controls
  • Administrative controls
  • Personal protective equipment
  • Occupational exposure limits

Nano Scale Electronics: 

It states to the use of nanotechnology in electronic components. The span covers a diverse set of devices as well as materials, with the mutual characteristic that they are so minor that inter-atomic interactions, as well as quantum mechanical properties, want to be studied extensively. These applicants include either one-dimensional nanotubes or nanowires or new molecular electronics. It has critical dimensions with dimensions range between 1 nm and 100 nm.

  • Stronger Materials/Higher Strength Composites
  • Scalability of Production
  • More Commercialization
  • Sustainability
  • Nanotech for Energy and Environment
  • Nanotech in Life Science and Medicine

Nanotechnology for Drug and Gene Delivery:

Drug-related materials are a varied and increasing class, layer substances used to deliver medicines as well as therapies. It is opening up new possibilities for drug delivery vehicles, letting drug issue to be organized and besieged to exact areas of the body, which means minor doses and compact side effects. Various nanostructures, including liposomes, polymers as well as nanotubes, have been tested as carriers in drug delivery systems, mostly for handling and spotting cancer.

Nano magnetism:

Magnetic nanostructures have been industrialized for usage in several features of our day-to-day life, spanning areas such as data storage, noticing as well as biomedicine. It has been often two-dimensional planar structures, current work has been accumulative Nano magnetism into three dimensions; a move produced by the advance of unconventional synthesis systems and the finding of fresh magnetic effects. In 3-dimensional Nano magnets, more compound magnetic configurations become possible, several with unparalleled properties. At this point, we review the making of these structures and their suggestions for the emergence of new physics, the improvement of instrumentation and computational methods as well as exploitation in numerous applications.

Nano generator and piezoelectric: 

Nano generator is the period of academics usage to describe a minor electronic chip that can be used mechanical movements of the body as well as a gentle finger pinch to generate electricity. The chip has a combined circuit fixed onto a flexible surface, alike to components on the circuit boards confidential your computer.

Piezoelectric is the important components inside a Nano generator are neither nanowires nor related structures prepared from a piezoelectric ceramic material. It can make an electric current just by being bent or stressed. As defined in How Nanowires Work, hundreds of nanowires can be filled side by side in less space than the thickness of a human hair.

Nanotechnology for Water Treatment:

It is a different kind of pressure-driven membrane procedure and recycled between reverse osmosis as well as ultrafiltration membranes. The utmost different specialty of Notification membranes is the complex rejection of multivalent ions than monovalent ions. These are reused in moderating water, saltwater treatment, industrialized wastewater treatment and reuse, product separation in the industry, salt recovery and recent desalination as two-pass Notification systems.

Nanotechnology for Clean and Sustainable Technology:

It is always developing a group of methods and materials, from techniques for making energy to nontoxic housework products. Due to quick industrialization and urbanization toxic elements are released into the atmosphere resulting in global warming. Past 50 years, the standard global high temperature has increased at the fastest rate in recorded history. Global heating happens when carbon dioxide (CO2) as well as other air pollutants and greenhouse gasses collect in the air and captivate sunlight and solar radiation that have bounced off the earth’s surface. Generally, this radiation would escape keen on space, but these toxins, which can last for years to centuries in the air, trap the heat and cause the planet to get hotter.

Market Analysis

Atomic force microscopy marketplace has estimated to raise at 5.8% Compound Annual Development Rate (CAGR) for the period of 2019-2024. The global atomic force microscopy market admired at USD 441 million in 2019 and appraised to touch 587 USD million by the 2024. It has estimated to grow at a CAGR of 5.8% during the estimated period. One of the key drivers of atomic force microscopy has enthusiastic facility from fairly a lot of governments to funding nanotechnology and Nano science research and enrichment. Also, a high petition for 3D ICs from semiconductors as well as the electronics industry has expected to place new growth opportunities for the atomic force microscopy market during the forecast period.

Investigations to grow at the highest CAGR between 2019 and 2024. The market for probes has expected to grow at the highest CAGR. Probes perform a dominant role in the AFM market, in terms of capacity, as the lifecycle of probes is shorter than the complete atomic force microscope, thereby leading to an advanced requirement for probes than AFM.

Industrial ranking AFMs to grow at the fastest rate for atomic force microscopy. It is expected to grow at a significant rate between 2019 and 2024. There is a great importance of good-quality images to identify defects in miniaturized products. Hence, industrial grade AFM are extra in demand due to their high accuracy in noticing and visualization even the smallest surface structures as well as flaws in nanomaterial’s.

Semiconductors and electronics market to proposal a lucrative chance for atomic force microscopy applications. These are expected to grow at the highest rate. It is one of the captain industries using advanced microscopes such as transmission electron microscopes, atomic force microscopes, 3D optical microscopes as well as confocal microscopes. AFM is used broadly in the semiconductor industry for R&D, quality controller (QC), checking process development, and disaster analysis. The initial demand for miniature transistor chips, Nano electronics, and optoelectronics is the significant factor succeeding the demand for microscopes in the semiconductor manufacturing.

To Collaborate Scientific Professionals around the World

Conference Date November 11-12, 2020

Speaker Opportunity

Supported By

Journal of Nanomaterials & Molecular Nanotechnology Journal of Nanomedicine & Nanotechnology Journal of Nanomedicine & Biotherapeutic Discovery

All accepted abstracts will be published in respective Conference Series LLC LTD International Journals.

Abstracts will be provided with Digital Object Identifier by