Applications Of Nanotechnology In Textiles And Other Fields

Nanotechnology is an emerging interdisciplinary technology that has been booming in many areas during the recent decade, including materials science, mechanics, electronics, optics, medicine, plastics, energy, electronics, and aerospace. Its profound societal impact has been considered as the huge momentum to usher in a second industrial revolution. The "nanD" in nanotechnolgy comes from the Greek word "nanos" that means dwarf. Scientists use this prefix to indicate 1 0-9 or one-billionth. One nanometer is one-billionth meter that is about 1 00,000 times smaller than the diameter of a single human hair.

Nanotechnology endeavors are aimed at manipulating atoms, molecules and nanosize particles in a precise and controlled manner in order to build materials with a fundamentally new organization and novel properties. The embryo of nanotechnology is "atomic assembly", which was first publicly articulated in 1959 by physicist Richard Feynman. Nanotechnology is called a "bottom up" technology by which bulk materials can be built precisely in tiny building blocks, different from the traditional manufacture "top down" technology. Therefore, resultant materials have fewer defects and higher quality. The fundamentals of nanotechnology lie in the fact that properties of substances dramatically change when their size is reduced to the nanometer range. When a ulk material is divided into small size particles with one or more dimension (length, width, or thickness) in the nanometer range or even smaller, the individual particles exhibit unexpected properties, different from those of the bulk material. It is known that atoms and molecules possess totally different behaviors than those of bulk materials; while the properties of the former are described by quantum mechanics, the properties of the latter are governed by classic mechanics. Between these two distinct domains, the nanometer range is a murky threshold for the transition of a material's behavior. For example, ceramics, which normally are brittle, can easily be made deformable when their grain size is reduced to the low nanometer range. A gold particle of 1 nm across shows red color. Moreover, a small amount of nanosize species can interfere with matrix polymer that is usually in the similar size range, bringing up the performance of resultant system to an unprecedented level. These are the reasons why nanotechnology has attracted large amounts of federal funding, research activity and media attention. The textile industry has already impacted by nanotechnology. Research involving nanotechnology to improve performances or to create unprecedented functions of textile materials are flourishing. These research endeavors are mainly focused on using nanosize substances and generating nanostructures during manufacturing and finishing processes.

Nanotechnology - A Process of Evolution

Anyone that realizes that nanotechnology news and the headlines related to nano news are ever-changing, also must realize that nanotechnology is a field that is under the process of a rapid evolution. There are many new nanotechnology jobs currently opening up and anyone currently pursuing the study of Nanoscience is assured that there will be plenty of nano jobs in the future. New facilities and scientific teams are being established and assembled all the time, and the more advances that are made in the field of nanotechnology, the more promising the nano jobs outlook will be. Nano news headlines will continue to evolve as the field of nanotechnology evolves and reveals the endless discoveries and inventions being created by nanotech researchers from all over the world.

We need to be clear about the difference between Nanoscience and nanotechnology before we begin to note all of the advances being made in the field. First, Nanoscience is simply the study of nanostructures, while nanotechnology is the implementation and application of such understandings in various industries throughout the world. In the nanotechnology field, new students of Nanoscience will be entering into the industry in search of nano jobs that match their level of skill and educational focus. This shouldn't be a problem however as the food, medical, space, cosmetic, and electronic industries are turning to the use of nanotechnologies to improve upon industry operations, manufacturing, and processing.

The word Nanotechnology is making it on nanotechnology news headlines nearly every day. More universities are offering coursework and programs specifically for the pursuit of Nanoscience studies; this is to address the future demand for nanotech researchers and this is a positive sign for those seeking nanotechnology jobs, both now and in the future. Students of Nanoscience will primarily focus on the study of nanostructures and how such structures can be manipulated. When moving into the field of nanotechnology and working in various nanotechnology jobs, nano researchers will usually deal with two chief forms of nanotechnology: bottom up and top down nanotechnologies. The latter forms of nanotechnology refer to the directional operation of such workings; Top down nanotech work involves the miniaturization of structures while the bottom down nanotechnology field focuses on the enlargement of various structures.

So why are so many industries opening up new avenues for nano research, nanotechnology jobs, and development? If someone notes the latest nanotechnology news headlines it isn't too difficult to surmise; many of the advances in nanotech research are proving to benefit industries by helping them save money in production and manufacturing arenas. Cost saving processes of manufacturing are being continuously developed through nanotechnologies, and both industries and consumers are benefiting from the discoveries. New avenues of nanotech research are also paving inroads in the medical industries as innovative health treatments, diagnostic equipments and methods, and better treatments are being discovered as well. Since recent advances have exhibited a positive effect for industries and consumers, there is a push for more advances in the field of nano research.

Developments in nanotechnology are currently exhibiting a certain potential for aiding humanity and changing the world in which we live too. Nano research is being conducted presently that can be used in energy conversation efforts, as well as in filtering water so that people can have access to fresh, clean water in areas of the world where pure water is a true commodity. Thus, nanotechnology news will, undoubtedly, soon be revealing headlines about world wide use of nanotechnology. Those individuals interested in the future developments in the field of nanotech research need to monitor the headlines closely as new nano news emerges. It will allow those seeking nanotechnology information to remain informed, and current as far as an awareness about the latest developments as well as some of the existing controversy that surrounds the emerging discoveries in this exciting field.

NANOTECHNOLOGY IN MEDICINE

Nanotechnology, over recent years, has seen a surge in research activity, with great potential in a wide range of applications including drug delivery, diagnostics, tissue engineering and regenerative medicine. The development of tools like the scanning tunneling microscope and the atomic force microscope has enabled researchers to observe structures on the nanoscale, where materials may exhibit different properties due to their size.

Also, the development of new materials like carbon nanotubes and buckyballs, along with the improved understanding of the molecular processes linked to diseases has provided novel approaches in improving current therapeutic and diagnostic tools.

The majority of current commercial applications of nanotechnology to medicine are geared towards drug delivery to enable new modes of action, as well as better targeting and bioavailability of existing medicinal substances.

The aim of this paper is to present the various aspects, the benefits and disadvantages of nanotechnology in the field of medicine, considering drug delivery as a major aspect.

In drug delivery, nanotechnology is just beginning to make an impact. Many of the current "nano" drug delivery systems, however, are remnants of conventional drug delivery systems that happen to be in the nanometer range, such as liposome, polymeric micelles, nanoparticles, dendrimers, and nanocrystals.

The importance of nanotechnology in drug delivery is in the concept and ability to manipulate molecules and supramolecular structures for producing devices with programmed functions. The nanoparticles used for drug delivery present a mechanism to overcome the challenges posed by other drug delivery systems.

Some of the challenges of most drug delivery systems include poor bioavailability, in vivo stability, solubility, intestinal absorption, sustained and targeted delivery to site of action, therapeutic effectiveness, side effects, and plasma fluctuations of drugs which either fall below the minimum effective concentrations or exceed the safe therapeutic concentrations. However, nanotechnology in drug delivery is an approach designed to overcome these challenges due to the development and fabrication of nanostructures at submicron scale and nanoscale which are mainly polymeric and have multiple advantages. Generally, nanostructures have the ability to protect drugs encapsulated within them from hydrolytic and enzymatic degradation in the gastrointestinal tract; target the delivery of a wide range of drugs to various areas of the body for sustained release and thus are able to deliver drugs, proteins and genes through the peroral route of administration.They increase oral bioavailability of drugs due to their specialized uptake mechanisms such as absorptive endocytosis and are able to remain in the blood circulation for a longer time, releasing the incorporated drug in a sustained and continuous manner leading to less plasma fluctuations thereby minimizing side-effects caused by drugs.