Materials Research 2021 offers a wonderful opportunity to meet the Experts in the field of Materials Science and Research by providing collaboration spaces and break-out rooms with tea and lunch for attendees between sessions with invaluable networking time for you. It allows attendees to have issues addressed on Materials Science and Research by well-known global experts who are up to date with the advanced developments in the Materials Science and Research and provide information on latest techniques and technologies. This International Materials Science and Research conference will provide world renowned keynote speakers, plenary speeches, young research forum, poster presentations, technical workshops and career guidance sessions.

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Direct contact with your target group :

Reach and occupy a very specific target group. Allow them to ask questions, or pose questions of your own to the participants. Thanks to the interaction during a webinar you gain insight into your target group. You can really get to know your audience, unlike during lower-quality webinars or physical meetings and events where attendees often merely listen passively.

Reach your target group both live and afterwards:

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Interaction with your target group:

Reach your audience and reinforce your message. Webinars enable you to utilise polls, chats and calls to action, or to show your viewers PowerPoint slides or videos. The more interactive your webinar is, the greater the impact of your message will be.

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Target Audience:

• Materials Research professors,
• Renewable Energy Directors,
• Academic Professors and post-doctoral fellows,
• Scientists
• PhD and Post-Doctoral Fellows
• Smart Materials Associations
• Materials Science Engineering Associations.
• Nanotechnology Companies
• Nanotechnology Associations
• Advanced Materials and Nanotechnology Engineers

Session 1: Materials Science and Engineering

Materials Science square measure designed materials that have one or a lot of properties which will be considerably modified in a very controlled fashion by external stimuli, like stress, moisture, electrical or magnetic fields, light, temperature, pH or chemical compounds causes transformation of their material property. Sensible Materials square measure the premise of the various applications at the side of sensors and actuators, or artificial muscles, considerably as electrically activated polymers.

• Biomaterials   
• Computational Modeling
• Corrosion
• Electronic, Optical &Magnetic Materials
• Materials Performance
• Materials Processing & Manufacturing Mechanical Properties
• Microstructure Property Relationships

Session 2: Applications of Smart Materials

There square measure many probabilities for sensible Materials and structures within the synthetic world. Sensible Materials will provide the upkeep engineers a transparent report on the performance history of the fabric and also the location of imperfections further. These materials will counteract to unsafe conditions like excess vibrations and have an effect on the self-repair. Sensible materials can have any wide space of applications that helps to attain technological goals. This ends up in sensible materials and structures that may be useful in braving engineering issues with yet undoable potency and provides the chance for making a replacement product.

• Robot
• Aerospace
• Machine
• Sensor/actuator networks
• Energy harvesting Health monitoring  Biomimetic devices
• Materials in automobile and construction industries

Session 3: Polymers Science & Engineering

Material science has a wide range of applications which includes ceramics, composites and polymer materials. Bonding in ceramics & glasses uses both covalent and ionic-covalent types with SiO2 as a basic building block. Ceramics are as soft as clay or else as hard as stone and concrete. Usually, they are in crystalline form. Most glasses contain a metal oxide amalgamated with silica. Applications scale from structural elements such as steel-reinforced concrete to the gorilla glass.

Polymers are also crucial part of materials science. Polymers are the raw materials which are used to make plastics. Specialty plastics are materials with particular characteristics, such as ultra-high strength, electrical conductivity, electro-fluorescence, high thermal stability. Plastics are not divided based on their material but on its properties and applications.

• Polymer Solutions
• Polymer Microstructures
• Synthetic Polymer Chemistry
• Polymer Surfaces and Interfaces
• Polymer Microscopy
• Important materials and technologies of the polymer industry
• Polymer composites

Session 4: Smart Materials using Nanotechnology

Smart Nanomaterial’s have their presence strongly in the areas like healthcare. Smart Nanomaterial’s in medical industry respond to injuries by delivering drugs and antibiotics. These recently developed materials may include Nano sensors, Nano computers and Nano machines interpose their structure. Smart materials in the nanotechnology hold the possibility for exceedingly complex solutions.

Session 5: Nanotechnology Applications

Nanotechnology comprises the understanding, manipulation and control of matter. Nanotechnology expands its creation both in devices and materials with an vast range of applications such as electronics, medicine, production and energy. Nanotechnology products and application database provide an overview of how nanomaterial’s are utilized in industrial and commercial applications. It mainly concentrates on the study of very small things which are used in various fields such as chemistry, biology, physics, material science and engineering.

• Nanoelectronics
• Nanophotonics/Nanolasers/Nanorobotics
• Production and energy
• Industrial and commercial application
• Agriculture & Food science
• Neuroengineering

Session 6: Nanotechnology Applications in Electronics

Nanotechnology is functional in many communications, computing and electronic applications and it provides faster, smaller and more portable systems. These systems can manage and store larger amounts of information. Nano electronics mean using nanotechnology in electronic  components,  there are several applications such as computing and electronic products include Flash memory chips for iPod Nanos, antimicrobial and antibacterial coatings on the  mouse, the keyboard, and the cell phone castings. The aim of nano electronics is to process, transmit and store information by taking benefits of properties of matter that are distinctly different from macroscopic properties.

• Transistor in IC
• Switches
• Flash memory chips
• Cell phone castings

Session 7: Green Nanotechnology

It refers to the importance of nanotechnology to develop the environmental sustainability of processes that are producing negative externalities. For the base of sustainability, they are making green Nano-products and using Nano-products. The main aim of this technique is to minimize harmful environmental hazards and human health risks associated with the manufacture of nanotechnology products, and also to boost replacement of existing products with new Nano-products that should be eco-friendly to the people. Nanomaterials or nanoproducts used under this technology can perform several functions

Session 8: Tissue Engineering

For the repair or reshape of the mutilated tissue, nanotechnology can be used as part of tissue engineering by the usage of suitable nanomaterial-based scaffolds and growth factors. If it is victorious then tissue engineering may replace conventional treatments like organ transplants. For bone tissue engineering applications, nanoparticles such as carbon nanotubes, graphene, carbon nanocones and tungsten disulfide are used as reinforcing agents to manufacture mechanically strong biodegradable polymeric nanocomposites.

• Nanofiber self-assembly
• Textile technologies
• Solvent casting and particulate leaching
• Gas foaming
• Emulsification freeze-drying
• Thermally induced phase separation
• Electrospinning
• CAD/CAM technologies
• Laser-assisted bioprinting

Session 9: Areas of Nanoscience Research in Agriculture and Food Science

Nanotechnology, a promising field of research welcomes in the present decade a wide array of opportunities in the present decade and is expected to give major impulses to technical innovations in a variety of industrial sectors in the future. The potential advantages and benefits of nanotechnology are enormous. These include agricultural productivity enhancement involves nanoporous zeolites for slow release and efficient dosage of water and fertilizer, nanocapsules for herbicide delivery and vector and pest management and nanosensors for pest detection. The atom by atom arrangement permits the manipulation of nanoparticles thus influencing their size, shape and orientation for reaction with the targeted tissues. It is now known that many insects have ferromagnetic materials in the head, thorax and abdomen, which act as geomagnetic sensors.

• Nanotechnology for Crop Biotechnology
• Food Science: Clay & silver nanoparticles nanocomposites
• Nanotech Delivery Systems for Pests, Nutrients, and Plant Hormones
• Food processing and product development
• Nanoparticles and Recycling Agricultural Waste
• Food safety and biosecurity

Session 10: Smart Control Systems

Smart Materials have a broad vary of applications within the field of engineering. They are employed in Marine, Aerospace, pc and electronic devices, Buildings and Structures, Medical instrumentation Applications, trade goods and applications, rotating machinery applications and plenty of additional. Sensible Materials also are used in several creative covering technologies, wearable technologies that involve the utilization of e-textiles. It's employed in the structures of technology and design that disclose and uncovers the traditional and spectacular architectures by human or modify the earth’s earth science. Smart materials square measure getting down to play a vital role in technology styles for dams, bridges, highways, and buildings.

Square measure helpful conjointly to get rid of corrosion of a Navy Pier and conjointly engineers square measure introducing sheets of composites materials containing sensors that may alert maintenance. The recent analysis in distinct areas like technology, structural engineering and archaeological technology goes on with totally different theories of environmental, geotechnical, structural and construction engineering.

• Wearable technology
• Medical equipment applications
• Consumer goods and applications
• Rotating machinery applications
• Architecture
• Sensors

Session 11: Thermoelectric Materials

These materials have ability to convert thermal energy into electric energy or provide refrigeration directly from electric energy. Thermoelectric generators are used in wide range. Industrial processes waste heat will be reused to electric energy. They are utilized as power source in satellite, space probes. They are useful in small portable applications. These materials are environmental friendly. There will be no moving parts so that maintenance is required less frequently. They are authentic source of energy and recycles wasted heat energy.

Session 12: Optical & Electronic Smart Materials

Optical and Electronic Smart Materials are connected and related with light and electricity. Optical and Electronic materials comprise the study, design, and manufacturing of smart materials that can convert electrical signals to light signals and light signals to electrical signals. The devices which convert them is called optoelectronic devices. Optoelectronics escalates in the quantum mechanical effect of light. These optoelectronic technologies consist of laser system, remote sensing systems, fiber communications, and electric eyes medical diagnostic systems.

Session 13: Nano scale Materials and Nanotechnology

Nano Technology is the science deals with the acute very tiny particles or one dimension sized particles from one to 100 nm said as Nano particles. Most nanoparticles are very small to be seen in a naked eye. These particles have the ability to manage individual atoms and molecules. It plays a very major role in determining the efficacy of mechanical reinforcement. These materials are used for a vast range of applications. Thanks to the assorted potential applications wide variety of theory goes beneath the Nano technology throughout the globe like surface science, chemistry, biology, semiconductor physics, energy storage, tiny fabrication, molecular engineering, etc.

• Carbon nanotubes
• Quantom dots
• Nanoshells (kill tumor cells selectively)
• Nanopores
• Metal rubber

Session 14: Nano medicine

Nano medicine is the application of Nano science and its technology in the field of medical science. It ranges from the applications of Nano materials to biosensors, also for further upcoming applications of molecular nanotechnology such as biological machines. Most of the biological structures are equal to the size of the nanomaterial. So the functionalities of those structures can be quickly replaced by means of adding the specific functionality to nanoparticles.

• Drug delivery
• Therapy techniques
• Diagnostic techniques
• Anti-microbial techniques
• Cell repair

Session 15: Smart Polymers

Smart Polymers go through large reversible changes either in their physical or chemical properties due to the little environmental variations. These Smart Polymers are temperature sensitive polymers; the main classes of these temperature responsive polymers are Shape Memory Alloys, Liquid Crystalline Materials and responsive polymer solutions. These materials are delicate to several factors such as humidity, pH, temperature intensity of light and many more. Due to the wavelength or magnetic field they are able to respond in different ways like transparency, becoming conductive or changing shapes which are usually shape memory polymers. Minute change in the environment is enough to produce a large change in the polymer’s characteristics

We would like to thank all of our magnificent keynotes, speakers, conference attendees, students, associations, media partners and guests for making Materials Research 2020 a successful and splendid event.

Conference Series LLD hosted the event of “3^rd International Conference on Materials Science and Research” on November 18, 2020 as a Webinar with the theme “Technological Progression & Advancements in the field of Material Science and Engineering”. Benevolent response and active participation was received from the Editorial Board Members of supporting International Journals as well as from the leading academic scientists, researchers, research scholars, students and leaders from the field of Material Science who made this event successful.

The conference was marked by the attendance of young and brilliant researchers, business delegates and talented student communities representing more than 18 countries, who have driven this event into the path of success. The conference highlighted through various sessions on current research.

Materials Research 2020 witnessed a union of peerless speakers who enlightened the crowd with their knowledge and confabulated on various new-fangled topics related to the fields of Material Science and Research.

The meeting was carried out through various sessions, in which the discussions were held on the following major scientific tracks:

• Materials Science and Engineering
• Applications of Smart Materials
• Smart Control Systems
• Polymers Science & Engineering
• Nanotechnology Applications
• Advanced Materials
• Applications of Nanotechnology
• Nanotechnology Applications in Electronics
• Polymer Science and Engineering
• Optical and Electronic Smart Materials
• Bio inspired and Biomimetic Materials
• Green Nanotechnology
• Nano robotics

The conference proceedings were carried out through various Scientific-sessions and plenary lectures. The conference was embarked with an opening ceremony followed by a series of lectures delivered by both Honourable Guests and members of the Keynote forum. The adepts who promulgated the theme with their exquisite talk were:

• Albert Chin | National Chiao Tung University | Taiwan
• Ali  Sabea Hammood | University of Kufa | Iraq
• Kenji Uchino | Penn State University | USA

We are also obliged to various delegate experts, company representatives and other eminent personalities who supported the conference by facilitating active discussion forums. We sincerely thank the Organizing Committee Members for their gracious presence, support, and assistance towards the success of Materials Research 2020.

• Nivedtha Martin | Arul Anandul  College | India
• Vinoth Kumar | Anna University  | India

We are also obliged to various delegate experts, company representatives and other eminent personalities who supported the conference by facilitating active discussion forums. We sincerely thank the Organizing Committee Members for their gracious presence, support, and assistance towards the success of Materials Research 2020.

Market Analysis on Materials analysis : Materials Research 2021 has incited to the arrival of varied Nano Materials, Biomaterials, Energy Materials, Ceramic and Composite materials, Surface materials, Defence and region materials through the innovation within the advancement of fabric chemistry. This Conference provides a platform to gift recent innovations and analysis results. All the merchandise from renewable to non-renewable, medical devices to artificial tissues, computers to cell phones, and plenty of additional square measure made up of materials. Chemistry of the materials vie an important role within the analysis of latest materials.

Market value On Materials : Lightweight material markets square measure light-weight to grow from USD eighty eight.5 billion in 2014 to USD 133.1 billion in 2019 at a CAGR of eight.5%. These light-weight materials embody the usage of Automotive, Marine and Wind energy. The electro active polymers were calculable to extend from USD three.26 billion in 2016 to USD five.12 billion in 2022 at a CAGR of seven.9%. Plastics square measure calculable to extend from USD 340.99 billion in 2016 calculable to accomplish USD 493.74 billion in 2022 at a CAGR of 6 June 1944. Nanomaterial markets calculable to grow from USD fourteen, 741.6 million in 2015 to USD fifty five,016 million in twenty22 at a CAGR of 20.7%.

Biomaterials markets have inflated from USD seventy.90 billion in 2016 to USD 149.17 billion by 2021 at a CAGR of 16 PF.3D Printing material markets square measure expected to succeed in USD one,871 million by 2022 at a CAGR of eighteen.3%. Polymers square measure largely used for printing. Asian and therefore the {middle east |Middle East | Mideast |Near East |geographical square measure| geographic area| geographical region| geographic region} chemical industries are possible to grow by three D on a median within the next twenty years. Asia alone holds common fraction of the market by 2030. Growth in Europe is anticipated to be moderate at simply I Chronicles which ends up in loss of half-hour jobs within the European industry by 2030. this competitive atmosphere suggests that European firms square measure well positioned within their home markets however not in the world markets.