Journal of the Korean Ceramic Society (한국세라믹학회지)

The Korean Ceramic Society (한국세라믹학회)
권호 표지

The Structure and Electrical Properties of Si-ZnO n-n Heterojunctions

Si-ZnO n-n 이종접합의 구조 및 전기적 특성

  • 이춘호 (서울대학교 무기재료공학과) ;
  • 박순자 (서울대학교 무기재료공학과)
  • Published : 1986.01.01
Download PDF
⟨ Previous Next ⟩

Abstract

Si-ZnO n-n heterojunction diodes were prespared by r.f diode sputtering of the sintered ZnO target on n-type Si single crystal wafers and their structures and electrical properties were studied. The films were grown orientedly with the c-axis of crystallites perpendicular to the substrate surface at low r.f. powder and grown to polycrystalline films with random orientation at high r. f. powder. The crystallite size increased with the increasing substrate temperture The oriented texture films only were used to prepare the photovoltaic diodes and these didoes showed the photovoltaic effect veing positive of the ZnO side for the photons in the wavelength range of 380-1450nm. The sign reversal of phootovoltage which is the property os isotype heterojunction was not observed because of the degeneration of the ZnO films. The diode showed the forward rectification when it was biased with the ZnO side positive. The current-voltage characteristics exhibited the thermal-current type relationship J∝exp(qV/nkT) with n=1.23 at the low forward bias voltage and the tunnelling-current type relationship J∝exp($\alpha$V) where $\alpha$ was constant independent of temperature at the high forward bias voltage. The crystallite size of ZnO films were influenced largely on the photovoltaic properties of diodes ; The diodes with the films of the larger crystallites showed the poor photovoltaic properties. This reason may be cosidered that the ZnO films with the large crystallites could not grow to the electrically continuous films because the thickness of films was so thin in this experiment.

Keywords

References

  1. J. Appl. Phys. v.55 no.4 Electrical and optical properties of zinc oxide thin films prepared by r.f. magnetron sputtering for transparent electrode applications H. Nanto;T. Minami;S. Shooji;S. Takata
  2. Appl.Phys.Lett. v.35 no.930 The use of ZnO in transparent type MIS solar cells P. Petrous;R. Shigh;D.E. Brode
  3. J. Vac. Sci.Technol v.16 no.4 Optical and electrical properties of ZnO films prepared by spray pyrolysis for solar cell applications J.A. Aranovich;A. ortiz;R.H. Bube
  4. J.Appl.Phys v.52 no.11 Properties of zinc oxied films prepared by the oxidation of diethyl zinc A.P. Roth;D.F. Williams
  5. Appl.Phys.Lett. v.39 no.105 Zinc phosphide Zinc oxide heterojunction solar cells P.S. Nayer;A. Catalano
  6. Appl. Phys. Lett. v.39 Transparent and highly conductive films of ZnO prepared by r.f. reactive magnetron sputtering J.B. Webb;D.F. Williams;M. Buchanan
  7. J. Appl. Phys v.10 no.1732 Electrical and optical properties of sputterd n-p ZnO-Si heterojunctions K. Wasa;S. Hayakawa
  8. J. Appl. Phys v.51 no.8 Photovoltaic properties of ZnO/CdTe heterojunction prepared by spray pyrolysis J.A. Aranovich;D. Golmayo;A.L. Fahrenbruch;R.H. Bube
  9. Sol. Cells v.4 no.2 Zinc oxide-[p-type] indium phosphide heterojunction solar cells K.P. Pande;C.N. Manikopoulous
  10. Semiconductor and semimetals v.11 H.J. Hovel
  11. IEEE Trans.Electron.Dev. v.V.ED-24 no.4 Electronic proceses at grain boundaries in polycrystalline semiconductors under optical illumination H.C.Card;E.S.Yang
  12. J. Appl. Phys. v.51 no.12 The effect of r.f. power on reactively sputtered zinc oxide C.R. Aita;R.J. Lad
  13. Thin film phenomena K.L. Chopra
  14. Oxide semiconductors J.M. Jarzebski
  15. Solid State Electron v.6 no.121 n-n Semiconductor heterojunctions W.G. Oldham;A.G. Milnes
  16. New Physics v.15 no.3 Electrical and optical properties of Si-ZnO n-n heterojunctions H.K.Lee;W.T.Kim
  17. Solid State Electron v.13 no.727 Carrier transport across metal-semiconductor barriers C.Y. Chang;S.M. Sze
  18. Semiconductors and semimetals v.11 H.J. Hovel
  19. Semiconductor heterojunctions B.L.Sharma;R.K.Purohit