About Webinar Conference

We are organizing a webinar 27th World Congress on Advanced Materials August 23-24, 2021. During the Corona Virus Pandemic Quality and ethics experts share their views and respond to your questions from sponsor and site points of view. Register now to learn about risk assessment and finding pragmatic solutions .Transitioning your physical event to an online event is the best way to safely and effectively engage your community. Learn more about your online event options, or chat with one of our event experts to find your online event solution.

Target Audience:

• Advanced Materials Professionals 
• Directors of companies in the field of Advanced Materials
• Leading scientists
• Professors
• Fellows or postdoctoral students
• Researchers, CEOs
• Business Delegates
• Doctors
• Young research scientists
• Advanced Materials Associations and Societies
• Manufacturing Medical Devices Companies
• Healthcare professionals
• Founders and Employees of the related companies

Sessions and Tracks

 Track 1: Advanced Materials processing

This is The Creation of Advanced Materials at The Molecular or Nuclear live For the aim of advancing technology, developing additional economical product, creating novel manufacturing technologies, or up the human information. the pliability to quickly and reliably lay down multiple conductive  layers with ultrafine resolution has junction rectifier to the shrinking and low worth of most natural philosophy elements. sensible Devices has established itself as a pacesetter at intervals the HVAC, Building Controls, Energy Management, Energy Savings, Lighting Controls, and Wireless industries.

 Track 2: Materials Science and Engineering

Material Science is that the branch of science deals with the structure, properties, performance, characterization and methodology of materials that related to construction or manufacture like metals, polymers, ceramics and composites etc. Through the help of the material science we'll apprehend the history of the material like physical and chemical properties, thus a reason material science and engineering decisions a pleasant scope significantly in rhetorical engineering, Nano technology, bio materials, metallurgy, failure analysis, investigation materials.

Track 3: Advanced Materials and Devices

Materials Science involves the discovery and design of new materials, with an emphasis on solids. It addresses the scientific study of the properties and applications of materials of construction or manufacture (such as ceramics, metals, polymers, and composites). It is a cross-disciplinary field that relates the behaviour and properties of various materials with aspects of their molecular, supramolecular or macromolecular structures and their chemical and physical characteristics at the atomic or molecular level.

Advanced materials category covers a range of industries including ceramics, glass, metals, alloys, construction materials and other high technology processing areas

Track 4: Metals, Mining, scientific discipline and Materials

Fabric technological ability performs Associate in Nursing crucial role in scientific discipline. metallurgy includes Associate in Nursing intensive style of approaches whereby substances or elements ar fabricated from steel powders. they will prevent from, or greatly reduce, the necessity to utilize silver removal processes and may scale back the fees. Pyro scientific discipline contains thermal remedy of minerals and science ores and focuses to attain bodily and chemical changes within the materials to modify healing of valuable metals. General information of scientific discipline will facilitate United States to extract the metal during a larger attainable manner and may accustomed a far wider vary.

Track 5: Emerging sensible Materials

Smart materials, remarked as to boot intelligent or responsive materials unit designed materials that have one or loads of properties which is able to be significantly changed in a {very} very controlled fashion by external stimuli, like stress, temperature, moisture, pH, electrical or magnetic fields, light, or chemical compounds. sensible Materials unit the premise of the numerous applications, beside sensors and actuators, or artificial muscles, considerably as electrically activated polymers.

Track 6: Physics and Chemistry of Materials

Material physics is that the employment of physics to elucidate the physical properties of materials. It’s a synthesis of physical sciences like chemistry, solid mechanics, solid state physics, and materials science. Materials physics is taken into consideration a collection of condensed matter physics and applies elementary condensed matter ideas to sophisticated purpose media, beside materials of technological interest. Current fields that materials physicists add embrace electronic, optical, and magnetic materials, novel materials and structures, quantum phenomena in materials, non-equilibrium physics, and soft condensed matter physics.

Track 7 : Optical Materials and Plasmonics

The Diligence of Optical Materials is to administer the way for correspondence and development trade among researchers who are careful in materials for potential contraption applications. Plasmonics is that the examination of the joint effort between electromagnetic field and free electrons in an exceedingly metal.

Track 8 : Science and Technology of Advanced Materials

Advanced Materials for Energy for energy sources, must be compelled to create new discoveries for catalysts to convert feedstock’s into fuels, new architectures for higher star cells DSSC’s and materials for advanced energy storage, furthermore as element batteries.New advanced materials unit key to breakthroughs in biology, the setting, energy, transportation, and national security.Energy Materials unit of measurement creating revolutionary advances within the science of materials discovery and synthesis.

Track 9 : Graphene and 2D Materials

Graphene and different 2d materials have specific properties which have made it an exciting subject material for the medical research and also the event of technological applications. These have enormous ability of their very own unique proper or in mixture with graphene. The brilliant bodily residences of graphene and other 2d materials can probably both improve present existing technologies and furthermore make a scope of latest packages. Natural graphene includes a extremely huge reasonably mechanical, thermal and electric homes. Graphene can even substantially improve the thermal conductivity of a cloth enhancing warmth dissipation.

Track 10 : Ceramics & Composites

A clay material is an inorganic, non-metallic, often crystalline compound, compound or compound material. Some parts, as an example, carbon or semiconductor, are thought of utensil production. Ceramic ware materials unit fragile, hard, and solid in pressure, feeble in cut and strain. Composite materials have extraordinary physical or substance properties. Composite materials unit by and large used for structures, scaffolds, and structures, as an example, pontoon frames, natatorium boards, hustling car bodies, the foremost exceptional cases perform habitually on shuttle and flying machine in requesting things.

Track 11: Electronic, Optical and Magnetic Materials

To function electronic gadgets electrical modern-day should be proficiently managed by switching devices, which turns into difficult as structures method very small dimensions. This issue must be addressed with the help of integrating substances that allow dependable turn-on and flip-off of cutting-edge at any length scale. New electronic and photonic nanomaterial’s assure dramatic breakthroughs in communications, computing gadgets and stable-nation lights. Now cloth studies include bulk crystal growth, thin movie and nanostructure increase, organic semiconductors and tender lithography. Most of the photonics companies cognizance on advanced technology for producers and integrators of lasers and photonics merchandise.

Track 12: Materials for Green Technology

The potential impact of world action and warming isn't any doubt one altogether the foremost grave challenges that face humanity. Central to this challenge is our dependence on fossil fuels because the first supply of energy – the foremost important contributors of greenhouse gases (GHGs) along with dioxide (CO2) – and thus the wonderful use of non-renewable resources.

Market Analysis

Atomic force microscopy marketplace has estimated to raise at 5.8% Compound Annual Development Rate (CAGR) for the period of 2021-2024. The global atomic force microscopy market admired at USD 441 million in 2021 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 2021 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 2021 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.