Nanotechnology
Incubator
Nanotechnology Incubator and Its Innovation
Ecosystem
Dr. Servando Aguirre-Tostado
Nanotechnology
Incubator
4th UTEN Workshop, Nanotechnology and Life Sciences, Lisbon, September 2011
CONTENTS
•
Regional Ecosystem of Innova8on
•
Nanotechnology Incubator
–
Incuba8on Model
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Experimental and Processing Infrastructure
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Nanotechnology Incubator and Its Innovation Ecosystem
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4th UTEN Workshop, Nanotechnology and Life Sciences, Lisbon, September 2011
Nuevo Leon
Comparison with other states
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4% Country´s population.
•
8% of GDP.
•
2
oplace in direct investment
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Foreign Direct Investment in Nuevo Leon (Oct 2009 – Sept 2010)
Country of Origin Investment (Millions of USD) Percent
Argen8na (steel) $1,040.0 46.5%
United States of America $749.7 33.5%
Denmark $200.0 8.9%
Spain $80.3 3.6%
Korea $65.0 2.9%
Canada $35.0 1.6%
Others $68.4 3.0%
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4th UTEN Workshop, Nanotechnology and Life Sciences, Lisbon, September 2011
•
Nuevo León State created the
Program “Monterrey Interna8onal
City of Knowledge” (MTYCIC) to
promote a regional economic
development based on knowledge.
Regional Ecosystem of Innova8on
•
The most important goal of the program is to create the
condi8ons that will promote the crea8on, a`rac8on
and reten8on of Higi Tech Companies..
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Monterrey among the 25 most compe88veci8es in the world. Program Development • Vision • Model • Structure • Planning Consolida?on Take-‐Off Acelerac?on Metrics: • Economy • Human Capital • Technologies • Competitiviness • Life Quality • R & D 2003 -‐ 2009 2009 -‐ 2015 2015 -‐ 2021 2021 -‐ 2030
In
di
cato
r
Society and Economy based on knowledge :
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4th UTEN Workshop, Nanotechnology and Life Sciences, Lisbon, September 2011
Insertion in the scientific, techonological and innovation dynamics of
the state
§
7 BASIC STRATEGIES:
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Redesigning the educa8onal agenda in Nuevo León.
§
A`rac8ng Research and R&D centers to the State (Research and
innova8on park).
§
Promo8on of innova8on in exis8ng companies, universi8es and
research centers.
§
Crea8on and a`rac8on of emerging technology businesses.
§
Crea8on of a set of financial instruments and funds to support
innova8on
§
Improving of urban infrastructure.
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Enterpreneruship Model
Innova8on Based Business Incuba8on Venture Capital >5M USD R & D Incuba-‐ tors Seed Funds < 200K USD Nes8ng Angel Capital 200k-‐5M USD IdeasNanotechnology
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4th UTEN Workshop, Nanotechnology and Life Sciences, Lisbon, September 2011
Technological Based Incubators
Need to create high-tech businesses
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Nanotechnology
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Biotechnology
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Sustantable houses
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Information technology
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• Area of 70 Hectare (173 acres)
• 9 University Research Centers
• 9 Government Research Centers
• 12 Private Research Centers
• 3 High Tech Business Incubator
• 3500 Scien?sts & Engineers
• Recrea?onal areas
• $100 million USD in urbaniza?on
• $200 million USD invested by
ins?tu?ons and companies
• 100% water recycling
• 2011: Expansion to 50-‐70 Ha.
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4th UTEN Workshop, Nanotechnology and Life Sciences, Lisbon, September 2011 2 Ha Par kin g 0.5 Ha In cu bad or a Bio te ch In cu bad or a N an o Autopista al aeropuerto IIP UT
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Instituto del Agua(IANL) 100% Centro de Investigación y Estudios Avanzados (CINVESTAV) 100% Centro de Ingeniería y Desarrollo Industrial (CIDESI) 100% Centro de Innovación Investigación y Desarrollo en Ingeniera y Tecnología (CIIDIT de la UANL) 100% Centro de Investigación en Materiales Avanzados (CIMAV) 100% Centro de Innovación y Diseño Estratégico de Productos (CiDEP del ITESM) 100%
(May 2011)
Monterrey IT Cluster 95% Motorola 100% Incubadora de Nanotecnología 100% UT-Austin 100%Nanotechnology
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4th UTEN Workshop, Nanotechnology and Life Sciences, Lisbon, September 2011
Nanotechnology Incubator and Its Innovation Ecosystem
Nanotechnology Incubator
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15•
Bulding:
1,500 m
2•
Investment:
7M USD
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Personel
: 3 PhDs, 1 MC, 4 Eng.
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4th UTEN Workshop, Nanotechnology and Life Sciences, Lisbon, September 2011
Principales aplicaciones de la Nanotecnología
Mejoras deseadas mas relevantes:
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Superficies autolimpiables
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Poder an8bacterial
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Mejoras en propiedade mecánicas
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Resistencia química
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Resistencia al medio ambiente
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Resistencia a la corrosión
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Resistencia al desgaste
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Resistencia al agrietamiento
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Basic Science Research Applied Research Experimental Technological Development Development of Products and Processes New Products and Businesses
PRE-COMMERCIAL STAGE COMMERCIAL STAGE
RESEARCH AND TECHNOLOGIAL DEVELOPMENT GENERATES SOLUTIONS
MERCADO
Needs stated by market
NEW PRODUCTS AND BUSINESS OF HIGH ADDED VALUE COMMERCIAL APPLICATION INDUSTRIAL SCALING PRODUCT-PROCESS PROTOTIPE APPLIED KNOWLEDGE FRONTIER RESEARCH
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4th UTEN Workshop, Nanotechnology and Life Sciences, Lisbon, September 2011
Tradicional Incuba8onModel
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Diagnostic
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Pre-incubation
• Business Plan • Starting of Business•
Incubation
• Operation•
Post-incubation
• Consolidation • Business Growth3-4 stages
0
1
2
3
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Business incubators
• Nowadays there is an infrastructure of 14 incubators and more than half are in technology.
– Business Incubator High Technology ITESM Campus Monterrey
– Business Incubator High Tech UANL
– Business Incubator UR
– Business Incubator UNITEC
– Business Incubator UDEM
– NanoTech Incubator (PIIT)
– BioTech Incubator (PIIT)
– Business Incubator High Tech University of Arizona (PIIT)
• Nuevo León has renewed its entrepreneurial, so that has encouraged the crea8on and
opera8on of most business incubators and accelerators, which develop and enhance new business interna8onally, with par8cular emphasis on technological and innova8on base, in order to generate wealth and na8onal and regional sustainability.
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4th UTEN Workshop, Nanotechnology and Life Sciences, Lisbon, September 2011
Technology Based Incubators in the PIIT
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R & D
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Sci-Tech Consulting
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Product Development
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Prototype Development
The NL state Incubation Model adds to the
traditional model the followings:
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Idea Concept Func8onal Prototype Commercial Prototype Start of the Business
Accelera8on
Product development
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4th UTEN Workshop, Nanotechnology and Life Sciences, Lisbon, September 2011
INCUBATION MODEL
Pre-‐Incuba?on Incuba?on Post-‐Incuba?on Diagnos?c Business Plan, Func8onal Prototype And Intellectual Property • Market evalua8on • Development at proof of concept level • Func8onal prototype • Commercial Prototype • Business Start • Take-‐off 24 -36 months Company With sales and jobs
Volume of Sales Market Posi?oning
12 - 24 months 6 - 9 months
Laboratories, Office space, Networking, and funding. Business and technical consul8ng, Intellectual Property
Project Evalua8on
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SERVICES
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FABRICATION OF NANOMATERIALS AT PILOT SCALES
o
NANOPARTICLES
o
SUPPORTED NANOMATERIALES
o
NANOCOMPOSITES
o
NANOSTRUCTURED COATING
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PROCESS SIMULATION
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BUSINESS CONSULTING
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TECHNICAL ASSISTANCE
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MARKETING CONSULTING
Incubator of Nanotechnology
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4th UTEN Workshop, Nanotechnology and Life Sciences, Lisbon, September 2011
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USERS
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ENTREPRENEURS
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SCIENTIST
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NEW COMPANIES
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EXISITING COMPANIES WITH R&D PROJECTS
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PHYSICOCHEMICAL METHOD
Fabrication of nanoparticles, especially metal oxides, like titanium oxide, with production levels of kg/h.
Applications: cosmetics, papers, paints, and plastics, among others.
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4th UTEN Workshop, Nanotechnology and Life Sciences, Lisbon, September 2011
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WET CHEMISTRY METHODS
Fabrication of nanoparticles by chemical methods that lead to the production of a wide variety of products, such as metal oxides, metals, metallic chlorides, semiconductors and compound materials, at a production scale of kg/h.
Applications: electric industry, ceramics, coatings, and
plastics, among others.
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INCUBADORA DE NANOTECNOLOGIA
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CARBON NANOTUBES
A new machine with a production scale of kg/day, capable of fabricating various types of carbon nanotubes by pyrolysis.
Applications: electronic industry, plastics, metals, batteries,
catalysis.
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4th UTEN Workshop, Nanotechnology and Life Sciences, Lisbon, September 2011
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AEROSOL ASSITED - CVD
New equipment capable of performing deposition of nanostructured coatings on a flat surface area of 30 x 30 cm2 – it may be glass, metal, ceramics, or polymers.
Applications: coatings for the glass industry, plastics, metallic or ceramic pieces.
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FUNCTIONALIZATION
A system for the functionalization of nanoparticles to assure dispersion and bonding with a production capacity of kg/h, in a wide variety of products, like carbonates, hydroxides, oxides, metals, compound materials, and graphene.
Applications: incorporation into plastic matrices, like polyethylene, polypropylene, PET, PVC,
ABS, and polystyrene, among others, using mixers and extruders .
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4th UTEN Workshop, Nanotechnology and Life Sciences, Lisbon, September 2011
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NANOCOMPOSITES
Fabrication of nanocomposites using extruders with the best technology, to increase nanoparticle dispersion to obtain high-quality products.
Applications: Plastics for pipes, home appliances, cable coatings, food packaging, electronics,
and plastic shapes, among others.
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Aging
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Mechanical properties
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Antibacterials properties
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Electrical properties
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Optical properties
Tes8ng Lab
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4th UTEN Workshop, Nanotechnology and Life Sciences, Lisbon, September 2011
Nanotechnology Incubator and Its Innovation Ecosystem
Incubation Projects
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An8bacterial Toilets
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UV Resistant Non-‐woven Tex8les for Agro Industrial Applica8ons
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EPS Insula8on Environmentally Friendly
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High Temperature Silicon Sealant for Automobile Applica8ons
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Low Fric8on Coefficient Motor Lubricant
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Hydrophobic Paper
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PVC an8bacterial Pipes
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Business Incuba8on
– Nanomateriales S.A. de C.V. – Undermicro S.A. de C.V.
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4th UTEN Workshop, Nanotechnology and Life Sciences, Lisbon, September 2011
Pilot Plant Production of Nanomaterials
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4th UTEN Workshop, Nanotechnology and Life Sciences, Lisbon, September 2011
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4th UTEN Workshop, Nanotechnology and Life Sciences, Lisbon, September 2011
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HIGH TEMPERATURE SILICON SEALANT
FOR AUTOMOBILE APPLICATIONS
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4th UTEN Workshop, Nanotechnology and Life Sciences, Lisbon, September 2011
LOW FRICTION COEFFICIENT MOTOR LUBRICANT
FOR AUTOMOBILE APPLICATIONS
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• Hydrophobic Surfaces • Fotocatalitic Surfaces.. www.undermicro.mxBUSINESS INCUBATION
UNDEMICRO S.A. DE C.V.
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4th UTEN Workshop, Nanotechnology and Life Sciences, Lisbon, September 2011
• Antibaterial nanomaterials for cermics.
• UV filtering nanoparticles..
www.nanoateriales.com.mx
BUSINESS INCUBATION
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Process scale up
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An8bacterial solu8on
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Wet chemistry
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Semi-‐automa8c plant
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4th UTEN Workshop, Nanotechnology and Life Sciences, Lisbon, September 2011
Technical Team (CIMAV)
Dra. Fátima Pérez, Nanocompuestos y Funcionalización
Dr. Oscar Vega, Recubrimientos por CVD
M.C. Guillermo Acosta, Vía Húmeda y Fisicoquímico
Ing. Beatriz Ortega, Nanotubos de Carbono
Aldo Adame, Nanocompuestos y Funcionalización
Obed Ramírez, Vía Húmeda y Fisicoquímico
Rodrigo Contreras, Nanocompuestos y Funcionalización
Support Team(CIMAV-I2T2)
Carlos Rivera, Gerente
Humberto Dardón, Coordinador Administrativo
Jessica González, Asistente Administrativo
Gerardo Canizales, Mantenimiento
Oziel Tobías, Mantenimiento
Nanotechnology
Incubator
Parque de Innovación e Inves8gación Tecnológica (PIIT) Ave. Inves8gación No. 305
Apodaca, N.L., México www.mtycic.com.mx
CONTACT
Dr. Servando Aguirre Tostado servando.aguirre@mtycic.org
Tel. +52 (81) 8286-6610
