7th International Conference on
Materials Science and Nanotechnology

Materials Chemistry coordinates in terms of engineering and the integration of high-energy materials, using the concepts of Physical Science. These materials provide bonds, electrical, reactant, or natural attraction. These creations prompted the improvement of redesigned manufacturing procedures. Building materials have a wide variety of structures, ranging from nuclear size to full scale. The quality of bond and structure relies upon the sub-atomic mechanics of materials and bonds related.

Nanomaterials can be synthesized in a variety of modulation of size. It may be not the same nanostructure, such as quantum dots, Nano crystals, atomic clusters, nanotubes, and nanowires, and a collection of the Nano-structures, provides an array, multi-and Nano-structures. The chemical and physical characteristics of the reliability of the techniques, which can be significantly different in the bulk or at the molecular and atomic materials of the same composition. The unique structure, function, dynamics, chemistry, and recognition, as well as the energy of the Nano-structures, is the basis for the field of Nanoscience.

Nanotechnology has an immediate impact on all fields of engineering as new products are discovered and marketed. Some of the areas covered will be high-performance nanomaterials, the impact of nanotechnology on energy systems, nanobiotechnology, including nanomedicine, and nanotechnology suitable for space systems. Some significant developments in thermal systems, as well as future forecasting of nanotechnology, could provide the latest applications.

Nanomedicine is a field of medicine that is being used in practice, and tools of nanotechnology in the prevention and treatment of the disease. Nanomedicine involves the use of materials at the Nano-scale bio-compatible nanoparticles and Nano robots to be aware of, to deliver, assist, and engage the power of the establishment of a living being. Nanomedicine aims to provide a useful tool for doing the research and the clinical use of gadgets, close-up, empty, and in vivo applications.

Nanometrology is a sub-discipline of the field of metrology, and deals with the science of measurement at the Nano-scale, including in quantitative terms, as well as other physical properties, mechanical, electrical, magnetic, and optical properties, and their combinations, chemical, and biological properties of the validity of such techniques, and the events at the Nano-scale.

Carbon nanotubes (CNTs) have emerged as one of the most advanced Nano vectors for the highly efficient delivery of drugs and biomolecules. They offer several appealing features such as large surface areas with well-defined physicochemical properties as well as unique optical and electrical properties.

Endless use in production or bio-polymers is available in everyday life and industry. The ever-increasing demand for new polymeric materials and their novel applications has raised the need for a common communication platform for scientists, academics, and sub-disciplines associated with polymer research. Polymer Sciences offers a wonderful opportunity in the educational network to spread their novel and unusual research results in this regard. These materials, today, fully control the high technology era we live in to such an extent that it has become impossible to live life as we know it now, without these products.

The composite materials have played an important role throughout the history of humanity, beginning with civilization and ends up in future emerging products. Composites have many advantages; the most important among them, the corrosion resistance of the structural flexibility, durability, lightweight, and strength. If autumn is permeating our daily lives, as well as the products used in the construction, medical, oil and gas, transportation, sports, aviation, and much, much more. Some applications, such as rocket launchers, ships, likely to be in the tournament would be out of the earth, the composite materials.

Nanostructure technology develops new materials for optics and photonics such as opening up completely new applications in the fields of imaging, Nano microscopy, photonic crystals and metamaterials, ultra-compact light sources, and optical Nano manipulation.  Laser Optics uses clear clips, coating, or blending both to provide the most common performance at clear laser wavelengths or over wide wavelengths. Many Laser Optics highlight the limit of laser damage intended for a beat or CW lasers. Using a Laser Optic with a poor laser edge than what the laser requires can cause damage to the Optical Component.

The new electronic and magnetic nanomaterials confirm the radical advances in the field of communication, computing, and solid-state lighting. This analysis, consisting of an increase in the volume of the crystal, and the organic semiconductor, the development of thin films and nanostructures, and soft-lithography. Many of the large photonic companies around the world, looking at the different techniques and ideas on the future challenges of the manufacturer and of the integration of laser and photonics products.

Metallurgy is the branch of the materials used in the study of the physical and chemical behavior of the metal element. In the field of metallurgy, it is used for separating metals and ores. There is always a new generation of the chemical, physical, and atomic properties and the structure of the metal, as well as the principles of their connection with the formation of the alloy.

Corrosion emphasis rust of key components of mining equipment such as mine holes, wire ropes, rock bolts, and pumping and piping systems. It covers the diagnosis and prevention of various types of rust including similar rust, perforated piercing, crack rot, rust erosion, and internal rust. The major corrosion due to the rust of tanks, reactor vessels, bicycle loading equipment, and pressure pumps.

Nanobiotechnology is about expanding the boundaries of the detection of individual molecules by improving modern molecular diagnostics. Nanoparticles play an important role in biological therapies, including gene therapy, RNA interference, cell therapy, vaccines, and anti-sensory therapy. The most promising application of Nanobiotechnology is the development of individual products. Diagnosis consolidation, treatment methods, the value of molecular diagnostics, and targeted drug delivery play an important role in this type of application.

Nanochemistry is an atom-to-atom science, or sharper, in chemistry, physics, biology, materials science, technology, and its applications. Nano chemistry is a very complex field of chemistry for the study of nanoparticles and their compounds, reactions, and production. Nanochemistry includes medical, information technology, scientific research, and electronics, which allows you to ensure the structure of the nanoparticles.

Nanofabrication using the goal of dissolving or electrochemical insertion emerges as one of the most effective methods where low- and high-level methods can be successfully implemented to achieve clear and inexpensive nano components of nanotechnology applications. In Nanoplasmonics, researchers are focusing on nanoscale light below the deviation curve by converting free photons into local oscillations - called surface plasmons - into metal nanostructures, which be a pathway for nanoscale radio antenna analogs and are usually designed by a -antenna theory concepts.

Optical Engineering is a field of science and engineering that combines the materials and technologies associated with the manufacture, distribution, deception, discovery, and application of light. Nano photonics or Nano-optics is part of nanotechnology that investigates the performance of light on a nanometer scale and the combination of nanometer-like objects in light. Nano photonics is also regarded as a branch of electrical engineering, optics, and optical engineering - as well as being a branch of nanotechnology.

The rapid development of modern nanotechnology places additional interest in the critical studies of construction technology and the physical properties of materials used. Although the physical properties of any crushed material down to nanometer size are of particular interest, in our opinion, the properties of so-called ferroic materials. Recent advances in acoustic devices have greatly overcome the limitations of conventional acoustic sensors in terms of sensitivity, convenience, performance input, and Vivo viability using nanomaterials.

Nanomagnetism and Spintronics focus on magnetic, magnetic-optical, and spin-transport phenomena experiments on innovative materials and hybrid Nanoscale structures. Spintronics manages individual magnetic times to combine logic functions and data storage consistently on the same platform. As is often the case in summarized science, progress has been made in the combination of nanomaterials and novel high-quality materials.

Nanotoxicology is due to the effects of quantum size and large surface area over volume, nanomaterials have various properties compared to their larger generation of application. Calls for strict regulation of nanotechnology have emerged alongside growing controversy related to the health and safety risks associated with nanotechnology. Nanotribology and Nano mechanics applications are required to develop a basic understanding of communication conditions on a small scale and to study the phenomena of interaction on end-to-end devices, nanotechnology, and other systems.

Recent modelling results show that dendritic polymers can provide the key to building a reliable and economical structure and a production pathway to Nanoscale active materials that can have different properties (electronic, optical, optoelectronics, magnetic, chemical, or biological).

Additive manufacturing, also known as 3D printing, is a disruptive method to industrial production that enables the fabrication of lighter and stronger parts and system technology that grows the three-dimensional thing one superfine layer at a time.

Nanotechnology is used in a variety of applications to improve the environment and to produce more efficient and less expensive energy sources, such as producing fewer pollutants, producing solar cells at a competitive price, purifying natural groundwater pollutants, and purifying organic matter (VOCs) from the atmosphere.

Materials science and engineering are coordinating efforts to prepare and combine the materials are of higher potential with the use of ideas from physics and science. The materials have a variety of types of structures, ranging from nuclear power, and the dimensions of the full-scale level. They also have a natural structure and the reinforcement of the electronic structure. The quality of the bond and the structure will depend on the subatomic to the mechanics of the interior things and related chemical reactions.

High doses of radiation are used in radiation therapy, also known as radiotherapy, as a cancer treatment to eradicate cancer cells and reduce tumour size. Radiation is utilised in x-rays to view inside your body at minimal dosages, such as when x-raying your teeth or fractured bones.

A high-energy photon beam is by far the most common form of radiation used for cancer treatment. It is the same type of radiation that is used in x-ray machines, and comes from a radioactive source such as cobalt, cesium, or a machine called a linear accelerator (linac, for short).

Biomaterials are materials that are primarily used medicinally, in order to repair or replace the damaged tissue. It has a great effect on the cell growth, and tissue distribution. The result is one of such bio-compatible materials, such as implants, amplify, who has redefined the treatment, and the development of bionic devices in tissue engineering and pharmaceutical fields.

Tissue engineering is to investigate the material is a blend of the cells to the design of biologically active molecules, to provide well-organized, tissues, and organs that can be implanted into a donor with the use of a variety of techniques, combined with some physical and chemical factors. The design of the bio-artificial tissues in vitro, are also associated with changes in the in vitro cell growth and in the performance of the implantation of the cells, which are isolated from the donor tissue, and bio-compatible materials.