This session on Composite Materials focuses its attention on sustainable composite materials with green technologies and its impact on the world and its people. Composite materials developed with green and clean technologies having low carbon foot print and low CO2 emission has become imperative in this already polluted world. How to develop, design and sustain these green composite materials technologies including nanocomposites, structures, design, dynamic effects, unique materials systems, smart materials systems and its applications in industries and in human life are all going to be discussed threadbare and in detail.
Emerging Areas of Materials Science
The emerging areas of materials sciences are new discoveries and new material designs and innovative techniques in material science engineering with an emphasis on solids. Materials such as ceramics, glass, metals, alloys, construction materials and other high technology processing areas. This session discusses, and debates through seminars, paper presentations, posters, research papers and share knowledge and expertise in the emerging areas of research and development in materials science in respect of various materials.
Polymer Science and Materials
This session aims to studying innovations leading to new generation technologies in Polymer Science and Materials. Polymer materials have come to integrate our lives through various applications in industries like aerospace, automobiles, packaging, sports, medicine, plastics, fuels, fishing rods, bicycle, prosthetic devices and surgical equipment etc. The use of polymer products is growing day by day. Polymer Science has wide usage in application of The use of biopolymers and composite polymers are also increasing day by day. How far this polymer science and polymer materials are going to sustain the environment and its impact on global health are going to be the hot discussions and debates in this session.
Biophysics and Systems Biology
The session discusses the advance technological trends and methods in biomedical research disciplines in Biophysics and Systems Biology, wherein the session seeks to discover, analyze, share knowledge and expertise in genomics, proteomics, imaging including computational methods. How these new approaches works to integrate in research activities, structural biology, genetics, cell and molecular biology, including biophysics and systems biological aspects. This new approach complements the study of structure and mechanisms of the body’s building blocks from their embryonic development in both healthy and diseased states. Further, the research trends and technology developments in biophysics and systems biology and how these are going to change the face of biophysics and systems biology are the hot topics that would be discussed and debated threadbare in detail in this session.
Materials Chemistry and Sustainable Chemistry
For decades of manufactured products that supposed to benefit the society and its people had had negative impact on health of the people and the environment. It is understood the sustainable chemistry and materials chemistry plays an important role in sustaining a healthy environment and a greener world impacting human health. This session on Materials Chemistry and Sustainable Chemistry discusses the issues concerning sound chemical management in materials and sustainable chemistry being the main building block towards making the world a safe place to live in free from pollution. To achieve these ends what means to be adopted through materials chemistry and sustainable chemistry is going to be the main topic for discussion in this session.
Biomaterials and Tissue Engineering
This session on Biomaterials and Tissue Engineering discusses about the new discoveries in disease remediation, building unique molecular designs and innovative medical technologies in tissue engineering. Several topics like unique molecular biomaterials, immunology, new materials for delivery, stem cell biology, clinical practice, and translation of biomaterials science etc. Keynote addresses by celebrities in their respective fields will throw light on the trends and development in biomaterials and tissue engineering etc. This session discusses, debates, and share knowledge on the developments in the related fields concerning biomaterials and tissue engineering.
Surface Science and Engineering
The process of mixing solids with liquids gases, vacuum and mixing of liquids with gases is called Surface Science. And its practical applications in their related fields is known as Surface Engineering. Surface Engineering comprises of spectroscopic analysis of methods X-ray, photoelectrons, low-energy electron diffraction, electron energy losses, thermal desorption, ion scatterings, secondary ion mass spectrometry, dual polarization interferometry and so on. This session on Surface Science and Engineering discusses, debates, share knowledge, network and gain insights into the advancements in respective fields of surface science and engineering and its impact on the world and its people in general.
Mining and Metallurgy
Exploring ongoing trends in Mining and Metallurgy is going to be the main topic in this session. Points to be raised in this session include combating the thermal stress in hot mining sites, safety standards for miners, mine wastes including engineering solutions in metallurgy that spans alloys, ceramics, compounds like uranium to hydrogen, unconventional materials, low symmetry materials and so on. Mining produces raw materials which are highly impure which needs to be refined and upgraded to bring them in use for the society at large. This process of refinement and upgradation of impure raw materials procured from mining are going to be discussed about the trends and technologies involved and so forth. All the participants shall share their knowledge and expertise through paper presentations, Eposters, research papers, and through lively debates and discussions.
Energy Materials are many and diverse such as Biomass Materials, Piezeoeletric Materials, Materials for Energy Savings and Sustainability, Energy Storage Materials, Solar Energy Materials, Harvesting Energy Materials, and so on. This session on Energy materials disseminates the knowledge through presentation of scientific papers, research papers, Eposters, and others, and by discussing and sharing knowledge on strategies, policies, regulations, environmental impact, generation of energy through green technologies, and thermal, hydro, solar, wind, nuclear, natural gas, biomass etc. The research on energy materials and further developments and its impact on conservation and renewable energies without the adverse effects on environment and health of the people. Everything is going to be covered in this session Energy Materials.
Nanotechnology and Material Science
Nanotechnology has come to integrate our lives with every material being miniaturized from stents to pacemakers to micro chipsets to sensitive parts in spaceships and airplanes. Nanotechnology is the science of engineering and technology that converts materials at nanoscale. Nanotechnology and material science has together brought major developmental changes in the fields of information technology, transportation, security systems and applications, renewable energy, green technology, biomaterials, silicon and several other fields. Nanotechnology is at the epicentre of many technological developments that is raising the living standards of human life qualitatively. Yet mysteriously there is something lacking that needs to be addressed by materials sciences and nanotechnology. What the things that nanotechnology and materials sciences has to symbiotically address the issues is going to be the main point of discussion in this session of Nanotechnology and Material Science.
Material Science and Engineering
Materials Science and Engineering is a multifaceted acclaimed science dealing with materials such as metals, polymers, ceramics and other thousands of materials which has integrated human life since the beginning of the universe. From simple axe and hammer to airplanes and spaceships to computer chips to large manufacturing equipment everything is dealt by Materials Science and Engineering only. The more the discoveries are made in materials science, there is still something lacking as there is no end to human wants. Yet, Materials Science Engineering is braced up for the new challenges ahead that the human wants throw up in the ring. How material science and its Engineering wing is going to meet such demands of human life is going to be the hot topic of the day in this exciting Conference on Material Science and Engineering.
Industrial Coating Materials
The conference session on Industrial Coating Materials focuses on the aspects of thin-film depositions, characterization, advanced surface engineering. This is a wonderful opportunity for technologists, scientists, engineers, students, research scholars, coating technicians from laboratories, academics, etc to exchange and share ideas, knowledge, and network and gain insights into the emerging trends in Industrial Coating Materials. The session addresses all the issues connected to industrial coating materials such as manufacturing, innovation, research, characterization, designing, and unique methods of analyses, issues relating to commercial applications, regulating policies, greener technologies and how to make industrial coating materials environmental friendly.
Graphene Materials and Technologies
Graphene Materials and Technologies has caught the imagination of the industries and business enterprises on a large scale. It is going through an exciting period with bright prospects ahead commercially and for the consumers. Many industries are excited to evaluate graphene materials and technologies and bring it closer to the end-users, the consumers. Graphene and its real application development, connecting suppliers and customers, and end-users in this conference is going to be the main agenda of this session. So industrialists, business houses, corporates, entrepreneurs get ready for the big event and join the debate and discussions on graphene materials and technologies.
Photonics is the science of generating, controlling, and detecting photons, esp. visible light and the near-infrared. Photonics deals with the study of optical interconnects, optical networking, encompassing behaviour and property of light, and understanding fundamental research and development in the field of Photonics in respect to launching new applications and technologies. Natural Photonics integrates the light era, emanation, transmission, detecting, signal preparation, balance, location, intensification, exchanging and utilizing natural optical materials. Whereas optogenetics utilizes light to control neurons in living tissues. Photonics is sure to impact Information Technology and Telecommunications, National Security and Defence area Healthcare, Life Sciences through biophotonics, education and research fields, optics research and optical products, components and systems manufacturing processes. This session discusses the emerging trends and future prospects of photonics in the above mentioned fields and areas.
Nanomedicine and Biomedical Engineering
Nanomedicine and biomedical engineering is revolutionizing healthcare industry impacting human lives. But to what extent has this impacted the healthcare industry is a moot point to debate. Indeed, nanomedicine and biomedical engineering is still in its infancy. Innovative cutting-edge technologies and challenges in biomedical engineering such as biomedical devices like diagnosing, preventing or treating diseases, photo detectors, biosensors, biomedical chromatography, biological devices, molecular nanotechnology, and nanomaterials useful in vivo and in vitro biomedical research and applications, integration of nanomedicine and every other aspect in nanomedicine and biomedical engineering and how they would improvise and better healthcare deliverables is going to be the hot topic in this session
This session on Carbon Nanomaterials is going to discuss and share knowledge through presentations, research papers and seminars and live debates on carbon nanomaterials which include carbon nanotubes (CNT), carbon nanofibers (CNF), nanodiamond, fullerenes, onions and many hybrid forms including 3D structures based on these. Carbon nanomaterials such as carbon nanotubes (CNTs) and graphene have super many extraordinary properties and how these carbon nanomaterials are going to impact technologies, the environment, the world, and the people are going to be the hot topics in this session on Carbon Nanomaterials.
Nanomaterials and Nanocomposites
The conference session on nanomaterials and nanocomposites lay stress on recent developments in interdisciplinary research on structure, properties, its processing and morphology in nanostructure materials and nanocomposites and their various applications in various fields. The session indulges in discussions, debates and sharing of knowledge and networking in breakthrough technologies in the field of nanostructure materials and nanocomposites. The advanced research, the progress it made, the emerging trends, the bottlenecks, difficulties and complex issues are all going to be discussed and debated in this session on nanomaterials and nonocomposites.
Big data in Materials Science
Big Data in Materials Science has not been fully exploited to its full potential because of its complex problem. Big data if properly understood, analyzed and exploited it will really push the materials sciences and engineering to most advanced levels. the development of Materials science is interdependent on data and understanding, connecting and applying extraordinary complex information across every level of research and development. Applying of data science techniques to access digital materials data to develop new innovative products on a macro and nano scales. How this is done and what needs to be done to integrate and synchronize big data and materials sciences is the focal point of discussion and debates in this session.
Modified cost effective fibre based structures with improved multi-functionality and performance.
MODCOMP aims to develop novel engineered fibre-based materials for technical, high value, high performance products for non-clothing applications at realistic cost, with improved functionality and safety. This project demonstrates the influence of different surface enhancing and modification techniques on carbon fibre (CF)-based materials for high value and high performance applications. This session discusses an in-depth and broad analysis of material development, coupled with dedicated multi-scale modelling, recycling and safety studies will be conducted in parallel for two types of materials (concepts).
Ceramic Materials has a big role to play in solving energy and environmental issues that has become a global challenge and to the people of the world at large. Ceramics comprises of a wide spectrum of materials ranging from structural ceramic materials to technical ceramics like piezoelectric. Ceramic materials are defined as solids having metallic or semi-metallic elements including non-metallic elements. Advanced ceramics include alumina, zirconia, silicon carbide, silicon nitride and titania-based materials and so on offer high performance and economically alternative to conventional materials. This session on Ceramic Materials offer wonderful opportunity for scientists, technologists, research students, manufacturers, business houses, academia to explore the emerging trends and technologies in ceramic materials and how best they could be adapted in human lives without adversely affecting the world and its people