Dr. A.P.J. Abdul Kalam: Former President of India
  Dr. A.P.J. Abdul Kalam    
 
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SHANMUGHA ARTS, SCIENCE, TECHNOLOGYy & RESEARCH ACADEMY(SASTRA) - DEEMED UNIVERSITY AND INAUGURATION OF THE CENTRE OF NANOTECHNOLOGY AND ADVANCED BIOMATERIALS, THANJAVUR, TAMIL NADU
 
24-09-2006 : Thanjavur
 
Nano Science and Technology and its growth pattern

I am indeed delighted to participate in the inauguration of the Centre for Nanotechnology and Advanced Biomaterials at Shanmugha Arts, Science, Technology and Research Academy (SASTRA), in this beautiful temple city. My greetings to the Vice Chancellor, Professors, teachers and students of this university. SASTRA has grown to become a technology institute with advanced research programmes.

I am happy that TIFAC had chosen SASTRA for establishing the first TIFAC (Centre for Research and Excellence in Information Technology) specializing in advanced computing and information processing. During the last five years, this TIFAC-CORE has provided over thousand post-graduate technologists to the IT industry. In addition, SASTRA has a reputed bio-technology centre which has been able to question the validity of Journal of American Medical Association (JAMA) articles on metallic contents in Indian herbal products. This expertise has been recognized by Harvard and Boston school and these institutions have shown their interest in becoming partners of SASTRA in carrying out studies on metallic contents. A programme launched by National Institute of Health, USA.

When I see the vibrant youth of this university, I thought of discussing with you the topic Nano Science and Technology: For Societal Transformation.

 
   
 

Technology through ages

Through out the last 120 centuries, unique cultures have come into existence due to advancement in technology. The first 118 centuries had a dominance of primarily stone, bronze & iron ages. The last two centuries have seen rapid development of chemical age. The advancements made in material science and technology gave the impetus for both nuclear and biological age to flourish. Succession of these technology periods has involved progression from simpler materials to more complex forms of science and engineering. We are today at the convergence of Nano, Bio and Information technologies. This age, I feel will create historical revolution and we must be at driver?s seat to contribute towards this societal change.

When I think of Nanoscience and Nanotechnology, I am reminded of two personalities. First person is Richard Feynman, who described the concept of 'building machines" atom by atom in his talk at Caltech titled "there is plenty of room at the bottom". The second person is Eric Drexler, who wrote the book titled 'Nano Systems, Molecular machinery, manufacturing and computation". Let us look at what products progress we have made in nano science & technology in India.

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Products progress in Nano Science & Technology in India ? some examples

a. Water: Nano tube filter ? water purification

The scientists from Banaras Hindu University have devised a simple method to produce carbon nanotube filters that efficiently remove micro-to nano-scale contaminants from water and heavy hydrocarbons from petroleum. Made entirely of carbon nanotubes, the filters are easily manufactured using a novel method for controlling the cylindrical geometry of the structure. The work was supported in part by the Ministry of Human Resource Development and Department of Science and Technology in India.

The filters are hollow carbon cylinders several centimeters long and one or two centimeters wide with walls just one-third to one-half a millimeter thick. They are produced by spraying benzene into a tube-shaped quartz mold and heating the mold to 900�C. The nanotube composition makes the filters strong, reusable, and heat resistant, and they can be cleaned easily for reuse.

The carbon nanotube filters offer a level of precision suitable for different applications. They can remove 25-nanometer-sized polio viruses from water, as well as larger pathogens, such as E.coli and Staphylococcus aurous bacteria. The researchers believe this could make the filters adaptable to micro fluidics applications that separate chemicals in drug discovery.

This is a classic application of the latest in science ? Nano science, to age old problem of water purification. If properly used, this can help in lessoning the burden in our drinking water missions leading to the availability of safe drinking water that will result in minimizing the water borne diseases.

b. Healthcare: Typhoid Detection Kit

Typhoid Detection Kit has been developed by DRDE, Gwalior using the nano sensor developed by Prof. A.K. Sood, and his team from IISc, Bangalore. Typhoid fever caused by Salmonella typhi is a major health problem and an important challenge to health authorities of third world countries due to unsatisfactory water supply, poor sanitary conditions, malnutrition, emergence of antibiotic resistant strains etc. According to an estimate the worldwide incidence to typhoid fever is 16 million cases annually and death rate is 6 lakhs individual per year worldwide. In India, the morbidity due to typhoid varies from 102 to 2219/100,000 population in different parts of the countries. In some areas typhoid fever is responsible for 2-5% of all deaths.

In India for routine diagnosis for typhoid disease Widal test is performed with single serum sample which does not provide the correct diagnosis of infection. Therefore a Latex agglutination based test has been developed at DRDE, Gwalior using recombinant DNA technology and immunological technique for rapid diagnosis of typhoid infection. The test detects S. typhi antigen directly in patient?s serum within 1-3 minutes which is very important for initiating early treatment and saving human life.

A collaborative work has been carried out with Prof. A.K. Sood of Indian Institute of Science, Bangalore, the sensitivity of the test has been increased 30 times by applying a small electric charge (1.5 V). With this improvement, extreme low concentrations of the antigen in clinical sample can be detected. Moreover, very small quantity of clinical sample as low as 2-3 �l is required to perform the above test as compared to 10-15 �l sample required for latex agglutination test.

c. Power: Gas flow induced generation of voltage from solids

Prof AK Sood, professor of Physics at IISc and his student Shankar Ghosh has studied, experimented and found that the liquid flow in carbon nano tubes can generate electric current. One of the most exciting applications to emerge from the discovery is the possibility of a heart pacemaker ? like device with nanotubes, which will sit in the human body and generate power from blood. Instead of batteries, the device will generate power by itself to regulate defective heart rhythm. The IISc has transferred the exclusive rights of the technology to an American start-up Trident Metrologies. They will develop the prototypes and commercialize the gas flow sensors.

d. Drug delivery system

A research group headed by Professor A. N. Maitra of the University of Delhi?s Chemistry Department has developed 11 patentable technologies for improved drug delivery systems using nanoparticles. Four of these processes have been granted U.S. patents. One of the important achievements at the initial stage of drug delivery research was development of a reverse micelles based process for the synthesis of hydrogel and ?smart? hydrogel nanoparticles for encapsulating water-soluble drugs. This method enabled one to synthesize hydrogel nanoparticles of size less than 100nm diameter. This technology has been sold to Dabur Research Foundation in 1999.

Another technology has been transferred to industry deals with nanoparticle drug delivery for eye diseases. Traditionally, steroids have been used extensively in the treatment of ocular inflammatory disease and allergies. However, prolonged use of steroids has many side effects. The Delhi university group?s process uses nanoparticles to encapsulate non-steroidal drugs. ?This process improves the bioavailability of the drug on the surface of the cornea?. The technology has been transferred to Chandigarh-based Panacea Biotech Ltd.

e. Microwave CNTs Production unit

DMSRDE, Kanpur is synthesizing non-aligned, quasi-aligned and aligned CNT with a batch size of 50 grams using a fast synthesis process. It has a maximum operating temperature 12000 C. The CNTs will have applications in EM absorbers, composites, gas sensors, flow monitors, field emission devices.

Nano technology product survey: There may be many more achievements in our scientific laboratories; I suggest DST and CII to jointly conduct a survey to prepare the technological breakthroughs accomplished in nano technology products in India. Now let me discuss, what I have witnessed on the convergence of technologies in Bio-Nano and Info in Singapore and Republic of Korea.

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Nano science & Technology Focused research in East Asia

During my recent visit to Singapore, I visited the facility built up in Biopolis, Singapore. There I saw an innovative programme of development of quality manpower in life sciences. Biopolis has a scheme of searching talent globally and providing them all the facilities to acquire qualification of their choice from any University located in the world. They provide the funds for the entire programme of study and they require the students to come back and work in Singapore in the field of life sciences for a minimum of six years. This idea has emanated because they want quality manpower across the world to enhance their R&D potential leading to commercialization initiatives. I am sure; there is an important message for all of us for nurturing young talent for all scientific research work particularly in nano-science and nano-technology. We have 540 million youth in the country, we have to build the capacity among the aspiring youth at the graduate, post graduate and Ph.D level. Ministry of Human Resource Development and DST have to launch a major capacity building drive for developing the human resource on convergence of technologies in the Bio, Info and Nano science and technologies.

Nano cluster: Nanyang Technological University has created a Nano science and Nano Technology cluster, which is a NTU wide network of research center with shared facilities for Nano fabrication, Nano characterization and exploitation of Nano technology applications. Focused areas of research, development and commercialization include Nano devices, Energy & Catalysis, Nano Magnetics & Photonics, Organic Molecular Electronics, Nano ? Biotech and Nano Materials: Synthesis. I visited the Nano Cluster labs and witnessed the developed products such as:

a. Electronic Biochips: Microfluidic protein biochip for electrochemical immunoassays with dual ring electrode.

b. Development of PLZT (Lanthanum-substituted lead zirconate titanate) electro-optical ceramics for eye-protection devices: It can rotate the plane of incident light polarization from 00 to 900 by electric-induced birefringence. So, PLZT ceramics can be applied in eye protection devices, protecting eyes or optical sensors from suddenly incident intense light. It provides low driving voltage and fast response time.

c. Field emission x-ray source: Development of compact x-ray source based on CNTs (Carbon Nano Tubes) and carbon nano fibers as an electron emitter for 3-D inspection and biomedical applications.

I am happy that SASTRA has a collaborative programme with Nanyang Technological University, Singapore in the development of embedded system.

Nano Fab: I had visited the Samsung Electronics, Giheung Plant in Korea during my recent visit to Republic of Korea. They are the leaders in semiconductor, tele-communication, digital media and digital convergence technologies. Out of the eight new fabrication lines, Samsung is designing four with capacities higher than conventional lines with the possibility of a 300 mm or lager wafer-unit, it includes one R&D line. This has resulted in a steep growth in global memory semiconductor market share for Samsung on a year to year basis. Also, I had a glimpse of the nano technology research in Samsung. Using this technology and the bioinformatics the researchers in Samsung are developing a chip that can be used to diagnose common diseases even at home. Once the patient knows reasonably well the problem, will use the information to chose the doctor, the treatment options, and possible outcome.

This visit has given me an insight, about how they plan and execute right from science, research, technology development, product development and commercialization aiming at positioning the products in the world market within a specified time frame. I have witnessed that the integrated planning includes capacity building, establishment of centers of excellence, creation of world class infrastructure, transfer of technologies to industrial partners and marketing.

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A way ahead

I have studied India?s scientific and technological work after independence. There have been some excellent areas of basic research in very advanced topic right from late 1950s and 60s. For example we had excellent work on aero science, material science and also excellent work on semi-conductor research. Some world class scientists published papers also. Later even in the Liquid Crystal Display (LCD) area some original work was done by Raman Research Institute. We should now work to realize world class materials.

However, when one studies the technological and commercial aspects of these areas, the results have not been commensurate. We never produced an indigenous aircraft until very recently. Also we missed micro electronic revolution in the 70s. Similarly, in Liquid Crystal Display, we never even started a good commercial production whereas countries like Taiwan and South Korea have become world leaders in commercial production of these products. If we study, many areas, such trend seems to be the pattern.

We should not repeat this again in areas like Nano-Technology and Convergence of nano-technology with ICT and BT. Therefore, even while we are concentrating on basic research with eminent scientists working in it, simultaneously Indian industrial group small, big and medium should concurrently work on commercialization of nano-technologies. It may well be that the technologies are developed in India or in USA or in other countries. The main focus should be speedy commercialization to fit into the global market. The time is now ripe since our economy is in the ascent phase and the manufacturing sector has established adequate capacity to promote rapid commercialization of products. Towards this, I suggest that SASTRA should work with an industry partner so that the results of research reach the commercial stage fast. To speed up the processes they can even think of having international collaboration with willing partners.

Let me discuss some of the national missions and the possible areas of research, design, development and production of products with reference to the areas of importance for development using nano science and technologies.

Agriculture and food processing: We are in the mission of generating 400 tones of food grains with reduced land, with reduced water and with reduced workforce. It is essential to take an agro food processing in a big way which will bring employment potential in rural areas.

Some of the possible areas of research in agriculture and food processing are: Nano-porous zeo-lites for slow-release and efficient doses of water and fertilizers for plant, and of nutrients and drugs for livestock, nano-capsules for herbicide delivery, nano sensors for soil quality and for plant health monitoring. Nano-composites for plastic film coatings used in food packaging, antimicrobial nano-emulsions for applications in decontamination of food equipment, packaging or food processing are other important areas of research.

Infrastructure: India is aspiring to build hundred million homes within next ten years. The infrastructure development in metropolitan and tier-2 cities needs to be enhanced in the form of new bridges, airports, marketing complexes and industrial units. 40% of the rural areas need to be covered with all weather roads; we need to double the present national highways ratio for the 100 square kilometer area.

Can nano-science material and technology research provide a solution? Our research focus in the nano-material should be towards cheaper rural housing, surfaces, coatings, use of concrete with heat and light exclusion; Can we develop heat resistance nano-material to block ultraviolet and infra red radiation; Can we develop a nano-molecular structure to make concrete more robust to water seepage, Can we have self cleaning surfaces with bio active coating?

Energy: Energy Independence has to be our nation's first and highest priority. We must be determined to achieve this within the next 25 years i.e by the year 2030. When our population may touch 1.4 billion people, demand from power sector will increase from the existing 120,000 MW to about 400,000 MW. This assumes an energy growth rate of 5% per annum. Electric power generation in India now accesses four basic energy sources: Fossil fuels such as oil, natural gas and coal; Hydroelectricity; Nuclear power; and Renewable energy sources such as bio-fuels, solar, biomass, wind and ocean.

Fortunately for us, 89% of energy used for power generation today is indigenous, from coal (56%), hydroelectricity (25%), nuclear power (3%) and Renewable (5%). Solar energy segment contributes just 0.2% of our energy production. Thus it would be seen that only 11% of electric power generation is dependent on oil and natural gas which is mostly imported at enormous cost. Only 1% of oil is (about 2-3 million tonnes of oil) being used every year for producing electricity. However, power generation to the extent of 10% is dependent on high cost gas supplies. The most significant aspect, however would be that the power generated through renewable energy technologies may target 20 to 25% against the present 5%.

Keeping this requirement in mind, can we find an innovative solution for the use of nano-technology using higher efficiency CNT based solar photovoltaic cells with an efficiency of 45% in partnership with Penn State University? This will enable setting up of modular hundred megawatts solar SPV plants across the country in a reduced land with reduced cost when compared to present figure of Rs. 20 Crore per megawatt SPV plant with 14% efficiency photovoltaic cells. Can we also develop novel hydrogen storage systems based on carbon nano tube for energy storage?

Safe Drinking Water: Over 50% people do not have safe drinking water in India. Shall we embark on a mission for water purification, water de-toxification, water desalination through nano membranes and nano sensor for detecting contaminants and pathogens? How the nano-porous zeo-lites, nano-porous polymers can be used to design and develop products for water purification.

Healthcare: India has already patented the development of drug delivery system using nano-technology. Stem cell research in India is advancing in the field of cardiology, ophthalmology, diabetic research, endocrinology, oncology and immunology. It is essential to develop drug delivery system for stem cell implantation into the specific organs of the body related to the ailment using nano technology.

ICT: Molecular switches and circuits along with nano cell will pave the way for the next generation computers. Ultra dense computer memory coupled with excellent electrical performance will result in low power, low cost, nano size and yet faster assemblies. This will result in the small scale assembly of computers, tablet PCs, display systems etc.,

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Conclusion

With the emergence of Nanotechnology, there is convergence of nano-bio-info technologies resulting new devices which has wider applications in structure, electronics, and healthcare and space systems. Potential applications are virtually endless. Progress in nanotechnology is spurred by collaboration among researchers in material science, mechanical engineering, computer science, molecular biology, physics, electrical engineering, chemistry, medicine and aerospace engineering. This is one of the important emerging area which brings synergy in research and development by combining the strengths of the multiple domain knowledge leading to the creation of knowledge society. SASTRA should have a special purpose mission to become a leader in Nano-technology in the country.

With these words I inaugurate the Centre for Nanotechnology and Advanced Biomaterials. My best wishes to all the members of SASTRA in their mission of providing value based quality education to the youth of this region.

May God bless you.

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