The document provides an overview of nanotechnology, discussing its history, current state, and future prospects. It defines nanotechnology as involving research and engineering at the nanoscale (1-100 nanometers). The document outlines major government funding through initiatives like the National Nanotechnology Initiative, as well as university and commercial research. It discusses various applications of nanotechnology across different industries.
For many decades, nanotechnology has been developed with cooperation from researchers in several fields of studies including physics, chemistry, biology, material science, engineering, and computer science. Nanotechnology is engineering at the molecular (groups of atoms) level. It is the collective term for a range of technologies, techniques and processes that involve the manipulation of matter at the smallest scale (from 1 to 100 nm2).The nanotechnology provides better future for human life in various fields. In future nanotechnology provides economy, ecofriendly and efficient technology which removes all difficult predicaments which is faced by us in today life scenario. Nanotechnology is the technology of preference to make things small, light and cheap, nanotechnology based manufacturing is a method conceived for processing and rearranging of atoms to fabricate custom products.
The nanotechnology applications have three different categories nanosystems, nanomaterials and nanoelectronics. The impact of the nanotechnology occurred on computing and data storage, materials and manufacturing, health and medicine, energy and environment, transportation, national security and space exploration. There are many applications of nanotechnology which are exciting in our life such as nanopowder, nanotubes, membrane filter, quantum computers etc.
But there are several problems which are occurred with the exploration of the nanotechnology such as the wastes released while making the materials for nanotechnology are released into the atmosphere and can even penetrate human and animal cells and effect their performance, agricultural countries will lose their income as nanotechnology will take over, if any damage is done at the molecular level then it is not possible to revert it.
Nanotechnology is combination of words nano and technology which means very small size of technology. As we all see, day-by-day the size of the objects shrink, so that they can be easily transportable, easily handle. so nanotechnology helps a lot in this digital world.
Nanotechnology Final.007 Mr. Avanish Agarwal & Makesh IyerAvanish Agarwal
Nanotechnology, upcoming trend in future. A brief introduction to the nanotechnology and its various aspects.
(For Downloads, send me mail
agarwal.avanish@yahoo.com)
Nanotechnology: Basic introduction to the nanotechnology.Sathya Sujani
This simple presentation will help you to understand the every aspects of nanotechnology including basic definition and it's practical application in a very simple yet precise manner.
For many decades, nanotechnology has been developed with cooperation from researchers in several fields of studies including physics, chemistry, biology, material science, engineering, and computer science. Nanotechnology is engineering at the molecular (groups of atoms) level. It is the collective term for a range of technologies, techniques and processes that involve the manipulation of matter at the smallest scale (from 1 to 100 nm2).The nanotechnology provides better future for human life in various fields. In future nanotechnology provides economy, ecofriendly and efficient technology which removes all difficult predicaments which is faced by us in today life scenario. Nanotechnology is the technology of preference to make things small, light and cheap, nanotechnology based manufacturing is a method conceived for processing and rearranging of atoms to fabricate custom products.
The nanotechnology applications have three different categories nanosystems, nanomaterials and nanoelectronics. The impact of the nanotechnology occurred on computing and data storage, materials and manufacturing, health and medicine, energy and environment, transportation, national security and space exploration. There are many applications of nanotechnology which are exciting in our life such as nanopowder, nanotubes, membrane filter, quantum computers etc.
But there are several problems which are occurred with the exploration of the nanotechnology such as the wastes released while making the materials for nanotechnology are released into the atmosphere and can even penetrate human and animal cells and effect their performance, agricultural countries will lose their income as nanotechnology will take over, if any damage is done at the molecular level then it is not possible to revert it.
Nanotechnology is combination of words nano and technology which means very small size of technology. As we all see, day-by-day the size of the objects shrink, so that they can be easily transportable, easily handle. so nanotechnology helps a lot in this digital world.
Nanotechnology Final.007 Mr. Avanish Agarwal & Makesh IyerAvanish Agarwal
Nanotechnology, upcoming trend in future. A brief introduction to the nanotechnology and its various aspects.
(For Downloads, send me mail
agarwal.avanish@yahoo.com)
Nanotechnology: Basic introduction to the nanotechnology.Sathya Sujani
This simple presentation will help you to understand the every aspects of nanotechnology including basic definition and it's practical application in a very simple yet precise manner.
Nanotechnology and its Economic FeasibilityJeffrey Funk
These slides apply the concepts from my course (Analyzing Hi-Tech Opportunities) to the field of nano-technology. Like the reductions in the feature sizes of transistors and metal lines on ICs (integrated circuits), in the micro-fluidic channels on bio-electronic ICs, and in the features of MEMS (micro-electronic mechanical systems), many physical phenomena become pronounced as the feature size decreases. Carbon nano-tubes, grapheme, quantum dots, nano-particles, and nano-fibers are examples of materials that benefit from small sizes. On the other hand, reductions in costs must be addressed through increases in the scale of production equipment and the creation of better processes; similar things occurred with other technologies such as displays and lighting.
TRIGROW – IS A REVOLUTIONARY HIGH TECH NANO ORGANIC FERTILIZER THAT ENHANCE CROP PRODUCTION. IT HELPS CREATE A HABITAT FOR MICROORGANISMS WHEN APPLIED TO THE SOIL ACCELARATING THE REJUVENATION PROCESS RESULTING TO ACCELERATED GROWTH AND DEVELOPMENT OF PLANTS. THIS FERTILIZER HELPS RELEASE THE LOCKED UP NUTRIENTS FROM THE SOIL FOR READY USE AND UTILIZATION OF THE PLANTS.
BECAUSE HABITAT WAS CREATED, MICROORGANISMS CLUSTER AROUND THE ROOT SYSTEM AND SYMBIOTICALLY HELP CONVERT SOIL NUTRIENTS. IT ALSO INDUCES GIBERILLIN PRODUCTION AMONG THE PLANTS GIVING THEM PROTECTION FROM THE PEST AND DIESEASES INFESTATION RESULTING FROM HARMFUL CONDITIONS OF THE SOIL.
NANOMATERIALS AND NANOTECHNOLOGY: FUTURE EMERGING TECHNOLOGYIAEME Publication
This paper focuses on the problem of minimizing com plex electronic circuits to scale of 10-9 m (1 nano meter) thus helping in the process of fas t operation, better performance, low cost, reliability, simple in size and easy to fabricate. The materials which are used in the manufacturing o f nano electronic devices are commonly called as nano materials. The use of nano materials led to design and development of nano devices which ease t he process of design of logic circuits. The applications of nano technology include medical, en gineering and pure as well as applied sciences. In this paper, a detailed study of how the differen t nano materials are manufactured and how the manufacturing of nano electronic devices is done is clearly described. This paper illustrates the need for nano technology in modern era and facilitates t he use of nano technology as a prerequisite for the development of modern engineering technology.
Encompassing nanoscale science, engineering, and technology, nanotechnology involves imaging, measuring, modeling, and manipulating matter at this length scale. A nanometer is one-billionth of a meter. A sheet of paper is about 100,000 nanometers thick; a single gold atom is about a third of a nanometer in diameter.
82. EC nano-centers The Swiss 'National Centre for Nano Scale Science' at Universität Basel Nanoscience at Cambridge University London Centre for Nanotechnology Center for Competence in Nano-Scale Analysis in Hamburg Nanolink at University of Twente Center of Competence in Nano-Scale Analysis in Hamburg Center for NanoScience based at Ludwig-Maximillians-Universität, München Competence Center for NanoBioTechnology, Saarland, Germany The German Ministry of Education and Research supports six national Competence Centres Nano-World, The Computer-Supported Cooperative Learning Environment on Nanophysics, a Swiss Virtual Campus Center for NanoMaterials at Technische Universiteit Eindhoven, Holland Center for Ultrastructure Research, Austria Nano-Science Center at Københavns Universitet MIC National Micro- and Nanotechnology Research Center at DTU
83. EC nano-companies 120 companies estimated to reside in Europe Primarily semiconductor (many contained on previous list)
84. Asia ~ $1 Billion in 2002? Japan $650 Million Korea $160 Million Taiwan $100 Million China $100 Million Singapore >$50 Million India ~ $20 Million Australia ~ $40 Million
85. Asia - Activities • Ministry of Science and Technology, China • China Nanotech Business Network (to be launched in Nov. 2002) • Hong Kong Innovation Technology Commission (ITC) • Nanotechnology Researchers Network Center of Japan (MEXT) • Council for Science and Technology Policy, Japan • Japan Nanotech Business Network (METI) • Korea Institute of Science and Technology Information (KISTI) (MOST) • Korea Nanotechnology Research Association • Singapore Economic Development Board (EDB) • National Uni. Of Singapore (NUS) Nano Science and Technology Initiative • Industrial Technology Research Institute, Taiwan • National Science Council, Taiwan • APEC Center for Technology Foresight, Thailand
86. Australia Nanotechnology Nanotechnology Programs Programs Center for Quantum Computer Technology Center for Quantum Computer Technology Australia Research Council Special Research Center Australian Institute of Bio Australian Institute of Bio Nanotechnology Nanotechnology Initiative Initiative ARC Center of Excellence Program ( ARC Center of Excellence Program Undergraduate and Graduate Programs at UNSW
87.
88. China $300m allocated for allocated for Nanotechnology over 5 years National Nanotechnology Center (starting soon) Major Nanotechnology Centers (Beijing, Shang Hai, TianJin, Qing Dao, Xiamen) SME Innovation Investment Fund Hong Kong Nanotechnology Initiative (HKITC) HKUST Nanotechnology Nanotechnology Center Local government support plus manufacturing industry investment Over 700 companies registered and active, over 170 R & D organizations 17 companies are listed on the stock market in China and Hong Kong Over 50 companies (mainly manufacturing) listed on stock exchange Invested in nanotechnology
89. Korea 10 Year Nanotechnology Plan Ministry of Science and Technology (MOST) Tera -- Level Nanodevices Program MOST Focuses on Convergence of Nanotech and Bio Korean Science & Engineering Foundation (KOSEF) Nano Bioelectronics & Systems Research Center Ministry of Health and Welfare Ministry of Health and Welfare
90. Singapore Agency for Science, Technology and Research (A* STAR) National Nanotechnology Initiative Established end of 2001 Economic Development Board (EDB) Economic Development Board (EDB) Nanotechnology Investment Initiative National University of Singapore Nanoscience and Nanotechnology Initiative Established Jan. 2002