7^th International Conference on
Smart Materials and Nanotechnology (Webinar)

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

Advanced Materials Conferences | Nanotechnology Congress | Germany Conferences

Shape Memory Alloys have mainly two phases Austenite and Martensite. Austenite phase is symmetric and Martensite site is less symmetric. shape memory alloys are unique class of metal alloys when heated above certain temperature can recover apparent permanent strains which are caused in it. They have high strength, good elasticity, fatigue resistance, wear resistance, easy fabrication and many more. SMA’s have the potential to be used effectively in seismic region.

Shape Memory polymers are the compound plastics polymers that have a special chemical structure. The glass transition temperature (Tg) plays a vital role in Shape Memory Polymers. Above the Tg these Shape Memory polymers become rubber elastic and flexible. These Materials can solve engineering problems with unachievable effectiveness.

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

Optical and Electronic materials include 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. These materials are connected and related to light electricity. Optoelectronics escalates in the quantum mechanical effect of light. These optoelectronic technologies consist of remote sensing systems, laser system, fiber communications, and electric eyes medical diagnostic systems.

Smart Sensors are analog/digital transducers which are combined with a processing unit and a communication interface. It consists of a transducer element and signal conditioning electronics that support some intelligence in a single package. These smart sensors are integrated with electronics that can perform functions such as data conversion, Bidirectional communication, take decisions and perform logical operations.

Smart Sensors Conferences | Materials science Congress | Conference on Advanced Materials

Smart Nanomaterials are having their presence strongly felt in the areas like healthcare.Smart Nanomaterials in healthcare industry respond to injuries by delivering drugs and antibiotics.These new materials may incorporate nanosensors, nanocomputers and nanomachines into their structure.Smart materials in the nanotechnology hold the possibility for extremely complex solutions.

Bioinspired materials are synthetic materials whose function, properties and structure mimic those of natural materials.These bioinspired design concepts are rapidly integrated into many applications.They are used in wide range of materials and devices intended for medical, industrial, consumer, military and energy sectors. Light harvesting photonic materials that mimic photosynthesis,  camera lenses  inspired  by  compound  eyes of  insects  etc,.  is  one  of  the  examples  of  the  bioinspired  materials.

Bioinspired Materials Conferences | Biomimetic Materials Conferences | Nanotechnology Congress

Smart Materials have a wide range of applications in the field of engineering. They are used in Marine, Aerospace, Computer and electronic devices, Buildings and Structures, Medical Equipment Applications and many more. Smart Materials are also used in many intelligent clothing technology, wearable technology which involve the use of e-textiles. It is used in the structures of civil Engineering and Architecture which disclose and uncovers the ancient and spectacular architectures by human or modify the earths geography. The recent research in different areas such as civil engineering, structural engineering and archaeological technology is going on with different principles of environmental, geotechnical, structural and construction engineering.

Materials Science Conferences | Smart Polymers Conferences | Smart Materials Conferences

These smart textile materials are functional textile materials that can sense and react to environmental conditions. They have applications in various fields such as medical science and engineering, automotive and aeronautics, personal protective equipment, sports, interior designs etc. They play a very major role in science and technology because of their commercial viability. All these innovations on smart textiles play a major role in textile industry in its transformation into a competitive knowledge driven industry. Moreover, combining smart wearables with internet of things has a profound impact on research, development and applications of wearable technology with increased challenges and opportunities.

Smart Textiles Conferences | Smart Wearables Congress | Smart Materials Conferences

Nanomaterials are engineered materials of miniature size wherein at least one dimension of the material is less than or equivalent to 100nm. Most nanoparticles are too small to be seen in a naked eye. They are made to have extremely small dimensions to take advantage of unique physical and chemical properties that exist at the Nano scale. It plays a very important role in determining the efficacy of mechanical reinforcement. These materials are used for a wide range of applications.

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

Nanotechnology Conferences | Materials Science Congress | Smart Materials Conferences

It refers to the use of nanotechnology to improve the environmental sustainability of processes that are producing negative externalities. For the support 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 encourage replacement of existing products with newer Nano-products that should be eco-friendly to the people. These nanomaterials or nanoproducts can serve a wide variety of applicatons.

Nanomedicine is the application of nanoscience and its technology in the medical field. It ranges from the applications of nanomaterials to biosensors,also for further future applications of molecular nanotechnology such as biological machines. Most of the biological structures are similar to the size of the nanomaterial. So the functionalities of those structures can be easily replaced by means of adding the specific functionality to nanoparticles.

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

Nanoremediation plays an important role in treating the surface water, groundwater and also for the detection of trace contaminants. Nanomaterials used for this purpose are carbon nanotubes and TiO2. Sometimes these nanoparticles are used as a reactive agent or as sorbents. Nanoremediation has also been used for soil and sediment clean-up. Mycoremediation is another technique that is entirely fungus-based remediation which follows the same principle as that of nanoremediation.

A nanolaser is a novel kind of laser that has its dimensions at the nanoscale range. These tiny lasers can be quickly modulated and this thing makes them ideal for on-chip optical computing. The laser’s intense optical field also enhance the effect in non-linear optics or surface-enhanced-Raman-scattering and therefore paves the way toward integrated nanophotonic circuitry.

Light behavioural studies on the nanometer scale and the interaction of those nanometer-scale objects with light is the Nano-optics or Nanophotonics. The goal of Nanophotonics is the use of metamaterials to produce accurate images by the use of superlens. It is a branch of optical engineering, electrical engineering and nanotechnology. This concept further contributes to a general category of nanotechnology that is revolutionizing to some of the miniaturized projects and that is treated by Research and Development departments.

Nanophotonics Conferences | Conference on Nano-optics | Materials Science Congress

Nanorobotics is the novel technology of manufacturing machines or robots at a scale of a nanometre (10-9 metres). A nanorobot is a biological or synthetic device which is designed in such a way that it should perform a preprogrammed task. They have the ability to change their state with respect to the external stimuli and can move through the Brownian motion of other molecules that are present around them. In future, these Nanobots will be used for the wide variety of  purposes.

Nanorobotics Conferences | Nanotechnology Congress | Nanoscience Conferences