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Small Size, Big Impact – Exploring the Potentials of Micro/Nano Technologies Xingguo Xiong Dept. of Electrical & Computer Engineering, University of Bridgeport,

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Presentation on theme: "Small Size, Big Impact – Exploring the Potentials of Micro/Nano Technologies Xingguo Xiong Dept. of Electrical & Computer Engineering, University of Bridgeport,"— Presentation transcript:

1 Small Size, Big Impact – Exploring the Potentials of Micro/Nano Technologies Xingguo Xiong Dept. of Electrical & Computer Engineering, University of Bridgeport, Bridgeport, CT 06604

2 All About Me  Xingguo Xiong, Ph.D, Associate Professor Department of Electrical and Computer Engineering.  Education Background: B.S. in Physics, Wuhan University, China: 1994 Ph.D in Electrical Engineering, Shanghai Institute of Microsystem and Information Technology, Chinese Sciences of Academy: 1999 Ph.D in Computer Engineering, University of Cincinnati, OH, USA: 2005  Research Areas: MEMS (Microelectromechanical Systems) Nanotechnology Low Power VLSI Design and VLSI Testing

3 All About Me  Courses Offered: EE 446: MEMS (Microelectromechanical Systems) BME/EE 547: BioMEMS (BioMicroelectromechanical Systems) EE 451: Nanotechnology EE 548: Low Power VLSI Circuit Design EE 549: VLSI Testing EE 458: Analog VLSI EE 404: Digital VLSI EE 448: Microelectronic Fabrication EE 447: Semiconductor ……

4  Go light, go fast, go small  Size does matter: SMALL, SMALLER, SMALLEST What is MEMS? Intel Core i7-980X Processor 1.17 billion transistors in 248 mm 2 VLSI MEMS MEMS Digital Micromirror Device

5 What is MEMS?  MEMS: Micro Electro Mechanical Systems  Definition: systems in micro scale (10 -6 ~10 -3 m) that combine electrical and mechanical components and are fabricated using semiconductor fabrication techniques.  MEMS integrates functions of sensing, actuation, computation, control, communication, power, etc.  Typical MEMS devices: MEMS pressure sensor, accelerometer, microgyroscope, micromotor, resonator, valve, gear, micromirror, optical switch, microneedle, RF capacitor, lab-on- chip, etc.  NEMS: Nano Electro Mechanical Systems (10 -9 ~10 -6 m).

6 (a). MEMS mirror assembly MEMS at a Glance MEMS photos/videos (http://www.sandia.gov/) (b). MEMS micromotor (d). Mites crawl on MEMS gears (c). Deflection of laser light

7 Commercial MEMS Product Examples ADXL accelerometer (Analog Devices) “LambdaRouter” optical switch (Lucent) Digital Micromirror Device(DMD) (TI) GeneChip DNA chip (Affymetrix)

8  Advantages of MEMS:  MEMS applications: Why MEMS? Low cost Small size, low weight, high resolution Low energy consumption, high efficiency Multi-function, intelligentized Automobile industry Medical health care Aerospace Consumer products RF telecommunications Other areas

9 Nanotechnology  Nanotechnology: a field of applied science and technology whose unifying theme is the understanding and control of matter on the atomic and molecular scale, normally 1 to 100 nanometers, and the fabrication of devices within that size range.  Nanotechnology is a general-purpose technology which will have significant impact on almost all industries and all areas of society. It can offer better built, longer lasting, cleanser, safer and smarter products for home, communications, medicine, transportation, agriculture and many other fields.

10 From DOE

11 Nanorobots: Medicine of the Future Nanorobot delivering medicine to red blood cell  Nanorobots are bringing revolutionary changes to the way how we diagnose and treat diseases… Nanorobots killing cancer/tumor cells

12 Low Power VLSI Design and VLSI Testing  Modern VLSI may contain billions of transistors  Power density is approaching that in a nuclear reactor: low power VLSI design is a must, especially for portable electronics.  VLSI Testing: How to quickly and thoroughly test a modern VLSI chip with billions of transistors?

13  Research Projects: MEMS Piezoelectric Micropump for Micro Drug Delivery Systems Ongoing Research Projects ANSYS FEM simulation of the first vibration mode of the micropump, resonant frequency: f0=0.634kHz - Alarbi Elhashmi, Salah Al-Zghoul, Xingguo Xiong, "Design and Simulation of a MEMS Piezoelectric Micropump”, poster in 2011 ASEE (The American Society for Engineering Education) Northeast Section Conference, April 29-30, 2011, Hartford, CT.

14 Ongoing Research Projects  Research Project: Carbon Nanotube based Breath Acetone Sensor for Non-invasive Diabetes Diagnosis Ultra-high sensitivity Non-invasive diabetes Diagnosis: no pain, no infection

15 Ongoing Research Projects  Nanoelectronics Research Project: Design and Simulation of an 4-bit Multiplier in Quantum-dot Cellular Automata (QCA) QCA Majority Gate: M(a, b, c) = ab + bc + ca. QCA cell representing digital “0” and “1” states Layout design of 4-bit QCA multiplier in QCADesigner software

16 Ongoing Research Projects  Research Project: Design and Simulation of an 8-bit Low Power Full Adder based on Reversible Gate Technology PSPICE schematic design of 1-bit reversible full adder PSPICE power simulation for 8-bit full adder based on reversible gate technology

17 Interested? Contact me! Contact: Xingguo Xiong Ph.D, Associate Professor, Department of Electrical and Computer Engineering, University of Bridgeport, Bridgeport, CT 06604 Office: Tech 140 Email: xxiong@bridgeport.eduxxiong@bridgeport.edu Tel: 203-576-4760  If you are interested in doing a research with me, you are welcome to send me an email, give me a call, or just stop by my office…

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