• Title of article

    Photoresist deposition without spinning

  • Author/Authors

    G.، Percin, نويسنده , , B.T.، Khuri-Yakub, نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2003
  • Pages
    -451
  • From page
    452
  • To page
    0
  • Abstract
    A technique for resist deposition using a novel fluid ejection method is presented in this paper. An ejector has been developed to deposit photoresist on silicon wafers without spinning. Drop-on-demand coating of the wafer reduces waste and the cost of coating wafers. Shipley 1400-21, 1400-27, 1805, and 1813 resists were used to coat sample 3- and 4-in wafers. Later, these wafers were exposed and developed. The deposited resist film was 3.5 (mu)m thick and had a surface roughness of about 0.2 (mu)m. The ultimate goal is to deposit resist films with a thickness of the order of 0.5 (mu)m and a surface roughness of the order of 30 ..., which is currently achieved for 200-mm silicon wafers by using a spinning method. Such goals can be attained by using micromachined multiple ejectors or with better control over the deposition environment. In the micromachined configuration, thousands of ejectors are made into a silicon die, as presented by Percin et al. (2002), and thus allow for a full coating of a wafer in a few seconds. Coating in a clean environment will allow the lithography of circuits for microelectronic applications. Other potential applications for the technology in the semiconductor manufacturing are in deposition of low-k materials, wafer cleaning, manufacturing of organic LEDs and organic FETs, direct lithography, nanolithography, and coating for hard-disk drives.
  • Keywords
    Gene regulation , spermatogenesis , testis , spermatid , male reproductive tract
  • Journal title
    IEEE Transactions on Semiconductor Manufacturing
  • Serial Year
    2003
  • Journal title
    IEEE Transactions on Semiconductor Manufacturing
  • Record number

    95520