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Uses of Nanotechnology to Improve Infrared Sensors

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Title: Uses of Nanotechnology to Improve Infrared Sensors


1
Uses of Nanotechnology to Improve Infrared Sensors
  • Joseph Dvorak
  • ECEN 5060 Fundamentals of Nanotechnology
  • Oklahoma State University

2
Introduction
  • Current state of infrared technologies
  • Quick overview of infrared theory
  • Nanotechnologys contributions to improve
    infrared sensors
  • The future of infrared sensors and nanotechnology

3
Infrared Overview
  • Infrared radiation is the region of the
    electromagnetic spectrum from 720nm to 1000µm and
    includes the radiation naturally emitted by
    objects at room temperature.
  • It has long been used by the military, although
    recently commercial and industrial uses have
    begun to appear.
  • Main limitations are the necessary trade-offs
    between
  • cost
  • bulky and complex equipment
  • response time
  • image quality
  • sensitivity

4
Infrared Theory
  • Plancks Law
  • Electrical resistance dependent on Temperature
  • Thermal Expansion
  • Photon Capture

5
Solutions from Nanotechnology
  • Thermal Approaches
  • Microbolometers
  • Microcantilevers
  • Quantum Approaches
  • Quantum Dots
  • Carbon Nanotube-Based Devices

6
Microbolometers
  • Infrared Radiation causes a temperature change in
    the suspended plate which changes its electrical
    resistance.
  • Essentially a larger scale object that after
    undergoing many size reductions is in the
    nanoscale.
  • To maintain thermal isolation of the plate, the
    sensor must be packaged in a vacuum and
    maintained at that vacuum.
  • One of the most advanced infrared detectors to
    use nanotechnology as they are already on the
    market.
  • In the future, feature size reductions are
    expected.

7
Microcantilevers
  • A thermal infrared detector that utilizes
    different rate of expansion for different
    materials
  • Device is measured in micrometers, but feature
    sizes are in the nanometer range
  • Currently under development

8
Quantum Dots
  • A photon counting method of detecting infrared
    radiation
  • The quantum dots are generally measured in the
    single digit nanometers
  • Quantum dots are small enough that size begins to
    dictate electrical properties
  • Can trap an electron in three dimensions to
    improve sensitivity
  • Much current work is focused on quantum dots in a
    quantum well

9
Carbon Nanotube-Based Devices
  • Photon detection method for sensing infrared
    radiation that utilizes carbon nanotubes
  • Since the characteristics of carbon nanotubes can
    change with diameter and angle of carbon atom
    pattern, picking certain values makes the carbon
    nanotube sensitive to infrared radiation
  • The size of a carbon nanotube, only allows the
    electron to travel in one dimension making carbon
    nanotubes very useful for implementing across
    contacts
  • Still in the very early stages of development

10
Future Possibilities
  • Low cost, room temperature, simple infrared
    detectors based on nanotechnology will find many
    uses
  • Automotive Safety and Control
  • Industrial and Construction safety
  • Industrial Process Control
  • Security Systems

11
Conclusion
  • The widespread adoption of infrared systems will
    require several improvements
  • Two primary methods exist to detect infrared
    radiation
  • Nanotechnology has the potential to improve
    infrared technologies in several ways, including
    the four mentioned here
  • Solving these challenges in infrared sensing
    systems can result in applications that will
    greatly improve peoples lives and/or safety

12
Image References
  • Hunter, Scott R., Gregory Maurer, Lijun Jiang,
    and Gregory Simelgor. 2006. High-sensitivity
    uncooled microcantilever infrared imaging arrays,
    edited by F. A. Bjorn, F. F. Gabor and R. N.
    Paul SPIE.
  • Krishna, Sanjay. 2005. InAs/InGaAs quantum
    dots-in-a-well photodetectors. 5957. Infrared
    Photoelectronics. Warsaw, Poland
  • Yon, J J, L Biancardini, E Mottin, J L Tissot,
    and L Letellier. 2003. Infrared microbolometer
    sensors and their application in automotive
    safety. 7th International Conference on Advanced
    Microsystems for Automotive Applications, May 23,
    2003. Berlin.
  • Zhang, Jiangbo, Ning Xi, Hoyin Chan, and
    Guangyong Li. 2006. Single carbon nanotube based
    infrared sensor. 6395. Electro-Optical and
    Infrared Systems Technology and Applications
    III. Stockholm, Sweden.
  • Other references for the topics listed here are
    included in the associated paper to this
    presentation. They have been omitted here to
    save space.
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