Track 1: Spintronics, Optical Materials and Plasmonics

Optical materials which are utilized in the development of focal points, mirrors, windows, crystals, polarizers, finders, and modulators. These materials serve to refract, reflect, transmit, scatter, Detachment Materials. Materials in partitions innovations: Structural Membranes: Structural films perform control and stream works on the large scale level. Growing new materials for auxiliary individuals with more prominent consumption, disintegration and wear obstruction, and other improved properties will give operational vitality investment funds regarding longer hardware lifetimes, fewer shutdowns, and novel gear structures that preserve vitality.  

Track 2: Carbon Nanostructures and Grapheme

Carbon is firmly associated with nearly all that we manage in a regular schedule. Because of its extraordinary properties, for example, high solidness at natural conditions, diverse hybridizations, solid covalent bond arrangement and simple of mixes development, carbon has been a point of logical enthusiasm for a few regions.  

Graphene is an allotrope of carbon as a two-dimensional, nuclear scale, the hexagonal cross-section in which one molecule shapes every vertex. It is the essential auxiliary component of different allotropes, including graphite, charcoal, carbon nanotubes and fullerenes

Track 3: Science and Technology of Advanced Materials

Advanced Materials for Energy for energy sources, have to be compelled to build new discoveries for catalysts to convert feedstock’s into fuels, new architectures for higher star cells DSSC’s and materials for advanced energy storage, as well as metallic element batteries.

Track 4: Advanced Materials and Research

Materials science in Industry has many applications which include materials design that incorporate the classic principles of good design with the transformation of technology and sciences, cost-benefit in industrial production of materials, processing methods like rolling, welding, casting, crystal growth, thin-film deposition, ion implantation, glass blowing, etc. and analytic methods such as electron microscopy, calorimetry, X-ray diffraction etc.

Track 5: Nanotechnology & Advanced Materials

Nanomaterials are high importance nowadays in most fields such as Medicine, Chemotherapy, Drug delivery, Manufacturing processes, Paints, etc., because of their novel characteristics like increased strength, Chemical reactivity or conductivity. Artificially made nanomaterials are those which are engineered for an intention with the physio-chemical properties for a specific purpose or function. The methods of preparing nanomaterials also differ based on the purpose. Nanotechnology is highly used in detecting devices as their nanostructure with greater surface area per weight allows the electrical properties of the detecting elements to be changed easily.  

Track 6: Optoelectronics

Optoelectronics is a specific discipline of electronics that focuses on light-emitting or light-detecting devices. Light-emitting devices use voltage and current to produce electromagnetic radiation  i.e., light. Such light-emitting devices are commonly used for purposes of illumination or as indicator lights. In contrast, light-detecting devices, such as phototransistors, are designed to convert received electromagnetic energy into electric current or voltage.

Track 7: Microstructure and Characterization of Materials

Nanostructured Materials (NsM) are materials with a microstructure the trademark length size of which is on the request of a couple (commonly 1–10) nanometers. NsM might be in or far from thermodynamic harmony. Nanostructured Materials combined by supramolecular science are cases of Nanostructured Materials in thermodynamic harmony.  

Track 8: Structural engineering and Aerospace Structures

The Materials used for Manufacturing of engineering products are termed engineering materials. These engineering materials are the backbone of all engineering products. The design, manufacturing, commercialization and performance of any engineering products are basically depends on the material being used for that product.

Track 9: Ceramics, Polymer and Advanced Fiber Composites

The recent advances in Polymer Chemistry such as the innovative Polymeric Smart materials, Application of Polymers in Medicinal field, their application in different domains of Science and Technology. The significant role of polymers in human life will be highlighted in this Conference and this will be a milestone in the revolution of Materials and Polymer Chemistry. Discussions related to Materials and Polymer Chemistry through variable means will definitely explore the new methods to improve the existing technologies and to develop new applications of the polymer with an aim to make the Environment Eco-Friendly.

Track 10: Nanoparticle and Nanoscale Research

Nowadays, gene delivery for therapeutic objects is considered one of the most promising strategies to cure both the genetic and acquired diseases of human. The design of efficient gene delivery vectors possessing the high transfection efficiencies and low cytotoxicity is considered the major challenge for delivering a target gene to specific tissues or cells. On this base, the investigations on non-viral gene vectors with the ability to overcome physiological barriers are increasing.  

Track 11: Biomedical Nanotechnology

The major thrust of biomedical nanotechnology is to apply the benefits of nanotechnology to healthcare e.g., imaging and diagnostics; nanodrugs; drug delivery; prostheses; and implants; etc. Nanotechnology has been earlier used to improve drug properties. For example, pacliaxel Taxol, an anticancer drug, which is used to treat primary epithelial ovarian carcinoma, breast, colon, and lung cancers, exhibits low water solubility and, therefore, poor bioavailability.  

Track 12: Advanced Functional Materials and Nanoscience

There are many definitions of these terms. We will define it as science and technology of structures made of materials or composites of inorganic and organic materials where at least one dimension is less than 100 nm, and in addition new phenomena are observed which result from such a small size.

Material with characteristic geometric dimensions below 100 nm and new properties resulting from the nanostructure. In the following text the term nano-sized material and nanostructured material will be frequently interchanged.

Track 13: Cluster Science and Nanotoxicology

The branch of nanotoxicology deals with the study relating to the toxicity of the nano materials, as it is imperative to know that how toxic a nano material is before using it for various applications. The effects and impacts on human health also needs to be assessed accordingly.  

Nanoclusters represent a group of nanoparticles having at least one nanoscale dimension and size distribution within a narrow range. They may be composed of the single atom of an element or combinations of atoms of different atom in stoichiometric ratios.  

Track 14: Fundamentals and Applications of Photonics and Nanostructures

Nanostructures have been described as novel materials whose size of elemental structure has been engineered at the nanometer scale. Materials in the nanometer size range commonly exhibit fundamentally new behavior. Moreover, intervention in the properties of materials at the nanoscale enables the creation of materials and devices with enhanced or completely new characteristics and functionalities. Understanding the science of nanomaterials is important and curiosity driven not only because of the fascinating nature of the subject but also for overwhelming and novel applications of nanoscale systems in almost all branches of technology.  

Track 15: Nano sensors and other Devices

Nanosensors are platforms with a characteristic dimension - nanometer in scale, and work in much the same way as a sensor; they detect either minute particles or miniscule quantities of something. Nanosensors are chemical or mechanical sensors that can be used to detect the presence of chemical species and nanoparticles, or monitor physical parameters such as temperature, on the nanoscale.They find use in medical diagnostic applications, food and water quality sensing, and other chemicals.

Track 16: Nanometrology and Instrumentation

Nanometrology is the science of measurement at the nanoscale level. Nanometrology has a crucial role in order to produce nanomaterials and devices with a high degree of accuracy and reliability nano manufacturing. This reference provides following further explanations: Nanometrology includes length or size measurements where dimensions are typically given in nanometres and the measurement uncertainty is often less than 1nm as well as measurement of force, mass, electrical and other properties.

Track 17: Electronic and Magnetic materials

Electronic materials which encompass semiconductors, dielectrics, ferroelectrics, half metals and superconductors. Warwick research includes epitaxial growth of a range of electronic materials; fabrication of devices from the materials and demonstration of their functionality for applications in healthcare, the low-carbon economy and information processing.

Track 18: Development of New Advanced Materials

Nanomaterials are characterized as materials with no less than one outside measurement in the size extent from around 1-100 nanometers. Nanoparticles are items with each of the three outside measurements at the nanoscale. Nanoparticles that are normally happening e.g., volcanic powder, ash from woodland fires or are the accidental side effects of ignition procedures e.g., welding, diesel motors are generally physically and synthetically heterogeneous and frequently termed ultrafine particles. Built nanoparticles are deliberately delivered and planned with particular properties identified with shape, size, surface properties and science.  

The research report on Global Advanced Materials and Nanotechnology Market 2020 keenly analyzes significant features of the industry. The analysis servers market size, latest trends, drivers, threats, opportunities, as well as key market segments. It is based on past data and present market needs. Also, involve distinct business approaches accepted by the decision makers. That  intensifies growth and make a remarkable stand in the industry. The Advanced and Nanotechnology Market size is forecast to reach $ 121.80 Billion by 2025, after growing at a CAGR of 14.3% during 2020-2025. The growth of the global nanotechnology market is driven by factors such as the rise in nanotechnology adoption in medical diagnosis & imaging and technological advances in nanotechnology devices. In addition, rising government support and R&D funding and the advent of self-powered nanotechnology devices are providing lucrative opportunities for the nanotechnology market. Furthermore, overall increases the growth of the Nanotechnology Industry over forecast period.

Electronics and Semiconductor sector has been the primary market for Nanotechnology for many years and is expected to grow at the CAGR of 16.4% over the forecast period from 2020 to 2025. The production and demand in top countries for electronics & semiconductor industry are expected to boom over the next five years. The emergence of developing nations with increasing penetration of consumer electronics fuels the market growth. As nanotechnology have wide range of applications in this sector, the market is estimated to grow at a significant rate during the forecast period. Some of the recent trends of semiconductor that has raised the demand for more semiconductors are the fabrication of artificial intelligence chips which can be used in several applications like smartphones for facial recognition, voice commands, and image-processing. China exports around 50% of the worldwide technology supply chain; hence the global tech sector is predicted to face massive disruptions because of the spread of the coronavirus and its effects on production in China. The outbreak has already valued at 12% decline in smartphone production, while smart watch production set down a drop of about 16%. Laptops, PCs and smart speakers are other products that have set down significant declines.

Our Organizing Committee cordially invites participants from all over the globe to attend the 27^th International Conference on Advanced Materials, Nanotechnology and Engineering on June 21-22, 2021   at Tokyo, Japan. The conference is focused on the theme “Scrutinizing the latest approaches in the sphere of Nanotechnology ".

This auspicious event will provide the best platform for the speakers and delegates with its well-organized program, the attendees will be encouraged to participate in interactive panel discussions, keynote lectures, plenary talks, and poster sessions. As this is a global event it will be golden opportunity for the participants which will not only improve their connections across the world but also will help us understand the international perspective of Materials Science Engineers, Nanotechnology Engineers, Researchers from Mining and Metallurgy field Scientists and students from Tissue Science engineering and Biomaterials.

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

• Advanced Materials and Research
• Nanotechnology & Advanced Materials
• Optoelectronics
• Microstructure and Characterisation of Materials
• Structural Engineering and Aerospace Structures
• Ceramics, Polymer and Advanced Fibre Composites
• Nanoparticle and Nanoscale Research
• Biomedical Nanotechnology

We are obliged to the various delegates from companies and institutes who actively took part in the discussions. We sincerely thank the Organizing Committee Members and Editorial board of Advanced Materials 2021 for their gracious presence and continuous support throughout the proceedings of this event. With the valuable feedback and generous response received from the participants of the event, Conference Series LLC would like to announce the commencement of 28^th International Conference on Advanced Materials, Nanotechnology and Engineering on June 13-14, 2022 Tokyo, Japan

Let us meet again @ Advanced Materials 2022