Enter the world of small devices, micro-components and many unresolved questions!
13.30 14.30 Algemene presentatie onderwijsprogramma, en studentgerelateerde onderzoeksactiviteiten 13.30-13.45: NT-intro: Andreas Dietzel 13.45-14.00: NT in micro & nano scale engin.: Andreas Dietzel 14.00-14.15: NT in mechanics and materials: Marc Geers 14.15-14.30: NT in fluids and energy: Anton van Steenhoven 14.30 15.30 Rondleiding Labs MNSE with live demos Micro-fluidics - AFM demo - laser micro-fabrication demo - Precision turning - micro-assembly of LED's - Glass microdevices (waveguides) - Nanoprobe - Carbon nanotubes 15.30 Borrel at the lab
What is a nanometer? Dust mite? Red blood cell? DNA string? Growth of a man s beard? 200 μm 2-5 nm/s (= 200000 nm!!) 2-5 μm 2,5 nm
Prospects of MEMS 16 % annual growth rate 80 % by HDD storage, inkjet heads, invitro diagnostics, hearing aids Growth potential: biomedical & automotive 4
Philips werknemers 4000 3500 3000 2500 2000 1500 1000 BSc. or equiv. BSc MSc, PhD or equiv. # medewerkers 500 Electr. Mech.Eng. Physics Bus.Adm. Chemistry IT Techn.Man. General Ind.Design Math Management Lab Techn. 0 bron: Philips Division, Content owner, Date(in numbers), ISO No 5
NT : Objectives and scope Topics & Scope Knowledge and Fundamentals Processing & Technology Product Engineering Nanotechnology in manufacturing machines Precision Engineering Surface Engineering Engineering nanotechnology Micro- and nanometrology Micro- and nanolithography Micron and submicron applications Micro-heat transfer Micro-fluidics Micro-energetics Thin films Micro- and nanomanufacturing Micro-processing Printing processes Assembly Micro-electronics MEMS/MOEMS Micro-pumps Solar cells Electronic cooling Micro System Integration BIO-MEMS Multi-scale problems and applications Multi-scale mechanics Multi-scale thermal engineering Materials processing at different length scales Micro-optics Micro- and nano testers Data storage Micro- and nanoscopes
NT Educational programme
NT Bachelor course 2009 4K540 - Orientatie micro- en nanotechnologie 1. An introduction to μnt (TU/e; Arjan Frijns) 2. μnt in micro-electronic devices (Philips AppTech) 3. An overview of micro-manufacturing technologies (MESA+) 4. Observations at the micron scale (FEI) 5. Ultra-precision engineering (ASML) 6. Thin films in μnt (Philips R&D,TU/e) 7. Heat transfer on a micro-scale in industrial applications (Philips R&D) 8. Medical applications of MST (TNO industry) 9. Future challenges and research in μnt (TU/e)
NT curriculum 2009-2010 First year (60 ECTS credit points): 11 elective courses, out of which 6 courses are strongly recommended as typically NT (3 ECTS cp each) NT open space (9 ECTS cp) External training/internship (18 ECTS cp) Second year (60 ECTS credit points): The NT graduation project (60 ECTS cp)
NT curriculum 2008-2009 Strongly recommended NT-courses: Mechanics of micro-electronics Thin film mechanics Micro- and nano-structuring methods Micro-robotics Microscopic measurement methods Micro-heat transfer
NT curriculum 2009-2010 Semester 1 A B C 4P580 Physical measuring methods R 4A780 Fracture mechanics R 3S370 Introduction nanotechnology I 5MX10 Modern physics and optics I 4K700 Thin film mechanics K 4U760 Micro- and nanotechnology, special topics K 4J560 A numerical-experimental approach in dynamics R 3S290 Crystal growth methods for thin films & nanostruc. R 8W150 Multi-fluid mechanics R 8C030 Molecular simulation I 8H010 New developments in fluorescence microscopy I 4K200 Mechanics of micro-electronics K 4P630 Application of FEM to heat and flow problems R 4J530 Engineering optimization: concepts and applications R
3N220 NT curriculum 2009-2010 Semester 2 C D E F Theory of microscopically disordered media 4T300 Microscopic methods K 6MS20 Functional properties of materials and devices R 8C060 Computer simulation s and biomedical applicat. I 3S380 Capita selecta nanoscience and technology I 4H200 Micromechanics of materials K 6KM01 Membrane technology I 4K570 Micro- and nano-structuring methods K 4K620 Computational material models R 3S390 Biosensors for medical diagnostics I 4P710 Micro-heat transfer K 4B800 Micro-robotics K 3T Micro- and nano fluids? I
NT : Internships & projects All internships and projects are typically NT : External internships: in a company or in a research institute that is active in the field of micro- and nanotechnology (Philips, Océ, Holst Research Center, ASML, Siemens, Nokia, Infineon, Getronics, IZM, IMEC, TNO, UNCC USA, MIT, Warwick University UK, PTB Germany, EPFL-microtechnology, etc.)
NT : Graduation projects Within the objectives and scope of the NT curriculum On practical problems to the benefit of the Dutch and European NT industry Within the scope of a NT research project in direct co-operation with a researcher/engineer
NT-research TFE Energetics: Anton van Steenhoven, Arjan Frijns, Silvia Nedea MNSE (sub-section of TFE) Micro- and Nano- Scale Engineering (design & fabrication): Andreas Dietzel, Erik Homburg, Yves Bellouard CEM Mechanics of microsystems: Marc Geers, Ron Peerlings, Piet Schreurs Polymers: Jaap den Toonder, MEMS DSD Dynamics: Henk Nijmeijer, Rob Fey