27^th International Conference on Nanomedicine and Nanomaterials October 17-18, 2019 Abu Dhabi, UAE

Micro-nanoelectromechanical system (MEMS/NEMS) should be intended to perform expected capacities in less time, usually in the millisecond to picosecond. Most mechanical properties are known to be scale subordinate, hence the properties of nanoscale structures should be estimated. For bioMEMS/bioNEMS, bioMEMS/bioNEMS bond between natural atomic layer, sub-atomic layers and the substrate, and erosion and wear of organic layers, can be essential. Bionics is the use of organic techniques and frameworks found in nature to the investigation and plan of engineering systems and modern technology. Bionics implies the substitution or upgrade of organs or other body parts by mechanical adaptations.

Bio-synthesis of nanoparticles is the method through which we can control, through which we can control, size and state of nanoparticles and it gradually viewed as a quick, eco-friendly, and effortlessly scaled-up technology. In the course of recent years researchers have demonstrated their interest for metallic nanoparticles and their synthesis has incredibly expanded. Moreover, the disadvantages are like, the involvement of toxic chemicals and the high-energy necessities of manufacture. Alternative way to overcome the disadvantage is to synthesise living organism like bacteria, fungi and plants. Plant mediated combination of nanoparticles is the green science that associates.

The latest application of Nanotechnology for surgeons are in the area of advancement pf surgical implants using nanomaterial like Imaging, Drug Delivery and the advancement of tissue engineering products. The research has been done in the field of dentistry related to nanotechnology, liposomal Nanoparticles comprises collagenase and this has been tested on rats and found that as compared to the conventional surgery collagenase declining the collagen fibre which makes the teeth to shift easier with braces.

Revelation of stem cells lead to a wide new part of medicine which is known as regenerative medicine. The point of regenerative medication is to enable the body to frame new functional tissue to substitute lost or imperfect ones. Regenerative drug will give remedial treatment to conditions where current treatments are insufficient. Regenerative medicine uses tissue engineering and undifferentiated organism innovation. As of late Regenerative Medicine and Nanotechnology field has been progressing at a consistent rate. Also, this is obvious in the flare-up in the quantity of papers made committed to this field and the development of diaries that emphasis distinctively on this point.

Materials science and Nanoengineering, is a branch which deals with the discovery and design of new elements. A nanomaterial plays a vital role in material science. Scientists from all over the world use carbon nanotubes.  The exclusive properties are strength, physical properties and small proportions. Distinctive sizes of isomers are done in computational procedures. New musings and aggregate research are completed in Nanophotonic. The viewpoints of material sciences which cover the districts like metal, glasses, polymers, electrical materials, biomedical materials. Moved materials has various mechanical progressions to grow new lives. A part of the applications are optical strands, laser fibre sensors for sharp condition, electronic materials for correspondence and information advancement, imperativeness materials for supportable power source and condition, light composites for better transportation.

Nanotechnology provide the possibility to enhance energy effectiveness across all branches of industry and to economically control renewable energy production through new technological solutions and augmented production technologies. Nanotechnology inventions could impact each part of the value-added chain in the energy sector.  Nanotechnologies provide important development potentials for the growth of both conventional energy sources and renewable energy sources for example geothermal energy like sun, wind, water, tides, biomass etc. Nano-coated, wear hardy drill inquiries, such as, allow the optimization of lifetime and effectiveness of system for the progress of oil and natural gas deposits or geothermal energy and thus the saving of costs.

Nanotoxicology is study of the nature and machinery of poisonous effects of nano-particles on living creatures and other organic systems. It also deals with the measurable assessment of the brutality and existence of nano-toxic effects comparative to the exposure of the organisms. Human experience ways are mainly mediated through inhalation, dermal, oral intake or by injection. The small particle size and the shape of nano-material allows to acceptance into blood and lymph circulation and flow to tissues in the body that normally are protected by barriers, such as the brain by diffusion of the blood-brain-barrier (BBB).

Polymer nanocomposites contain polymer or copolymer which has nano particles distributed in the polymer grid. Polymer nanotechnology meeting will create permitting procedures for the designing of practical surfaces. Nanotechnology has made critical assurances to the listing of cements, sealants, coatings, preparing and embodiment mixes. Nanoparticle fillers, for example, bentonites, nano-sized silica particles and zeolites has impelled the development of items with upgraded: warm soundness, water/mixture

Drug delivery systems are bringing about technologies for the targeted drug delivery and measured issue of therapeutic agents. Drugs have long been used to improve fitness and extend lives. Biomedical engineers have given considerably to our understanding of the biological barriers to effective drug delivery, such as transport in the circulatory system and drug movement through cells and tissues; they have also contributed to the growth of numerous targeting ideas of drug delivery that have entered clinical practice.

Nanomedicine has been emerging quickly in recent past years, mostly in the growth of original nano tools for medical diagnosis and treatment. For example, a new tendency is becoming predominant in developing Nanosystems for real-time tumour diagnosis and therapy. A new term "theranostics" has been used and applied very frequently in pre-clinical research and trials. A Nanosystem can at once achieve both cells targeted in vivo imaging and photothermal treatment of cancer. While attaining concurrent high three-dimensional and temporal resolution of the lesions via cell targeting; special non-evasive treatments are applied at the same time by various means, such as local drug release, hyperthermia, and photothermal therapy. Inspired by these stimulating difficulties in biomedical fields, the growth of the nanotechnologies will be the key in speaking some of the serious issues in medicine, especially in early cancer diagnosis and treatment.