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Mexico , D.F., May 2007

NANOMEX. National Nanotechnology Initiative Proposal “Invitation for the Introduction of Ideas for the Realization of Scientific or Technological Mega Projects Investigation 2006”. CONACYT. Mexico , D.F., May 2007. NANOMEX. CONTENT Objectives National Overview Focus and Model Operation

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Mexico , D.F., May 2007

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  1. NANOMEX National Nanotechnology Initiative Proposal “Invitation for the Introduction of Ideas for the Realization of Scientific or Technological Mega Projects Investigation 2006”. CONACYT Mexico, D.F., May 2007

  2. NANOMEX • CONTENT • Objectives • National Overview • Focus and Model • Operation • Results • Impacts • Phases • Budget México, D.F., Mayo de 2007

  3. Objective Interaction and International Collaborations Basic and Applied Research Areas Diminish the Technology Gap Operational Standards and Framework National Nanotechnology Network (academic institutions and companies Multidisciplinary R&D Groups Competitiveness of the productive sector To generate “frontier knowledge” and to develop national technology, by means of coordination and fortification of research activities, technological development, development of skilled human resources and innovation in the field of Nanotechnology Infrastructure and Equipment Security (Risks in Health and environment Development of Skilled Human Resources Science and Knowledge Diffusion

  4. 1991 and 2004 (IMD and WEF)* 30 WEF IMD Ranking Number 56 1991 2000 2004 National Overview Mexico's Competitive Ranking * Source: IMD : International Institute for Management Development WEF : World Economic Forum

  5. 3.0% USA 2.69% 1 2.5% Holland 2.02% 4 Singapore 1.88% 2.0% 5 Expenses in R&D % GDP Australia 1.55% 14 1.5% Spain 0.90% Index Ranking (IMD 2003) 1.0% 23 Portugal 0.75% 33 Mexico 0.40% 0.5% 41 48 Venezuela 0.33% 0.0% 0 5 10 15 20 25 30 35 40 GDP per capita (thousands of dollars) National Overview Investment in R&D, Income Per-Capita and Competitive Index

  6. 7.3 % 39.2 % 29.0 % 24.5 % National Overview % Mexico GDP (manufacturing) • Advanced Materials • Advanced Software • Pharmaceuticals • Nutracetics • Equipment and Electronic Instruments • Telecommunications • Aeronautical Components • Chemical Specialties • Biotechnology 40% - • Agroindustry • Textiles • Forest Products and Paper • Cement, Steel, Petroleum 30% - • Plastics • Metal Products • Other Basic Machinery 20% - • Chemicals • Electrical Machinery • Auto parts • Tools High Value Added Products based on high tech scientific knowledge 10% - 0% -

  7. National Overview Nanotechnology R&D in Mexico • High level R&D groups with international recognition Loss of Opportunities and Resources • Isolated and dispersed efforts and resources • Marginal results with practically null results • Rising costs associated with R&D activities

  8. Focus and Model • - Generating “frontier knowledge” • Creating new research infrastructure • Generating solutions to technology, products, processes and equipment • Creating new post graduate programs and developing skilled and qualified personnel Academic and Research Institutions National Nanotechnology Initiative Federal Government (CONACYT) and States Companies from the Private Sector - Providing economic support - Providing economic/tax incentives - Facilitating standards and regulations - Access to federal procurement systems - Facilitating venture capital and venture funds through collaboration models - Identification of necessities and opportunities - Integrating business cases - Investment in new solutions and business ventures - IP and technology transfer - Incorporation of skilled human resources

  9. Focus and Model Market Driven Requirements and Opportunities High Value Added New Products and Business New Products and Businesses MARKETS Basic Science Research Experimental Technology Development Product and Process Development Applied Research Commercial Application Industrial Scale Prototypes of Products – Processes “Applied Knowledge” “Frontier Knowledge” POSTGRADUATE AND SPECIALIZATION PRE COMERCIAL PHASE COMERCIAL PHASE High Technology Research and Development Generates Solutions

  10. Focus and Model Products / Markets High Technology Metallic Oxides Semiconductor Substrates Catalysis Light Sources Laser Beams Pharmaceutical Composites Personal Care Displays Dielectric Materials Fiber Optics Resin Composites Protease Inhibitors Liquid Crystals Semiconductor apparatus Food Products Dielectric Films Thin Films Nucleic Acids Water Treatment Polymer Packaging Optical Systems Products with a High Value Added ($/kg) Imaging Systems Registered Patents 70% 25% 5% Products / Markets Medium-Low Technology Water – Air Purification Products / Markets Medium - High Technology Thermoplastics Elastomers Aquatic Solutions Refractive Indexes Textile Fibers Biotechnology Glass Materials Steels Cements / Materials Scientific – Technical Complexity

  11. Value Deliverables Critical Processes Key Competencies Values and Guiding Principales Resources Organization Focus and Model • Results • Knowledge • Specialized Human Resources • Patents • Industrial Competitiveness • Innovation of products and processes • High Paying Wages, etc. Projects Portfolio • Orientation • Innovation • Regional Development Strategy and Focus Toward Key Areas • Baseline • Research and Development Technological Network • Development of Skilled Human Resources

  12. Focus and Model Values and Principles • Outstanding Research 2. Postgraduate and Development of Skilled Human Resources with International Quality 3. Multidisciplinary Team Focused Toward Results 4. Focused Research Programs with the Possibility of Generating Deliverables Within 5 Years 5. Sharing of Research Infrastructure and Resources Among Nanotechnology Network • Evaluation of Proposals and Initiatives or New Infrastructure by Ad-Hoc Committees Integrated by Distinguished Members of the Academic / Research Sectors • 7. Allocation of Resources by Pre-Competitive Processes with Quality and Feasibility Criteria 8. Periodical Evaluations to Measure Advances and Accomplishments by Independent Evaluators 9. Collaborative Team Based Approach of Research Activities with the Industrial Sector Network, for the Identification of Market Requirements and Opportunities 10. Metric Based Indicators that will Help Evaluate Programs and Measure the Benefits and Results Obtained

  13. Operation 6 National Nanotechnology Network 23 32 7 22 38 16 24 13 2 10 36 25 31 35 5 15 26 9 12 11 27 4 3 30 37 8 34 33 21 39 18 19 17 14 20 28 29

  14. Key CompetencyAreas Key Area Leaders Nanoparticles CIMAV Inorganic Nanostructures CIITEC-IPN Polymeric Nanostructures CIQA Computational Simulation CINVESTAV Bionanotechnology CIAD Nanometrology CENAM Process and equipment design CIDESI 35 3 Operation National Nanotechnology Network 6 23 7 32 22 239 Researchers 1 Participation of 11 Companies: • Viakable • Mabe • Comex • Dynasol • Resirene • Laboratorio Avimex • Centro de Investigación y Desarrollo Tecnológico del Grupo DESC • Grupo Cementos de Chihuahua • Prolec/GE • Servicios Industriales Peñoles • Johnson Controls 38 16 13 2 24 10 36 25 31 15 5 26 12 11 4 9 27 30 37 8 34 33 21 39 17 14 18 19 20 28 29

  15. Operation International Collaborations 8 10 11 5 6 4 9 7 3 1 2 • International Institutions • Arizona State University (ASU), Tempe, Arizona, USA (Nanotechnology Cluster with an 8 million dollar investment) • Center for Integrated Nanotechnologies (CINT), Albuquerque, and Los Alamos, New Mexico, USA jointly operated by Los Alamos National Laboratory, Los Alamos, New Mexico, USA; Sandia National Laboratories, Albuquerque, New Mexico USA • University of Texas at Austin; Austin, Texas, USA • State University of New York at Albany; Albany, New York, USA • National Center for Learning and Teaching in Nanoscale Science and Engineering; Chicago, Illinois, USA • Lawrence Berkeley National Laboratory, Berkeley; University of California, Berkeley, California, USA • Mexico – USA, Bi-National Sustainability Laboratory (BNSL), Santa Teresa, New Mexico, USA • Chalmers University of Technology, Sweden • University of California, Santa Barbara, USA • University of Sheffield, United Kingdom • University of Limoges. France

  16. Consejo General General Council Director de la Iniciativa (Dr. Jesús González) Director of the Initiative (Dr. Jesús González) Consejo Técnico Technical Council Consejo Asesor Internacional Council International Advisors Secretaría Técnica Technical Secretariat Nanopartículas Nanoparticles Materiales Nanoestructurados Inorgánicos Inorganic Nanostructured Materials Nanostructured Polymeric Materials Polymeric Nanostructured Materials Bionanotecnología Bionanotechnology Simulación Simulation Nanometrología Nanometrology Design and Development of Processes and Equipment Diseño y Desarrollo de Procesos y Equipos Interacción Clientes Interaction with Clients CIMAV CIQA CICESE CIMAV CIQA CICESE Casos de Negocio Business Cases Líder de Producto Product Leader Producto 1 Product 1 Producto 2 Product 2 Producto 3 Product 3 Producto 4 Product 4 Producto 5 Product 5 Operation National Nanotechnology Network Key Areas of Competency 25 Project Leaders Basic Research Applied Research Experimental Development Human Resources Development 25 Products to be Developed

  17. Nanoparticles • National standards and measuring systems • Certification of reference materials • Development and validation of analytical methods to determine the content of nanomaterials in different matrixes • High reliability tests for products that contain nanomaterials Nanometrology CENAM Scientific – Technical Platform:Sol- Gel Institutions Participants Research Areas by Areas of Competency Products Applications • Metallic Particles (steel, aluminum, textile fibers, electrical materials, catalysis, sensors) • Metallic Oxides (Paints, coatings, cement, ceramics, catalysis, electrical materials, glass, personal care, plastics, polymers, catalysis) • Hydroxides (Personal care, plastics, food products, packaging) Nanoparticles CIMAV • Nanoparticles in industrial catalysis • Synthesis by wet routes • Chemical reactivity • Mechanical synthesis methods • Physicochemical characterization • Environmental applications UASLP, CIDETEQ, UANL, CINVESTAV QRO, CIO, ESFM IPN, CIATEC Inorganic Nanostructures CIITEC-IPN • Ceramic structures • Physicochemical characterization • Structural biocompatibility • Nano-micro interfaces • Metallic surfaces • Catalysis UAM, CINVESTAV QRO, CIMAV Academics Doctors Masters Publications Patents Polymeric Nanostructures CIQA • Electrical and mechanical properties • Functionalization and application • Structure auto assembly CICY Markets Simulation CINVESTAV MEXICO • Materiales simulation • Functional molecular nanomaterials • Conceptual and theoretical using DFT • Nanomolecular catalysis • Nanoaggregates • Metallic and molecular CIMAV, BUAP, CINVESTAV QRO, CINVESTAV MÉXICO, U DE GUANAJUATO, UAM AZCAPOTZALCO, UAM IZTAPALAPA Metales Oxides Hydroxides Cu, Ag, Pt, Mg, ZnO, FeO, Al2O3, SiO2, Mg(OH)2, Fe(OH)2, Sn(OH)4. Bionanotechnology CIAD • Biosecurity • Antiviral • Antibacterial UACH, UNISON • Process Modeling • Pilot plants • Measuring equipment • Design of equipment and processes Processes and Equipment CIDESI CIATEQ

  18. Nanoparticles • National standards and measuring systems • Certification of reference materials • Development and validation of analytical methods to determine the content of nanomaterials in different matrixes • High reliability tests for products that contain nanomaterials Nanometrology CENAM Scientific –Tecnological Platform :Physical Method (Milling) Research Areas by Areas of Competency Institutions Participants Products Applications Nanoparticles CIMAV • Steel, aluminum, electronic materials, catalysis, paints, coatings, cement, ceramics, glass, personnal care, plastics • Nanoparticles in industrial catalysis • Chemical reactivity • Physicochemical characterization • Environmental applications UASLP, CIDETEQ, UANL, CINVESTAV QRO, CIO, ESFM IPN, CIATEC Inorganic Nanostructures CIITEC-IPN • Polymeric structures • Ceramic structures • Physicochemical characterization • Biocompatibility of structures • Nanometric interfaces • Glass chemistry • Cement chemistry Academics Doctors Masters Publications Patents • Electrical and mechanical properties • Functionalization and application Polymeric Nanostructures CIQA Simulation CINVESTAV MEXICO Markets • Materials simulation • Functional nanomaterials • Theoretical and Conceptual using DFT • Metallic and molecular Nanoaggregates • Nanomaterials and molecules under pressure CIMAV, BUAP, CINVESTAV QRO, CINVESTAV MÉXICO, U DE GUANAJUATO, UAM AZCAPOTZALCO, UAM IZTAPALAPA Na2CO3, Al2O3, C, TiO2, CaSiO3, Nitrides, Carbides. Bionanotechnology CIAD • Biosecurity UACH, UNISON • Process Modeling • Pilot plants • Measuring equipment • Design of processes and equipments Processes and Equipment CIDESI

  19. Nanoparticles • National standards and measuring systems • Certification of reference materials • Development and validation of analytical methods to determine the content of nanomaterials in different matrixes • High reliability tests for products that contain nanomaterials Nanometrology CENAM Scientific – Technical Platform:High Temperature (Vapor Condensation) Institutions Participants Research Areas by Areas of Competency Applications Products Nanoparticles CIMAV • Nanoparticles in industrial catalysis • Synthesis by wet route • Chemical reactivity • Mechanical methods synthesis • Physicochemical characterization • Textile fibers, catalysis, coatings, ceramics, plastics and packaging. UASLP, CIDETEQ, UANL, CINVESTAV QRO, CIO, ESFM IPN, CIATEC Inorganic Nanostructures CIITEC-IPN • Ceramic structures • Physicochemical characterization • Biocompatibility of structures • Nanometric interfaces Academics Doctors Masters Publications Patents Polymeric Nanostructures CIQA • Electrical and mechanical properties • Functionalization and application • Auto assembly of structures Simulation CINVESTAV MEXICO • Materials simulation • Functional nanomaterials • Theoretical and conceptual using DFT • Metallic and molecular Nanoaggregates • Nanomaterials and molecules under pressure Markets CIMAV, BUAP, CINVESTAV QRO, CINVESTAV MÉXICO, U DE GUANAJUATO, UAM AZCAPOTZALCO, UAM IZTAPALAPA Metallic nitrades, Ag, CdSe, Pt, Ru, Pd. Bionanotechnology CIAD • Biosecurity UACH, UNISON Processes and Equipment CIDESI • Process Modeling • Pilot plants • Measuring equipment • Design of processes and equipment CIATEQ

  20. Bionanotechnology Bionanotechnology CIAD • Functional complexes • Bioadhesion • Vaccines • Inoculable • Exposure to nanostructured materials UACH, UNISON, UACJ, UV-MICRONA, UMSNH, UADY, CIBNOR • National standards and measuring systems • Certification of reference materials • Development and validation of analytical methods of the content of nanomaterials in different matrixes. • High reliability tests for products that contain nanomaterials Nanometrology CENAM Scientific – Technical Platform:Microemulsion/Sol Gel Institutions Participants Applications Research Areas by Areas of Competency Products • Fresh food products, water purification, antibacterial, lixiviation. Nanoparticles CIMAV • Synthesis by wet route • Chemical reactivity • Mechanical synthesis methods • Physicochemical characterization UASLP, CIDETEQ, UANL, CIAD, UANL, CIAD, CIO, ESFM IPN Academics Doctors Masters Publications Patents Inorganic Nanostructures CIITEC-IPN • Functionalization and application • Physicochemical characterization • Structures biocompatibility • Nano-micro interfaces IPN, CIMAV, UANL Markets Polymeric Nanostructures CIQA Metals • Functionalization and application • Polymeric films for packaging Cu, Ag, Au, Co, Activated Carbon Simulation CINVESTAV MEXICO • Simulation of materials • Pharmaceutical, food and agricultural chemical products • Study and development of biological origin nanoreactores • Ab Initio calculation of nanocrystals with pharmaceutical • interest CIMAV, BUAP, CINVESTAV QRO, CINVESTAV MÉXICO, U DE GUANAJUATO, UAM AZCAPOTZALCO, UAM IZTAPALAPA Organics/ coprecipitation Cyclodextrins-phenols, cyclodextrins. • Modelling via wet and mechanical processes • Pilot plants • Measuring equipment • Design of equipment and processes Processes and Equipment CIDESI CIATEQ

  21. National standards and measuring systems • Certification of reference materials • Development and validation of analytical methods of the content of nanomaterials in different matrixes. • High reliability tests for products that contain nanomaterials Nanometrology CENAM Bionanotechnology Scientific – Technical Platform:Vapor Condensation Research Areas by Areas of Competency Institutions Participants Applications Products Bionanotechnology CIAD • Food products, vaccines, antibacterial, intelligent antibiotics, nanostructured • Functional complexes • Bioadhesion • Vaccines • Inoculable • Exposure to nanostructured materials UACH, UNISON, UACJ, UV-MICRONA, UMSNH, UADY, CIBNOR Nanoparticles CIMAV • Nanoparticles in catalysis • Synthesis by wet route • Chemical reactivity • Synthesis of mechanical methods • Physicochemical characterization UASLP, CIDETEQ, UANL, CIO, ESFM-IPN Academics Doctors Masters Publications patents Inorganic Nanostructures CIITEC-IPN • Synthesis of carbon nanotubes • Functionalization and application • Physicochemical characterization • biocompatibility of structures • Nano-micro interfaces IPN, CIMAV, UANL Markets Polymeric Nanostructures CIQA • Functionalization and application • Polymeric films for packaging • Polymer – biomolecular interaction Carbon nanotubes Functionality • Simulation of materials • Pharmaceutical, food and agricultural chemical products • Development of Functional interchangeable correlation and its application to Biological Systems Simulation CINVESTAV MEXICO CIMAV, BUAP, CINVESTAV QRO, CINVESTAV MÉXICO, U DE GUANAJUATO, UAM AZCAPOTZALCO, UAM IZTAPALAPA Enzymatic complexes and non enzymatic, RNA and DNA Processes and Equipment CIDESI • Modelling via wet and mechanical processes • Pilot plants • Measuring equipment • Design of equipment and processes CIATEQ

  22. Nanoparticles CIMAV • Synthesis by wet route • Mechanical and synthesis methods • Physicochemical characterization UASLP, CIDETEQ, UANL, CIO, ESFM IPN • National standards and measurement systems • Certification of reference materials • Development and validation of analytical methods of the content of nanomaterials in different matrixes. • High reliability tests for products that contain nanomaterials Nanometrology CENAM Inorganic Nanostructures Scientific – Technical Platform:Wet Route/Sol Gel Institutions Participants Research Areas by Areas of Competency Applications Products • Cement, glass, ceramics, electronic materials, aluminum, water treatment • Synthesis by SPS • Synthesis via vapor condensation • Functionalization and application • Physicochemical characterization • biocompatibility of structures • Nano-micro interfaces • Measurement of elastic modulus • Nanowires Inorganic Nanostructures CIITEC-IPN IPN, CIMAV, INST. FISICA UNAM, CINVESTAV SALTILLO, UNIV. DE GUANAJUATO, UAM AZCAPOTZALCO, CICESE, COMIMSA, UAEH Academics Doctors Masters Publications patents Polymeric Nanostructures CIQA • Functionalization and application Markets • Simulation of materials • Corrosion inhibitors • Quantum computational chemistry applied toward the study of nanostructured materials • Electronic characterization, structural and optical of aggregate metallic, ionic and semiconductors • Effects of the confindment of zeolites by DFT Simulation CINVESTAV MEXICO CIMAV, BUAP, CINVESTAV QRO, CINVESTAV MÉXICO, U DE GUANAJUATO, UAM AZCAPOTZALCO, UAM IZTAPALAPA Ceramic Oxides, perovskite type, fluor based, alumina (Al2O3), HMS, SBA. • Functional complexes • Bioadhesion • Vaccines • Inoculable • Exposure of nanostructured materials Bionanotechnology CIAD UACH, UNISON, UACJ, UV-MICRONA, USMNH Processes and Equipment CIDESI • Modelling via wet and mechanical processes • Pilot plants • Measuring equipment • Design of equipment and processes CIATEQ

  23. Inorganic Nanostructures Nanoparticles CIMAV • Synthesis by wet route • Synthesis mechanical methods • Physicochemical characterization • Functionalization and application • Physicochemical characterization • biocompatibility of structures • Nano-micro interfaces • Measurement of elastic modulus • Nanowires • Superplasticity Inorganic Nanostructures CIITEC-IPN IPN, CIMAV, INST. FISICA UNAM, CINVESTAV SALTILLO, UNIV. DE GUANAJUATO, UAM AZCAPOTZALCO, CICESE, COMIMSA, UAEH UASLP, CIDETEQ, UANL, • National standards and measurement systems • Certification of reference materials • Development and validation of analytical methods of the content of nanomaterials in different matrixes. • High reliability tests for products that contain nanomaterials Nanometrology CENAM Scientific – Technical Platform:Physical Methods/SPS Institutions Participants Research Areas by Areas of Competency Products Applications • Metallic coatings, ceramics, cement, glass, aluminum, steel, electronic materials, energy Academics Doctors Masters Publications Patents Polymeric Nanostructures CIQA • Functionalization and application Markets • Simulation of materials • Corrosion inhibitors • Cement forging • Quantum computational chemistry applied to the study of nanostructured materials • Nanomaterials for the storage and conversion of energy • Characterization of nanostructures by vibration spectroscopy Simulation CINVESTAV MEXICO CIMAV, BUAP, CINVESTAV QRO, CINVESTAV MÉXICO, U DE GUANAJUATO, UAM AZCAPOTZALCO, UAM IZTAPALAPA Al alloys, oxides and nitrides, ceramics, cement clinker, mulite, metallic hydrides, silica, alumina, zirconia. Bionanotechnology CIAD UACH, UNISON, UACJ, UV-MICRONA, USMNH, UADY, CIBNOR • Exposure to nanostructured materials • Biotoxicity in water • Modelling via wet and mechanical processes • Pilot plants • Measuring equipment • Design of equipment and processes Processes and Equipment CIDESI CIATEQ

  24. Nanoparticles CIMAV • Synthesis by wet route • Mechanical synthesis methods • Physicochemical characterization UASLP, CIDETEQ, UANL, CIO, ESFM IPN Inorganic Nanostructures CIITEC-IPN • CNT Synthesis • Functionalization and application • Physicochemical characterization • Structures biocompatibility • Nano-micro interfaces IPN, CIMAV, INST. FISICA UNAM, CINVESTAV SALTILLO, UNIV. DE GUANAJUATO, UAM AZCAPOTZALCO, CICESE, COMIMSA, UAEH • National standards and measuring system • Certification of reference materials • Development and validation of analytical methods of the content of nanomaterials in different matrixes. • High reliability tests for products that contain nanomaterials Nanometrology CENAM Polymeric Nanostructures Scientific – Technical Platform:Composites Institutions Participants Research Areas by Areas of Competency Applications Products Polymeric Nanostructures CIQA • Functionalization and application • Reheological properties • Mechanical, electrical and optical properties • Interfacial adhesion • Polymer-nanoparticles interfaces • Extrusion, injection, molding • Paints, sensors, packaging, fibers, shoe wear, medical applications, plastics CIATEC, CICY, CIMAV, IIM UNAM, ITZ, UDG Academics Doctors Masters Publications Patents Simulation CINVESTAV MEXICO • Polymer modelling and synthesis • Molecular nanoelectronics and nanobiosensors • Density Functional Theory for atoms, molecules and complex systems Markets CIMAV, BUAP, CINVESTAV QRO, CINVESTAV MÉXICO, U DE GUANAJUATO, UAM AZCAPOTZALCO, UAM IZTAPALAPA Nanocomposites PP/EVA/nanoclays, Polyurethane/Ag, PMMA/CdSe, SBR/carbon black, iPP/CNT, PE/inorganic nanoparticles, PET/ nanoclays.SBR/TiO2 PC/Ag, Cu, Au, Pt. • Functional complexes • Bioadhesion • Exposure to nanostructured materials • Biosensors Bionanotechnology CIAD UACH, UNISON, UACJ, UV-MICRONA, USMNH, UADY, CIBNOR Processes and Equipments CIDESI • Pilot Plants • Measuring equipment • Design of equipment and processes CIATEQ

  25. Polymeric Nanostructures Nanoparticles CIMAV • Synthesis by wet route • Synthesis via mechanical methods • Physicochemical characterization UASLP, CIDETEQ, UANL, CIDETEQ, UANL, UANL, CIO, ESFM Inorganic Nanostructures CIITEC-IPN • Physicochemical characterization • biocompatibility of structures • Nano-micro interfaces IPN, CIMAV, INST. FISICA UNAM, CINVESTAV SALTILLO, UNIV. DE GUANAJUATO, UAM AZCAPOTZALCO, CICESE, COMIMSA, UAEH Polymeric Nanostructures CIQA • Microemulsion in polymerization • Rheological properties • Mechanical, electrical and optical properties • Monomeric Interfaces CIATEC, CICY, CIMAV, IIM UNAM, ITZ, UDG • National standards and measuring systems • Certification of reference materials • Development and validation of analytical methods of the content of nanomaterials in different matrixes. • High reliability tests for products that contain nanomaterials Nanometrology CENAM Scientific – Technical Platform:Synthesis Institutions Participants Applications Research Areas by Areas of Competency Products • Paints, rubber, shoes, fibers, plastics. Academics Doctors Masters Publications Patents Simulation CINVESTAV MEXICO • Modelling and synthesis of polymers • Molecular nanoelectronic and nanobiosensors • Density Functional Theory for atoms, molecules and complex systems Markets CIMAV, BUAP, CINVESTAV QRO, CINVESTAV MÉXICO, U DE GUANAJUATO, UAM AZCAPOTZALCO, UAM IZTAPALAPA Resins Surfactants, aquous adhesives , metalocenes/ vinyl monomers, styrene/butadiene. Bionanotechnology CIAD • Functional complexes • Bioadhesion • Exposure to nanostructured materials • Biosensors CIAD, UACH, UNISON, UACJ, UV-MICRONA, USMNH, UADY, CIBNOR Processes and Equipment CIDESI • Pilot Plants • Measuring equipment • Design of equipment and processes CIATEQ

  26. National standards and measurement systems • Certification of reference materials • Development and validation of analytical methods of the content of nanomaterials in different matrixes. • High reliability tests for products that contain nanomaterials Nanometrology CENAM Computational Simulation Scientific – Technical Platform:Multiscale Systems for the Design and Simulation of Systems that are Related to Nanotechnology Research Areas by Areas of Competency Institutions Participants Applications Products Specialized software industry with experimental software development. Simulation CINVESTAV-MEXICO • Materials simulation • Development and application of a program basic principles and multi scale with the DFT • Calculation of electronic properties with response function of density • Theoretical study electrically excited states CIMAV, BUAP, CINVESTAV QRO, CINVESTAV MÉXICO, U DE GUANAJUATO, UAM AZCAPOTZALCO, UAM IZTAPALAPA Academics Doctors Masters Publications Patents National Laboratory of Advanced Computing Non Polymeric Nanostructures CIITEC-IPN IPN, CIMAV, INST. FISICA UNAM, CINVESTAV SALTILLO, UNIV. DE GUANAJUATO, UAM AZCAPOTZALCO • Physicochemical characterization • Nano-micro interfaces Polymeric Nanostructures CIQA • Microemulsion Polymerization • Rheological properties • Mechanical, electrical and optical properties • Monomeric interfaces CIATEC, CICY, CIMAV, IIM-UNAM, ITZ; UDG Markets Companies that offer hardware and software solutions in the design of materials and molecules Nanoparticles CIMAV • Synthesis by wet route • Mechanical methods synthesis • Physicochemical characterization UASLP, CIDETEQ, UANL Bionanotechnology CIAD • Functional complexes UACH, UNISON, UACJ Processes and Equipment CIDESI • Pilot Plants • Measuring equipment • Design of equipment and processes CIATEQ

  27. National standards and measurement systems • Certification of reference materials • Development and validation of analytical methods of the content of nanomaterials in different matrixes. • High reliability tests for products that contain nanomaterials Nanometrology CENAM Nanometrology Scientific – Technical Platform:Development of National Standards and Measurment Systems for the Assurance of Metrological Measurements Research Areas by Areas of Competency Institutions Participants Applications Products Measuring equipment, plastics, powder management, measurement standards, reference materials Academics Nanoparticles CIMAV • Synthesis by wet route • Mechanical methods synthesis • Physicochemical characterization CIMAV, UASLP, CIDETEQ, UANL, CINVESTAV QRO, CIO, ESFM IPN Doctors Masters Publication patents Inorganic Nanostructures CIITEC-IPN IPN, CIMAV, INST. FISICA UNAM, CINVESTAV SALTILLO, UNIV. DE GUANAJUATO, UAM AZCAPOTZALCO, CICESE, COMIMSA, UAEH • Synthesis via vapor condensation • Synthesis by SPS • Synthesis of CNT • Physicochemical characterization Markets Reference materials for particle size, reference materials for nanomaterials content in different matrixes diffraction gratings to calibrate microscopes, measurement standards calibration, development of methods for the characterization of nanomaterials in industrial products and for personal health care applications Polymeric Nanostructures CIQA • Microemulsion polymerization • Rheological properties • Mechanical, electrical and optical properties • Extrusion, injection molding, compression molding CIATEC, CICY, CIMAV, IIM UNAM, ITZ, UDG Simulation CINVESTAV MEXICO CIMAV, BUAP, CINVESTAV QRO, CINVESTAV MÉXICO, U DE GUANAJUATO, UAM AZCAPOTZALCO, UAM IZTAPALAPA • Simulation of materials • Study and development of biological nanoreactors • Functional complexes • Exposure to nanostructured materials • Biosensors • Vaccines Bionanotechnology CIAD UACH, UNISON, UACJ, UV-MICRONA, USMNH, UADY, CIBNOR Processes and Equipment CIDESI • Pilot Plants • Measuring equipment • Design of equipment and processes • Equipment calibration • Measuring standards • Automation and instrumentation CIATEQ

  28. National standards and measurement systems • Certification of reference materials • Development and validation of analytical methods of the content of nanomaterials in different matrixes. • High reliability tests for products that contain nanomaterials Nanometrology CENAM Process and Equipment CIDESI • Pilot Plants • Measuring equipment • Design of equipment and processes • Equipment calibration • Measuring standards • Automation and instrumentation CIATEQ Processes and Equipment Scientific – Technical Platform:Design of Processes and Equipment for Synthesis Research Areas by Areas of Competency Institutions Participants Applications Products Production of nanoparticles, measuring equipment, plastics, management of powders. Academics Nanoparticles CIMAV • Synthesis by wet route • Synthesis of mechanical methods • Physicochemical characterization CIMAV, UASLP, CIDETEQ, UANL, CINVESTAV QRO, CIO, ESFM IPN Doctors Masters Publications Patents Inorganic Nanostructures CIITEC-IPN IPN, CIMAV, INST. FISICA UNAM, CINVESTAV SALTILLO, UNIV. DE GUANAJUATO, UAM AZCAPOTZALCO, CICESE, COMIMSA, UAEH • Synthesis by vapor condensation • Synthesis by SPS • Synthesis of CNT • Physicochemical characterization Polymeric Nanostructures CIQA • Microemulsion polymerization • Rheological properties • Mechanical, electrical and optical properties • Extrusion, injection molding, compression molding Markets CIATEC, CICY, CIMAV, IIM UNAM, ITZ, UDG Reactors, dust collectors, ball milling, process design, equipment calibration, nanomaterials measurement standards, pilot plants Simulation CINVESTAV MEXICO CIMAV, BUAP, CINVESTAV QRO, CINVESTAV MÉXICO, U DE GUANAJUATO, UAM AZCAPOTZALCO, UAM IZTAPALAPA • Materials simulation • Study and development of biological reactors. • Functional complexes • Exposure to nanostructured materials • Biosensors • Vaccines Bionanotechnology CIAD UACH, UNISON, UACJ, UV-MICRONA, USMNH, UADY, CIBNOR

  29. Operations Key - Technology Competencies

  30. Results • Around150 Ph D´s and 450 masters graduates in sciences, with an enrollmentestimated at550 PhD doctorate students and 1,700 masters • More than 1,000 articles in international indexed journalsin 5 years (an average of 200 articles per year) • Around200 patent titles or registrationsin 5 years,7 process and equipment designsassociated to the technology platforms detected in this project,3 computational programsfor the simulationof nanoparticles and nanostructures and a companyto offer hardware and software solutions in the design of materials and molecules. • Obtain specific guidelines for intellectual protectionfor the commercialization of projects derived from this initiative • To sign at least 15 agreement with institutionswith recognized international prestige, oriented towards the development of joint projects and international cooperation related to the topics. • To move beyond the 239 actual researchersfrom the participating institutions in the network to more than 400 • At least 25 productsgrouped in 5 families (liquid phase technology, milling technology, high temperature technology, nanostructured materials and technology from nanocomposites) oriented toward necessities and exportation of Mexico's industrial market with potential salesstarting on the sixth year in the order of 100 to 150 millions de dollars annually. • Create new state of the art infrastructurein the different institutions that participate in the network (laboratories, buildings, workshops, etc.). • At least 5 cases of new business generated from the products developed by the institutions participating in the network. • Generate at least 500 scientific and technological products to diffuse the social and economical impact of nanotechnology of nanotechnology (reports, books, press releases, radio programs, and television, etc.).

  31. Impacts Scientific -Technological • Substantial increase in the number of graduates in the postgraduate and specialization in the national and international programs in nanotechnology • Greater number of publications in specialized journals with higher impact index. • The creation of patents with topics related to nanotechnology • Increase innovative basic and applied research that will allow the country will position itself in the generation of “frontier” scientific and technical knowledge • To focus in topics of greater interest to the country • The proliferation of scientific groups and research centers working in topics related to nanotechnology • To increase and fortification of physical infrastructure (equipment and installations) of the research groups and nanotechnology research centers • The trustworthiness and comparability of the measurements at nanoscale level made in the laboratories and the companies and which will therefore lead to quality products obtain from our country. • The fortification of the knowledge in companies or areas of application of great relevance in the economic life of our country • The fortification and collaboration of high level international institutions which will generate greater “frontier knowledge”.

  32. Impacts Economic • The creation of technology based companies, as well as an improvement of competitiveness of current existing companies, which also are of great relevance to the national GDP. • The creation of new employment positions for researchers and technicians, at the institutions as well as in the private sector. • We estimate sales after the six year , in the order of 100 to a 150 million dollars in annual sales. • By generating new technology based companies we expect higher paying wages above the current average pay rates. • The creation of a new generation of high value added projects that will lead to new technology based economic development clusters in the country. • Reduce technical barriers to commerce.

  33. Impacts Social • Increase the education level among the population • Creates more options of high level education in the country • Createsbetterpayingemployment • Reduces the utilization of non renewable resources, and creates alternate energy sources by optimizing processes • Creates processes that are oriented toward social science appropriation • Generation of products that are oriented toward health care at lower costs • Research and development of equipment for the improvement of the environment

  34. Phases

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