Nanotechnology Download Free Papers, Articles, Reports MEMS CNT carbon nanotube investing, companies stocks.

Some of my other sites:-

Site on Carbon Nanotube CNT SWNT

Investing Stocks companies in Nanotechnology

MEMS Nanotechnology Free download Pdf papers.

Free Pdf papers- Nanotechnology Fabrication and Nanomanufacturing.

Nano biotechnology - research investing nanomedicine

Nanotechnology Nanoelectronics

Nano physics

Future Nanotechnology

Nanotechnology Characterization

Introduction to Nanotechnology (Site contains more than 500 free papers on Nanotechnology)
By 2010 the National Science Foundation (NSF-US) projects a $1.1 trillion dollar market of Nanotechnology related good and services, with initial demand originating from the electronics and materials industries. The electronics industry is one of the largest users of carbon nanotubes (CNT), specifically single walled carbon nanotubes (SWCNT) and is experiencing significant growth.

We know that Nanotechnology is not a single market but rather a set of enabling (and potentially groundbreaking) technologies that can be applied to solve high-value problems in almost every industry. This includes industries as disparate as telecommunications, biotechnology, microelectronics, textiles, and energy.

The starting point for assessing nanotech ventures is usually the ability to generate revenue. We know that investors are primarily interested in seeing real nanoproduct, MEMS and CNT device revenue streams beyond R&D contracts, lab equipment and nano-powders shipped in sample volumes. So it is important it is important to depict and make the investors aware of when and how much money will be generated through the sale of products. The nanotech industry is growing by more than 40 percent a year, but multi-walled carbon nanotubes have been the primary technology used. Single-walled technology just hasn't taken off because of the cost.

Micro-Electro-Mechanical-Systems (MEMS) is all set to revolutionize the scientific world. MEMS is an aggregation of parts, related to each other, such as a micro-sensor and an actuator (that converts an electrical signal into a non-electrical one). The purpose of MEMS is to interact with the physical environment directly. India is fast emerging as a major centre for various R&D projects of many multinationals like Motorola, Nokia, Microsoft etc. We are interested in deep understanding of the status of MEMS technology in India in terms of applications & technologies applicable in Industries, Education, Research activities, Patents filed in the country, Major industry forums, profiles of major R&D centers & Investments. The major players profiled in this report are SemIndia, Cadence Design systems, Analog Devices, Texas Instruments, Cranes Software International Ltd, Freescale Semiconductor India, Honeywell Technology Solutions Ltd. It Covers the market opportunities of MEMS in India, major competitors in Asia-pacific. It has also highlighted all the premier Institutes in terms of course offered and major Government Research Organizations in MEMS technology.

The National Program for Smart Materials (NPSM) in India has announced the selection of the CoventorWare suite of software products for its MEMS Initiative Program. NPSM consists of a consortium of labs such as the Indian Institute of Science (IIS) and the Indian Institute of Technology (IIT), currently developing MEMS devices. Through its partnership with Coventor, NPSM will install CoventorWare MEMS design software at its IIT locations in Bangalore, Chennai, Mumbai and Kharagapur. The software will assist these institutions in developing MEMS design centers for post-graduate and other research in the areas of magnetic, electromechanical and optical sensors and micro fluidics applications.
Two years ago, five Indian science-funding agencies jointly sought government approval for a National Program on Smart Materials that has emerged the country's largest technology development program focused on MEMS. The NPSM, designed to generate local capabilities in MEMS and smart systems, is marked by a high degree of inter-agency coordination and a unique program management structure.
Five government agencies are jointly sponsoring the program -- India's Council of Scientific and Industrial Research (CSIR), the Defense Research and Development Organization (DRDO), the Department of Science and Technology (DST),the Indian Space Research Organization (ISRO) and the Department of Information Technology (DIT).
Several government agencies in India are supporting research on micro-electro mechanical systems (MEMS), with the largest coordinated effort being the two-year old National Program on Smart Materials (NPSM). Indian research on MEMS is likely to intensify with two other public-funded programs to complement the NPSM. The government is also making concerted efforts to sensitize Indian industry to market opportunities in MEMS. MEMS research in India will intensify in the near future through two other programs. The Aeronautical Development Agency, Bangalore, has launched a five-year program that focuses on applications of MEMS and smart systems in aerospace. Additionally, the CSIR is preparing to pool the resources from nine of its 40 laboratories to initiate its own MEMS program during 2002 -- 2007

Materials characterization at increasingly small dimensions is a critical part of many manufacturing industries, including semiconductors, optoelectronics, automotive and aerospace. All of these industries are increasingly using small scales and more tightly controlled processes as part of the traditional evolution of manufacturing towards smaller, lighter, faster or stronger characteristics, depending on the application. On top of the evolutionary aspect of dimensional shrinkage is the use of 'new' materials or 'new' processes that may carry their own novel properties or design issues not previously encountered.
Growth in the micro- and Nano- engineering industry has led to increased demand for analytical and characterization methods for these materials and systems. We know that Nano-products with high surface area-to-volume ratios are more sensitive to impurities and micro contamination during processing than larger geometry products, resulting in defects and yield loss in production.
We have achieved expertise in surface analytical methods and the contributions these methods can make towards problem solving during the manufacture and reliability characterization of new materials. These techniques include: SEM (Scanning Electron Microscope), TEM (Transmission Electron Microscope), XPS (X-ray Photoelectron Spectroscopy) and XRD (X-ray Diffraction).
The focus of our service is on the different types of scanning probe microscope, their applications in nanotechnology and comparison of different type of microscopy. We plan to provide support for characterization of Carbon Nanotubes and other important Nano materials and thin films with different type of techniques and can make the customers aware with their advantages and disadvantages.

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Free Directory on nanotechnology
Free links on quality sites on nanotechnology.

http://www.nanotechnologyfree.01dir.com/

Nanotechology Sites
Nanotechnology free site
MEMS sites
CNT Carbon Nanotune sites
Nanotech invetments sites
MEMS Sites
Nanomanufacturing Sites
Nanotechnology reports Free downloads sites
Nanofabrication sites
Nanoelectronics sites
Nanophysics Sites
GRE MS Education in Nanotech

http://www.nanotechnologyfree.01dir.com/

Site on Carbon Nanotube CNT SWNT

Investing Stocks companies in Nanotechnology

MEMS Nanotechnology Free download Pdf papers.

Free Pdf papers- Nanotechnology Fabrication and Nanomanufacturing.

Nano biotechnology - research investing nanomedicine

Nanotechnology Nanoelectronics

Nano physics

Future Nanotechnology

Nanotechnology Characterization

RAR FILES free downlaod:-

Download about the distance program in nano

Best book on introductory aspect of nano and it's future as predicted- Coming of Nanotechnology

Nanotechnology of future Introduction Pages from net free source(RAR)

List of Projects sanctioned during last two years on nanotech by Department of Science & Technology, Government of India

Nanotechnology Phd from Guwahati
We get the Idea of which books to refer to start Nanotechnology after we have a good grip on physics and electronics or wherever we are.

IIT Bombay Dual degree in Engineering physics and nano

Quantum Mechanics
This is a file containing Qm for Nanotechnology.
Quantum Mech in nanotechnology
Electrodyanamics
Electronics

Beside that little about Statistical and solid state Physics.

IIT curriculum of physics for Msc. Btech so that you understand where to take physics to get into nano after that .

The Recommended books for physics are given in the file so that you can see that you read from the right sources.

Papers, Articles, Reports on Nanotechnology.

This is a file containing the approach of USA and other Nations and Institutes on nano.

NANO approach of USA and World

This is another free-source intro to nanotechnology
NANO technology imp intro RAR

Nanotechnology Glossary

National Nanotechnology Initiative US

NSTC Nanostructure Science and Technology A Worldwide Study

Another set of recommended books

Page having Many Links on nanotechnology(html)

See the polls on nanotechnology by the viewers.

The following are RAR files having pdf files.

Links to site on nano tech A RAR file

Planning for Europe's future in nanotechnology

Nanoscience Fact

Nanotechnology and the Developing World

Nanotechnology helps INTEL

Another introduction of nanotechnology

Nanotechnology and interpretation of Quantum Mechanics.

A Critical Analysis of National Nanotechnology Research Funding

Feynman To Funding of nano

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These are some of the books that you can easily get:-
1.Nanotechnology: Science, Innovation, and Opportunity B y Lynn E. Foster ( This was a good book and gave good introduction and inspiration )
2. NANO, QUANTUM AND MOLECULAR COMPUTING Kulwar publication.
3. METAL-POLYMER NANOCOMPOSITES by Luigi Nicolais
4. Engines Of Creation The Coming Era of Nanotechnology By K. Eric Drexler
5. CARBON NANOTUBES Edited by MORINUBO END0 Shinshu University, Japan SUM10 IIJIMA NEC, Japan MILDRED S. DRESSELHAUS Massachusetts Institute of Technology, USA
6. NANOSTRUCTURED MATERIALS Selected Synthesis Methods, Properties and Applications
7. Nanoparticles From Theory to Application Edited by Gu¨nter Schmid
8.Springer handbook of nanotechnology Bhushan
9.Science n technology_of carbon nanotubes Tanaka
10.Wiley.The.Handbook.of Nanotechnology Business Policy and Intellectual Property.Law.eBook-YYePG
11.Nanotechnology materials NMSSMPA
12.Semiconductor Nanostructures for Optoelectronic Applications
13.Nanoparticles Wiley

If you have read or know anything about these ebooks Pls guide me on the methodology of reading and understanding these ebooks.

http://metallurgy.iitm.ac.in/metsa/etch/nanotech.htm

International Symposium on Frontiers in Nano scale Science, Technology and Education Cochin, India, August 16-19, 2006

International Research Focus: Nano 2004 Conference Held in India

Nano sensitization programs application RAR

http://itri.loyola.edu/nano/final/.

Respected and honourable members ,
I was looking for sources in nanotechnology and would like to wind up my research for the the best resource on nantechnology on net.

The cirriculum of nanotech for undergraduates or for a ug degree in nano is not yet decided but this site helps you still.
Rank 3. http://www.nclt.us/programs_nanocourses.htm
this site is best for you to start nanotech and beleive me this is the best you can find on nano.
I need your comments and feedback that will encourage and recharge me to continue my work.

Abstracts

Introduction to Nano as I understood from
Nano physics and Nanotechnology An Introduction to Modern Concepts in Nano science
Introduction Technology has to do with the application of scientific knowledge to the economic (profitable) production of goods and services. It is par- particularly concerned with the smallest devices that are possible, and equally with the appropriate laws of nanometer-scale physics: "nano physics", which are available to accurately predict behavior of matter on this invisible scale. Physical behavior at the nanometer scale is predicted accurately by quantum mechanics, represented by Schroedinger's equation. Schroedinger's equation provides a quantitative understand- understanding of the structure and properties of atoms. Chemical matter, molecules, and even the cells of biology, being made of atoms, are therefore, in principle, accurately described (given enough computing power) by this well tested formulation of nano- nano physics. There are often advantages in making devices smaller, as in modern semiconduc- semiconductor electronics. What are the limits to miniaturization, how small a device can be made? Any device must be composed of atoms, whose sizes are the order of 0.1 nanometer. Here the word "nanotechnology" will be associated with human- designed working devices in which some essential element or elements, produced in a controlled fashion, have sizes of 0.1 nm to thousands of nanometers, or, one Angstrom to one micron. There is thus an overlap with "micro technology" at the micrometer size scale. Microelectronics is the most advanced present technology, apart from biology, whose complex operating units are on a scale as small as micro- micrometers. Although the literature of nanotechnology may refer to nanoscale machines, even "self-replicating machines built at the atomic level" [1], it is admitted that an "assem- "assembler breakthrough" [2] will be required for this to happen, and no nanoscale machines presently exist. In fact, scarcely any micrometer um scale machines exist either, and it seems that the smallest mechanical machines readily available in a wide variety of forms are really on the millimeter scale, as in conventional wrist- watches. (To avoid confusion, note that the prefix "micro" is sometimes applied, but never in this book, to larger scale techniques guided by optical microscopy, such as "microsurgery".) The reader may correctly infer that Nanotechnology is presently more concept than fact, although it is certainly a media and funding reality. That the concept has great potential for technology, is the message to read from the funding and media attention to this topic. The idea of the limiting size scale of a miniaturized technology is fundamentally interesting for several reasons. As sizes approach the atomic scale, the relevant phys- physical laws change from the classical to the quantum-mechanical laws of nanophysics. The changes in behavior from classical, to "mesoscopic", to atomic scale, are broadly understood in contemporary physics, but the details in specific cases are complex and need to be worked out. While the changes from classical physics to nanophysics may mean that some existing devices will fail, the same changes open up possibili- possibilities for new devices. A primary interest in the concept of nanotechnology comes from its connections with biology. The smallest forms of life, bacteria, cells, and the active components of living cells of biology, have sizes in the nanometer range. In fact, it may turn out that the only possibility for a viable complex nanotechnology is that represented by biology. Certainly the present understanding of molecular biology has been seen as an existence proof for "nanotechnology" by its pioneers and enthusiasts. In molecu- molecular biology, the "self replicating machines at the atomic level" are guided by DNA, replicated by RNA, specific molecules are "assembled" by enzymes and cells are replete with molecular scale motors, of which kinesin is one example. Ion channels, which allow (or block) specific ions (e.g., potassium or calcium) to enter a cell through its lipid wall, seem to be exquisitely engineered molecular scale devices where distinct conformations of protein molecules define an open channel vs. a closed channel. Biological sensors such as the rods and cones of the retina and the nanoscale magnets found in magnetotactic bacteria appear to operate at the quantum limit of sensitivity. Understanding the operation of these sensors doubtless requires applica- application of nanophysics. One might say that Darwinian evolution, a matter of odds of survival, has mastered the laws of quantum nanophysics, which are famously prob- probabilistic in their nature. Understanding the role of quantum nanophysics entailed in the molecular building blocks of nature may inform the design of man-made sen- sensors, motors, and perhaps much more, with expected advances in experimental and engineering techniques for nanotechnology. In the improbable event that engineering, in the traditional sense, of molecular scale machines becomes possible, the most optimistic observers note that these invi- invisible machines could be engineered to match the size scale of the molecules of biol- biology. Medical nanomachines might then be possible, which could be directed to cor- correct defects in cells, to kill dangerous cells, such as cancer cells, or even, most fanci- fancifully, to repair cell damage present after thawing of biological tissue, frozen as a means of preservation [3]. This book is intended to provide a guide to the ideas and physical concepts that allow an understanding of the changes that occur as the size scale shrinks toward the atomic scale. Our point of view is that a general introduction to the concepts of nanophysics will add greatly to the ability of students and professionals whose undergraduate training has been in engineering or applied science, to contribute in the various areas of nanotechnology. The broadly applicable concepts of nanophysics are worth study, as they do not become obsolete with inevitable changes in the fore- forefront of technology.

Nanovertenergie
A Proposal on Nanotechnology Based Green Energy Solutions
Objective: To provide Nanotechnology based solutions for Solar cells & Fuel Cells and to study reliability implications and intricate modeling analysis of such devices for rapid commercialization.
Brief Synopsis:
This project studies the current problems in Energy from Solar & Fuel cells and proposes nanotechnology based solutions. In this proposal we have described about the current progress in this area and our past works. MEMS enabled fuel cells are poised to be far for beneficial than the current counterparts, and likewise Quantum dots based Solar cells holds the future. We have not only made a technical but also studies market and implications of introducing Nano enabled green cells. In our work we have published on modeling, reliability, MEMS etc aspects of solutions for various technologies and also we presented our business idea regarding this plan in various international business events in IITs so we have the experience to deliver in this regard.

Proposal for project on:
Nanotechnology enabled RFID solution modeling and development
Objective: To develop RFID based on current developed in MEMS and Nanotechnologies
Brief Synopsis: RFID are benefitting from the current developments of MEMS and CNTs where new antenna, transponders, low energy devices are being proposed and implemented. The major challenge though here is Reliability and Packaging of these devices. In this project we want to implement modeling, reliability, analysis of Nano RFID systems and foster their integration in real devices. We have studies the comprehensively about the commercial status of RFID which has been shown in this summary and we plan to implement real products in form of Nano enabled RFID which will see application in diversified areas. Preliminary work in this regard has been done by our team (in form of research publications) and we plan to extend our work in gathering rich IP and strong research pillars to support our project.

A proposal on
Applications of Secure Multi party Computation SMC
Brief Synopsis:
In this project we have prop osed a promising solution for secure multiparty computation in various domains. We have already been working in this field from past years. We have obtained some significant results which shows that SMC can solve many problems in various fields. Our developed protocol can be used to perform secure computations which has applications in Business Process Outsourcing, Defense, Banking, Corporate sectors etc. We plan to implement our project in three phases. We will conduct many tests and surveys and implement our proposal in real life problems. The technique can be developed and commercialized for business.

Micro-Electro-Mechanical-Systems (MEMS) is all set to revolutionize the scientific world. MEMS is an aggregation of parts, related to each other, such as a micro-sensor and an actuator (that converts an electrical signal into a non-electrical one). The purpose of MEMS is to interact with the physical environment directly. India is fast emerging as a major centre for various R&D projects of many multinationals like Motorola, Nokia, Microsoft etc. We are interested in deep understanding of the status of MEMS technology in India in terms of applications & technologies applicable in Industries, Education, Research activities, Patents filed in the country, Major industry forums, profiles of major R&D centers & Investments. The major players profiled in this report are SemIndia, Cadence Design systems, Analog Devices, Texas Instruments, Cranes Software International Ltd, Freescale Semiconductor India, Honeywell Technology Solutions Ltd. It Covers the market opportunities of MEMS in India, major competitors in Asia-pacific. It has also highlighted all the premier Institutes in terms of course offered and major Government Research Organizations in MEMS technology. The National Program for Smart Materials (NPSM) in India has announced the selection of the CoventorWare suite of software products for its MEMS Initiative Program. NPSM consists of a consortium of labs such as the Indian Institute of Science (IIS) and the Indian Institute of Technology (IIT), currently developing MEMS devices. Through its partnership with Coventor, NPSM will install CoventorWare MEMS design software at its IIT locations in Bangalore, Chennai, Mumbai and Kharagapur. The software will assist these institutions in developing MEMS design centers for post-graduate and other research in the areas of magnetic, electromechanical and optical sensors and micro fluidics applications. Two years ago, five Indian science-funding agencies jointly sought government approval for a National Program on Smart Materials that has emerged the country's largest technology development program focused on MEMS. The NPSM, designed to generate local capabilities in MEMS and smart systems, is marked by a high degree of inter-agency coordination and a unique program management structure. Five government agencies are jointly sponsoring the program -- India's Council of Scientific and Industrial Research (CSIR), the Defense Research and Development Organization (DRDO), the Department of Science and Technology (DST), the Indian Space Research Organization (ISRO) and the Department of Information Technology (DIT). Several government agencies in India are supporting research on micro-electro mechanical systems (MEMS), with the largest coordinated effort being the two-year old National Program on Smart Materials (NPSM). Indian research on MEMS is likely to intensify with two other public-funded programs to complement the NPSM. The government is also making concerted efforts to sensitize Indian industry to market opportunities in MEMS. MEMS research in India will intensify in the near future through two other programs. The Aeronautical Development Agency, Bangalore, has launched a five-year program that focuses on applications of MEMS and smart systems in aerospace. Additionally, the CSIR is preparing to pool the resources from nine of its 40 laboratories to initiate its own MEMS program during 2002 -- 2007
MEMS MARKET
1 - High performances MEMS for Automotive, Medical, Industrial, Aeronautic and Defense applications.
2 - Accelerometers and gyroscopes for Consumer applications.

High performance MEMS - The high performance inertial MEMS market is expected to achieve a 5% annual growth rate on the 2006-2011 period. Today, it already represents over $1B value market. High performance inertial MEMS applications are fragmented and thus offer numerous business opportunities for a large set of players. For example product development programs are very dynamic.
Expanding market for consumer MEMS MEMS gyroscopes and accelerometers market increased by 55% from 2005 to 2006 and overtook USD 200 M last year. An average 35% CAGR for the 2006-2011 period is expected. The market dynamic mainly comes from accelerometers: it will represent 65% of the total inertial sales by 2011. Consumer applications will progressively take a 40% share of the total inertial MEMS activity by 2011 (including automotive, medical, industrial, aeronautic and defense sectors).
The Stakes
For high performance MEMS Accelerometers and gyroscopes are established components of the automotive, aeronautic and defense area. High volume of automotive applications is contrasting with defence and aeronautic fields where fewer units are sold but with a higher added value. It is similar for high performance MEMS in medical & industrial fields (small volume, fragmented applications…).
For consumer electronic MEMS accelerometers and gyroscopes are emerging at a very fast pace in consumer electronics products. Since 1998, MEMS gyroscopes were widely integrated into camcorders to provide optical stabilization features. In 2003, MEMS accelerometers entered consumer applications, in large volume, as a protection feature for Hard Disk Drives.It is even expected to penetrate the cell phone market. Inertial MEMS are already spread over a wide range of consumer products, with limited volume. The MEMS industry is very excited and confident. Every one's attention is focused on what will be the next killer application.
IMPLICATION OF OUR PROJECT AND ITS PRACTICAL UTILITY OF GREEN ENERGY
Energy will solve many needs of agriculture and renewable energy is the need of the country. With our plan we can get cheap and high products for our rural as well as industrial usages. Our plan not only creates energy but job opportunities for all sectors. As per our forecast there would be considerable job creation in the sector with 10,000 indirect in 3 years. The challenge of nano enabled manufacturing will create immense jobs in this area. Saving the foreign revenues by reducing oil imports that will be added benefit to the nation. India will need green energy in the upcoming years which is needed to reduce pollution and sustain over 10% GDP. Our plan covers solutions to all these problems from rural to environmental to jobs creation. The advantage we have is that green energy is slowly replacing oil based technologies because they are more reliable and make the community independent of oil supplies.

This company is a merger of three startups based on Nanotech for energy, Nanotech for RFID, SMC secuity based company
Nanovertenergie + NanoRFID + SMC = Trinanowave
INTRODUCTION to 1/3 of the project Nanovertenergie Energy from clean, non-conventional and renewable sources is of vital importance in this fuel-driven age. Green energy is considered as an environmentally friendly and non-polluting source of energy. The transformation from brown energy to green energy sources would be the next revolutionary leap into a sustainable developing world without compromising on the rate of growth. Green energy includes geothermal, wind and solar power which provides a remedy to counter global warming and pollution. Implication of nanotechnology to enhance innovations in green energy is the subject of this proposal. Since the 1970s, investments in clean technology have moved from primarily government research and development (R&D) projects to major multinationals, well-heeled venture capitalists, and savvy individual investors. While governments still have a significant role to play, this shift is changing the investment landscape and bringing clean technology to the commercial forefront. A number of leading companies, for example, are embracing clean-tech initiatives and investing billions of dollars in their efforts: General Electric (GE), the world’s largest diversified manufacturer, plans to invest up to $1.5 billion a year in clean-tech R&D by 2010 as part of its “Ecomagination” business strategy. BP recently launched an alternative-energy unit that will spend up to $8 billion over 10 years to further the company’s activities in solar, wind, and hydrogen. Spain based energy giants Iberdrola and Acciona are both poised to spend billions of dollars building out their clean-energy portfolios, primarily wind power, over the coming years. In 2006, Toyota is reported to have spent an astounding $8 billion in R&D, much of it for hybrid and fuel-cell development.
NANOTECHNOLOGY IN GREEN ENERGY Implications of development of Nanotechnology based green cells have been discussed in [6]. Where we have proposed modeling and reliability aspects of MEMS based Green Cells and multi scale modeling of Solar cells which is being communicated for publication. India-specific perspective on the challenges in Fuel Cell Technology has been illustrated [13]. Multi Scale and HPC in Green Energy solutions using Nanotechnology is important as the application of quantum dots in solar cells has been practically realized thereby making this area feasible.
DMFC DEVELOPERS In India, development of fuel cells is primarily supported by the Ministry of Non-conventional Energy Sources (MNES). Several universities and research organizations are involved in the areas of fuel cells, reformers, and hydrogen storage. Work on developing a DMFC (direct methanol fuel cell) is underway at IISc (Indian Institute of Science). In addition, research on SOFC is being done at IISc and CGCRI (Central Glass and Ceramic Research Institute). Research and development on metal hydride storage is ongoing at BHU (Banaras Hindu University) [14]. Vehicular fuel technology can be derived from greener sources such as fuel cells. The power requirement of bikes and scooters is relatively small and could easily be met by Direct Methanol Fuel Cells (DMFCs) or hydrogen-powered Proton Exchange Membrane (PEM) fuel cells. There is currently some discussion as to whether DMFC should be the initial route for India, followed by hydrogen-fuelled PEM units for transport in the longer term. Organizations intensively involved in fuel cells are mainly in the New Delhi which is a home to various fuel cell companies and R&D organizations and India’s most industrialized state Maharashtra which includes manufacturing centers such as Mumbai where major fuel cell activities take place. Thus seeing the prospects in purview of these developments in the contemporary Indian scenario we have developed models of Green Cells and plan to expand them and get patents from the results. Our papers have been published in international conferences regarding this matter.
COMPANY Our company will be first of its kind Indian company with nanotechnology enabled green cells.. There is a need to get our companies and our work at par with the global ones by synchronization of nanotechnology research in green energy. Currently the realization of advantages of Nanotechnology in Green Energy has been felt and this remains an area to be explored. Yearly sales chart has been shown in figure below. We have been working on getting a rich IP in the initial stage and have research publications backing our work [1-10].
PRODUCT AND SERVICES We plan to get in Green Nano Cell manufacturing unit in India for our specific needs. We plan to setup characterization and modeling lab for Nano enabled Green cells. Currently research in fuel cells is facing many challenges in commercialization and Nanotechnology can provide some very realistic solutions that may enable rapid commercialization of Green Nano cells.We will also plan to provide consulting services in the following product development services for Nano enabled Green Cells and; technology and Intellectual Property strategy. We will initiate with modeling area specific green cells for case to case scenarios. We have shown modeling of Green Nano Cells in [6]. Modeling can help us to facilitate integration of nano-enabled green cells in various areas. We have analyzed the market of fuel and solar cells in India in a comprehensive manner. Potential customers and growth includes not only mechanical but portable applications too. The solar cell with Nanotech enabled modeling and simulation is proving more efficient and will see application in wide domains. We have surveyed the present companies to whom we can provide the services. We have discerned and analyzed the integration of fuel cells for present times. We have surveyed the present companies working in developing green products.
FINANCIALS Ultimately our setup will generate profit by product commercialization and by the merging of innovations in the field of Nanotechnology with our domain. Our focus also remains on the IP developments and getting patents related to this area.Requirements of Nano cell research Labs, modeling tools, application of computational nanotechnology in this area. We are going towards collaboration with major companies, research institution to successfully integrate green energy into their businesses. Revenues will be from a spectrum of areas like consultancies, modeling, middleware and in later phases manufacturing. Potential buyers will be top-end automobile companies, portable electronic companies which are working on to integrate nano based fuel cells in to their existing products. Our research collaboration and potential customers also include private and government defense agencies. We are planning to publish our work in international journals and get patents for which we have formed a team and we are working in this regard aggressively. Our team members not only hold technical expertise but also have extensive knowledge on CNT based green cells and major work would be on reliability, packaging and integration into present devices. Currently our work is being managed by around 10 people and it mainly consists of the founders and an advisory team. Major work is being done to get rich IP and spending is optimized to get rapid results.
CONCLUSION Thus we plan to provide some realistic solution that may enable realization of Green Nano cells and help us to commercialize this technology. We plan to fill this vacuum because it is poised to see rapid growth. With a rich IP we plan our company to be acquired by some bigger companies and we are still working to decide a strategy to give maximum profit and value to our founders and investors.
PATENT TO BE FILED These patents are in process and we will be filing them within the next 3 months. ? Modeling of Nano enabled Solar Cells and Fuel Cells (Green Cells). ? Application of High Performance Computing (HPC) in multi-scale modeling of Green Cells.

REFERENCES (REPORTS) Publications in Related areas
[1] Satyadhar Joshi, Rohit Pathak, and Salman Ahmed, "Wireless Sensor Network: Simulink Modeling and Reliability of Nano-Nodes," Seventh Annual Conference on Communication Networks and Services Research (Communicated ) Indexed in IEEE Explore [2] Satyadhar Joshi, Rohit Pathak and Salman Ahmed, , "”Secure Multi Party Computation using Virtual Parties for Computation on Encrypted Data," IEEE Canadian Conference on Electrical and Computer Engineering 2009 -- Computers, Software and Applications Symposium - CCECE '09 (Communicated ) Indexed in IEEE Explore [3] Satyadhar Joshi, Rohit Pathak, and Salman Ahmed, "Business and Commercial Prospects of RFID," International Conference on Pervasive Computing and Governance 2008 RGTU Bhopal (accepted) [4] Satyadhar Joshi, Rohit Pathak and Salman Ahmed, , "Commercial Prospects of RFID and a Java based Software Framework for RFID integrated Mobile Phones," IEEE Sarnoff Symposium 2009 (Communicated ) Indexed in IEEE Explore [5] Satyadhar Joshi, Rohit Pathak and Salman Ahmed, , "MATLAB Modeling of HDD in light of the Advances in Nanotechnology and MEMS-based Innovations," 6th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications, and Information Technology (Communicated ) Indexed in IEEE Explore [6] Satyadhar Joshi, Rohit Pathak, and Salman Ahmed, "Modeling Nano Enabled Solar and Fuel Cell," 6th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications, and Information Technology (Communicated ) Indexed in IEEE Explore [7] Satyadhar Joshi, Rohit Pathak , and Salman Ahmed, "Micro Electro Opto Mechanical System Micro Mirror: Fabrication and Actuation" Conference on Nanotechnology and Its Applications in Quantum Computing-(NAQC-2008) Published [8] Satyadhar Joshi, Rohit Pathak and Salman Ahmed, , "MPI and PVM based HPC Setup for Multi Scale Modeling," IEEE International Advance Computing Conference (IACC’09) Indexed in IEEE Explore (Communicated ) [9] Satyadhar Joshi, Rohit Pathak, "Distributive Computing for reliability analysis of MEMS devices using MATLAB," ACM International Conference on Advances in Computing, Communication and Control, ICAC3, pp. 237, January 23-24 2009. Published and Indexed in ACM DL [10] Satyadhar Joshi, Rohit Pathak, and Salman Ahmed, "Optimizing HPC and parallelization for Nanotechnology," INDIACom-2009 BVP New Delhi (accepted)
Business Plans Referred [11] Satyadhar Joshi, Rohit Pathak and Salman Ahmed, “Nano Wave CNT manufacturing” Bplan Shaastra 2007 (consolation prize)uploaded on www.nanotechbiz.org [12] Satyadhar Joshi, Rohit Pathak and Salman Ahmed, “Nano Wave MEMS” Bplan Kshitij 2008 IIT Kharagpur uploaded on www.nanotechbiz.org
References Cited [13] Jonathan Butler, "Fuel Cells in India: A survey of current developments," Fuel Cell Today, June 2007. [14] Economic Times Article on India green spending retrieved 28 Jan 2009 [15] Technical Advisory team - Prof. Manish Sharma (Pursuing PHD from IITB), Dr. Shukla (PHD in Chemistry) , Dr. D.K. Mishra (PHD in CSE)
Nano RFID the next 1/3 of Trinanowave
Introduction RFID technology is still to realize its true potential, with the growing applications and development in low power devices RFID will integrate into many useful products and will have many features which will add value to its current state. In this executive summary for project we have described the challenges and planning of implementing the nanotechnology enabled RFID with special features. The market, companies, planning and the product development has been explained. Business in Nano enabled RFID is an important area also because its links are there with the new world order. The need for low power and highly efficient need of RFIS is eminent, which will be used in almost all application of Business. Objective of our project is realization, research and application. For this we are aggressively working on enhancing our business plans as well to get groundbreaking research to be published in peer reviewed conferences and journal. We have made a good progress currently in this regard but with no source of external funding progress in our work have rather been some slow.
COMPANIES IN INDIA AND WORLD
In our survey for this project we have gathered the current companies which work in RFID and will shift to nano enabled RFID for adding more features in the current RFID technologies. The advantages of Nano RFID can be seen with its integration in human body with sensors, medical implantation and banking. Our implantation differs from other is that Nano RFID can enable complex features to be added in RFID to detect many components in human body. Many companies are working on RFID but Nanotech enabled RFID is still a thing that is not worked on. The future RFID is far beyond tag but will enabled complex sensors which will be in use with WSN wireless sensor networks. The main RFID device in use is EPC (Electronic Product Code) but with added low power nanotechnology enabled devices this scenario is bound to change. The development of standards for RFID is overseen by EPCglobal Inc. which is a joint venture of EAN and UCC, the bodies which controls the regulation of Barcodes in US and rest of the world [24]. In large quantities, EPC tags may even cost cheaper than 13 US cents [25] and is expected to drop to as low as 5 US cents in a few years [26]. Many big companies are in RFID manufacturing and services today such as IBMTM and InfosysTM. They are building RFID tags and reader system for commercial market requirements. Some major IT enterprises also provide commercial software for RFID [2], such as IBMTM Websphere and SUN EPC network provided by Sun MicrosystemsTM. Commercial status of RFID is bound to increase in the near future. A large number of products in America are handled through retail supply chain and majority of them still rely on manual methods of data collection [21]. Wal-mart has been studying and researching the business applications of RFID and has become one of the biggest user in retail market [30]. Wal Mart [9] and US department of Defence [10] ordered their suppliers for implementation and usage of RFID by beginning of 2005 which made the academic community to shift towards it. Many retail industries such as Metro AG, Tesco and 7-Eleven have started using RFID in their supply chain management [31]. This not only helps them optimize their supply chain management but helps them to know exactly where their products are at any time and these products can be tracked down in the chain easily.
INDIAN SCENARIO
India being the second largest growing economy, RFID technology is also getting rapidly adapted in Indian market [22]. RFID is extensively used in apparel industry in India. Many retail industries such as Pantaloon and Madura garments have started using RFID to tag garments for SCM [22]. In Wipro's Electronic City many stores such as Arving Mills sell RFID tagged products. Mahindra & Mahindra is using RFID for integrated production management [23]. Jayakar Library of Pune University and Dhanvantri Library of Jammu University are using RFID for library management purposes. Ashok Leyland is also preparing to deploy RFID in its assembling centers [22]. In order to reduce retail shrinkage many large retail outlets in India such as BIG BAZZAR and PANTALOON are using RFID [23]. BUSINESS AND COMMERCIAL PROSPECTUS The current research in RFID technology has already shown that it has a vast commercial scope. At present RFID is an emerging technology. Its power has been realized but its capabilities are yet to be utilized completely. As this technology gets developed, its use will eventually increase. RFID has a large business scope. In business, reader reads the tag then sends the information, identification and location of the object to a computer. Now with this information further business processes are initiated [6]. There has been an outbreak in many areas of research with RFID such as environment management [11], project management [12], e-commerce [13], information systems [14] [15], innovation management [16], supply chain management and warehousing [17] [18]. With the help of a well organized inventory system RFID systems can help in preventing theft, shop lifting, error and fraud losses, which amounts to nearly $31 billion USD in US [20]. The retail industry has been completely changed and it is strongly believed that "Retailing in the 21st century will no doubt be very different from retailing in the 20th century, just as retailing in the 20th century was very different from retailing in the 19th century" [19]. The distribution of RFID tags in different industries is eminent, which clearly depicts the largest share in retail industry [5]. Our project will result in product which will be Nano enabled RFID system with the use of MEMS and CNT technologies. Assembling and middleware, also modeling aspects of Nano-RFID.

REFERENCES [1] Kaya, Tolga; Koser, Hur, "A New Batteryless Active RFID System: Smart RFID," Proc. RFID Eurasia, 2007 1st Annual, pp.1 - 4, 5-6 Sept. 2007 [2] Weixin Wang; Jongwoo Sung; Daeyoung Kim, "Complex Event Processing in EPC Sensor Network Middleware for Both RFID and WSN," Proc. 11th IEEE International Symposium on Object Oriented Real-Time Distributed Computing (ISORC), 2008 , pp. 165 - 169, 5-7 May 2008 [3] Lu, H.M.; Goldsmith, C.; Cauller, L.; Jeong-Bong Lee, "MEMS-Based Inductively Coupled RFID Transponder for Implantable Wireless Sensor Applications," IEEE Transactions on Magnetics, Volume 43, Issue 6, pp. 2412 - 2414, Jun. 2007 [4] Pereira, D.P.; Dias, W.; Braga, M.; Barreto, R.; Figueiredo, C.M.S.; Brilhante, V., "Model to integration of RFID into Wireless Sensor Network for Tracking and Monitoring Animals," Proc. 11th IEEE International Conference on Computational Science and Engineering, 2008, pp. 125 - 131, 16-18 Jul. 2008 [5] Pereyma, M.; Motyka, I.; Lobur, M., "Perspectives of Smart RFID Tags Usage Fabricated by MEMS Technologies," Proc. International Conference on Perspective Technologies and Methods in MEMS Design, 2007. MEMSTECH 2007, pp. 113 - 113, 23-26 May 2007 [6] Kärkkäinen, M., Holmstrom J., Framling K. and Artto K., "Intelligent Products - a Step Towards a more Effective Project Delivery Chain", Computers in Industry, Volume 50, Issue 2, 2003, 141-151 [7] Trebilcock, B., "Will there Be Enough RFID Tags in 2005?", Modern Materials Handling, Nov. 2004, Retrieved Jun. 5, 2007, from www.mmh.com/article/CA480768.html. [8] Swartz, J., "Changing Retail Trends, New Technologies, and the Supply Chain", Technology in Society, 22, 2000, 123-132. [9] Dillman, L., "Wal-Mart Draws Line in the Sand", RFIDJournal, Jun. 2003, Retrieved Jan. 26, 2007, from www.rfidjournal.com/article/view/462/1/1/ [10] US DoD, "Initial Regulatory Flexibility Analysis of Passive Radio Frequency Identification (RFID)", Version 1.2, Mar. 2005, Retrieved Jun. 14, 2007, from www.acq.osd.mil/log/rfid/RFA_040405 .pdf [11] Saar, S. and Thomas V., "Towards Trash That Thinks", Journal of Industrial Ecology, Volume 6, Issue 2, 133-146. , 2002 [12] Angeles, R., "RFID Technologies: Supply Chain Application and Implementation Issues", Information System Management, 51-65., Winter 2005 [13] Bain, M. and Subirana B., "E-commerce Oriented Software Agents: Towards Legal Programming: a Legal Analysis of Ecommerce and Personal Assistant Agents Using a Process/IT View of The Firm", Computer Law & Security Report, Volume 19, Issue 3, 201-211. , 2003 [14] Geng, Y. and Sirkka L.J., "Trust and radio Frequency Identification (RFID) Adoption Within an Alliance", Proceedings of the 39th Hawaii International Conference on System Sciences - 2006 Proceedings of the 38th Annual Hawaii International Conference on System Sciences (HICSS'05), Jan. 2005. [15] Quaadgras, A., "Who Joins the Platform? The Case of the RFID Business Ecosystem", Proceedings of the 38th Annual Hawaii International Conference on System Sciences (HICSS'05), Jan. 2005. [16] Sheffi, Y., "RFID and the Innovation Cycle", International Journal of Logistics Management. Volume 15, Issue 1, 2004, 1-10. [17] Srivastava, B., "Radio Frequency ID Technology: The Next Revolution in SCM" Business Horizons, Volume 47, Issue 6, 2004, 60-68 [18] Gunasekarana, A., Ngai E.W.T., "Build-to-Order Supply Chain Management: A Literature Review and Framework for Development" Journal of Operations Management, Volume 23, Issue 5, 2005, 423-451 [19] Peterson, R.A. and Balasubramanian S., "Retailing in the 21st Century: Reflections and prologue to research", Journal of Retailing, 78, 2002, 9-16. [20] Lefebvre, L.A.; Lefebvre, E.; Bendavid, Y.; Wamba, S.F.; Boeck, H "RFID as an Enabler of B-to-B e-Commerce and Its Impact on Business Processes: A Pilot Study of a Supply Chain in the Retail Industry" Proceedings of the 39th Annual Hawaii. . International Conference on System Sciences, 2006. HICSS apos;06, Volume 6, pp. 104a - 104a, 04-07 Jan. 2006 [21] Quinn, P., "Bar Code: Stronger than Ever", Supply Chain Systems Magazine, Volume 24, Issue 10, pp. 16-20. , 2004 [22] Meetali Saxena, Gayatri Doctor,"Radio Frequency Identification (RFID): Applications and Indian Scenario," ICFAI Business School, Ahmedabad [23] RFID 2.0, http://dqindia.ciol.com/content/top_stories/2006/106040501.asp [24] EPCglobal Web Site (2005). [Online]. Available: http://www.EPCglob-alinc.org [25] Alien Technology Corporation achieves another step toward pervasive,economic RFID with announcement of 12.9 cent RFID labels [Online]. Available: http://www.alientechnology.com, Sep. 2005 [26] S. E. Sarma, S. A.Weis, and D.W. Engels, "RFID systems, security and privacy implications,"AutoID Center,MIT, Cambridge,MA, Tech. Rep. aMIT, AUTOID-WH-014, 2002. [27] K. Fishkin and J. Lundell, "RFID in healthcare," in RFID: Applications, Security, and Privacy, S. Gar?nkel and B. Rosenberg, Eds. Reading, MA: Addison-Wesley, pp. 211-228. , 2005 [28] International Civil Aviation Organization ICAO, "Document 9303, Machine readable travel documents (MRTD), Part I," Machine readable passports, 2005. [29] A. Juels, D. Molnar, and D. Wagner, "Security and privacy issues in e-passports," IEEE/Create Net Secure Commun.,. [Online]. Available: http://www.cs.berkeley.edu/dmolnar/papers/papers.html., 2005 [30] Roberti, M., "Analysis: RFID - Wal-Mart's Network Effect", CIO Insight, Retrieved Mar. 8, 2007, from www.cioinsight.com., September 2003 [31] Levinson, M., (2003). "The RFID Imperative", CIO Magazine, Retrieved Mar. 8, 2007, from www.cio.com., December 2003 [32] Raghu Das, "New RFID Market Analysis," IDTechEx, Cambridge, UK, 2005, 18-21 April [33] "The RFID Benchmark Report: Finding the Technology's Tipping Point," Aberdeen Group, December 2005 [34] "Meeting the Retail RFID Mandate," ATKEARNEY, November 2003, www.atkearney.com [35] "RFID / EPC: Managing the Transition," ATKEARNEY, November 2003, www.atkearney.com [36] "RFID and Consumers: Understanding their Mindset," Cap Gemini Ernst & Young, 2005 [37] Rolf Appel, Eric Burgers, Sebas de Jongh, Andrew Vann Arjon Vlasblom, "RFID hardware survey 2005 is UHF technology ready for European adoption?," Cachet Printing B.V, Rotterdam, Netherlands, Logica CMG, 2005 [38] Matt Ward, Rob van Kranenburg, Gaynor Backhouse, "RFID: Frequency, standards, adoption and innovation," JISC Technology and Standards Watch, May 2006 [39] Roger Smith, "RFID: A Brief Technology Analysis," CTOnet.org, 2004 [40] Jerry Landt, Barbara Catlin, "Shrouds of Time the history of RFID," AIM, The Association for Automatic Identification and Data Capture Technologies, October 2001 [41] Rakesh Kumar, "Interaction of RFID Technology and Public Policy," WIPRO, 2004 [42] David C. Wyld, "RFID: The Right Frequency for Government," E-Government Series, IBM center for the Business of Government, October 2005A New RFID Market Analysis: RFID market to reach $7.26Bn in 2008

SMC secure multi party computation the last 1/3 part of Trinanowave
PROBLEM STATEMENT AND DEFINITION
Our aim is to find out a new promising solution to SMC. Many scientific calculations involves surveys and data from third organizations. Many organizations due to risk of data leakage and privacy preserving issue don't willingly provide the scientific organization with their data and thus the experiments cannot be conducted will full effectiveness. Our work will be to find a new secured way of SMC which will allow many public organizations and other industries to willingly provide their data and other information for computation in a secured manner. With the help of a secured technique we will be able to conduct many surveys including data from industrial sector, educational and academic sector, medical sector, tertiary sector, and from other organizations etc. which will allow us to compute some very useful results. These results will lead to further development of our country by providing us with useful information. Usually private industries don't share their data, account information, and other details of the functioning of the industry with public or with other such industries. Many private industries will be able to conduct useful surveys which will lead to development of the industrial sector as a whole. We will be able to evolve new technology faster and better by conducting many surveys in public. These surveys will tell us about the technology which is being used by the public the most. We will be able to conduct secured and privacy preserving surveys which will lead us with information about the thinking of people about a technology and the technology being used by the public the most. A countries growth depends upon the growth of its citizens, small and large scale industries, schools, colleges, academic institutions, small and large scale businesses and organizations and their collective growth of all of them is dependent upon many factors. For the proper functioning, improvement and betterment of an industry it is required to monitor its growth and for its improvement surveys are conducted. Surveys are basically collection of data and processing of the collected data to obtain some useful results. These results are then examined to get the required data. Surveys are conducted on a large scale to obtain useful results for the industry. The surveys may be done for market research, marketing benefits, to depict the progress and functioning of the Industry, the effect of one industry on another industry, the affect of industry on the citizens and the overall progress of a country. The surveys can provide detailed insight into the functioning of the industry as the surveys include data and feedback directly collected from individual benefactors. Surveys can provide many useful results which can tell about the strength of the industry.
OBJECTIVE
The prime objective of this research is to find a solution to Secure Multiparty Computation (SMC). During the research period we will study the existing techniques, examine them, simulate them, and will try to find a better approach to the existing techniques. We will try to find a highly efficient and maximum security SMC technique. None of the existing techniques are totally secure, all of them having some kind of flaw or vulnerability or both. Our aim will be to find a new method of computation which can safely perform SMC, providing us with required security, efficiency, performance, scalability, applicability, portability and ease of use. The required task may be to perform a secure scientific computation, secure statistical analysis, privacy-preserving data mining, privacy-preserving geometric computations, privacy-preserving intrusion detection, privacy-preserving database query, privacy preserving surveys or any such kind of computation involving private data from many parties, where the security of the private data and the identity of the party is the prime concern.
If government or any big organization wants to conduct surveys on hospitals, academic institutions, industries or financial organizations, financial and account information from banks etc. then the privacy and security of data of an individual or the organizations, in the computation is the major issue of concern. Currently many organizations refuse to give their data for survey purposes due to issues of less security and chances of data leakage involved in these types of data transactions. Research in this field can provide us with a new technique to perform SMC's, which will allow many organizations to conduct surveys freely and this can help in the growth of our country. We will be able to perform SMC's in a highly secured manner. Many SMC's can yield useful result, and many such computations are not conducted due to security as a major issue. With a new method many organizations would be able to compute useful results through computations involving data from many organizations, but this computation will be secured, thus keeping the security and yielding a useful result. About me
Activities and Honors
o First Prize in VLSI Quiz - OIST Bhopal. Bhopal, 2006. Won first prize in VLSI Quiz with over 600 participants.
o Business Plan competition - IIT Madras. Chennai, 2007. Won consolation prize in Bplan competition. Plan to Open Carbon Nanotube Manufacturing and MEMS consultancies. Made a software Nanowave (also uploaded on home page).

Publications
o "MEOMS micro mirrors." Proceedings of Eureka. IIT Kgp, February 2008, 4. Worked on many aspects of MEOMS
o "CNT Nanomanufacturing and Physics." Ideaz Paper presentation. Cognizance IIT Roorkee, March 2008. Paper on "CNT nanomanufacturing by CVD method and Physics of CNT"
o "MEMS Packaging and Design." Optima (techfest). IIT Kharagpur, March 2007. Paper on "MEMS Packaging and Design"

Training Certificates
o Theoretical Study on CNT - Centre for Advanced Technology Indore. CAT Indore, 2007. Worked and Studied CNT and MEMS (theoretical)
o NSTC Noida "Nanotechnology sensitization program". Project on Nanoelectronics submitted in 2006
o Course on Conventorware (MEMS design) - Coventorware MEMS design. BITS Pilani, 2007. 3 day course on MEMS Design on Coventorware

Workshops and Seminars
o Workshop on Nanotech Status and challenges - IIT Delhi. IIT Delhi, 2007. Attended workshop on Nanotechnology, had many lab visits
o Workshop on MEMS - Mech Engg IITB. IIT Bombay, 2007. Workshop organized by Radiance, dept of Mechanical Engineering.
o Workshop on CNT - IIT Madras, 2006 to 2006. Workshop on Nanotechnology and CNT, Fabrication of CNT and Physics of CNT
Experience with tools on MEMS & Nanotech and have Worked on:-

o Softwares related to MEMS and Nanotech like Matlab (Sugar), Coventorware
o Basic Microscopy like STM and AFM for Microscopy & Nanocharacterization
o Latex and Mathtype for formatting/editing research papers
o Mathmematica for Maths calculation and Basics of Pspice for simulation
o Packaging and Reliability of MEMS and Nanodevices
o Physics and Engineering of CNT and CNT based MEMS devices
o Nanofabrication techniques like CVD and Nanolithography
o Entrepreneurship and Business in Nanotech, MEMS and CNT
o Basic Computer Hardware course and software skills

Om Namah Shivay