• DocumentCode
    3624126
  • Title

    Organic Electronic Device Modeling at the Nanoscale

  • Author

    Conor Madigan;Vladimir Bulovic

  • Author_Institution
    MIT, Lab of Organic Optics and Electronics, 77 Mass. Ave., Rm. 13-3138, Cambridge, MA 02139. 001-617 253-3181, cmadigan@mit.edu
  • fYear
    2006
  • Firstpage
    832
  • Lastpage
    833
  • Abstract
    Electronic devices with nanoscale features (~ 100 nm or smaller) are becoming increasingly important in electronics technology. While nanoscale electronic devices comprise a variety of different material sets and structures, many of the nanoscale devices developed in the last decade employ organic materials. In this talk, we discuss the modeling of organic electronic thin film devices. In our approach, analysis of such devices begins on the molecular scale, and device level behavior is then derived from the combination of individual molecular properties and physical models of intermolecular interactions. We present a general purpose Monte Carlo simulator based on molecular-scale physical models and employ this simulator to analyze device behavior
  • Keywords
    "Organic electronics","Nanoscale devices","Computational modeling","Optical films","Excitons","Optical devices","Organic thin film transistors","Thin film devices","Charge carriers","Organic materials"
  • Publisher
    ieee
  • Conference_Titel
    Computer-Aided Design, 2006. ICCAD ´06. IEEE/ACM International Conference on
  • ISSN
    1092-3152
  • Electronic_ISBN
    1558-2434
  • Type

    conf

  • DOI
    10.1109/ICCAD.2006.320131
  • Filename
    4110133