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industrial applications of nanotechnology : ウィキペディア英語版 | industrial applications of nanotechnology
Nanotechnology is impacting the field of consumer goods, several products that incorporate nanomaterials are already in a variety of items; many of which people do not even realize contain nanoparticles, products with novel functions ranging from easy-to-clean to scratch-resistant. Examples of that car bumpers are made lighter, clothing is more stain repellant, sunscreen is more radiation resistant, synthetic bones are stronger, cell phone screens are lighter weight, glass packaging for drinks leads to a longer shelf-life, and balls for various sports are made more durable.〔(【引用サイトリンク】url=http://www.nanotech-now.com/current-uses.htm )〕 Using nanotech, in the mid-term modern textiles will become "smart", through embedded "wearable electronics", such novel products have also a promising potential especially in the field of cosmetics, and has numerous potential applications in heavy industry. Nanotechnology is predicted to be a main driver of technology and business in this century and holds the promise of higher performance materials, intelligent systems and new production methods with significant impact for all aspects of society. == Foods == A complex set of engineering and scientific challenges in the food and bioprocessing industry for manufacturing high quality and safe food through efficient and sustainable means can be solved through nanotechnology. Bacteria identification and food quality monitoring using biosensors; intelligent, active, and smart food packaging systems; nanoencapsulation of bioactive food compounds are few examples of emerging applications of nanotechnology for the food industry.〔Suresh Neethirajan, Digvir Jayas. 2009. Nanotechnology for food and bioprocessing industries. 5th CIGR International Technical Symposium on Food Processing, Monitoring Technology in Bioprocesses and Food Quality Management, Potsdam, Germany. 8 p.〕 Nanotechnology can be applied in the production, processing, safety and packaging of food. A nanocomposite coating process could improve food packaging by placing anti-microbial agents directly on the surface of the coated film. Nanocomposites could increase or decrease gas permeability of different fillers as is needed for different products. They can also improve the mechanical and heat-resistance properties and lower the oxygen transmission rate. Research is being performed to apply nanotechnology to the detection of chemical and biological substances for sensanges in foods. In general, food substances are not allowed to be adulterated, according to the Food, Drug and Cosmetic Act (section 402).〔(Federal Food, Drug an Cosmetic Act ) Retrieved 08/22/2012〕 Additives to food must conform to all regulations in the food additives amendment of 1958 as well as the FDA Modernization Act of 1997. In addition, color additives are obliged to comply with all regulations stipulated by the Color Additive Amendments of 1960. A safety assessment must be performed on all food substances for submission and approval by the US FDA. The mandatory information in this assessment includes the identity, technical effects, self-limiting levels of use, dietary exposure and safety studies for the manufacturing processes used, including the use of nanotechnology. Food manufacturers are obliged to assess whether the identity, safety or regulatory status of a food substance is affected by significant changes in manufacturing processes, such as the use of nanotechnology. In their guidance document published in April 2012, the US FDA discusses what considerations and recommendations may apply to such an assessment.
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