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Science 287, 1022 (2000) Fig. 4 Pentacene Crystal FET

Science 287, 1022 (2000) Fig. 4 Pentacene Crystal FET. Nature 413, 713 (2001) Fig. 4 SAMFET (undiluted). Science 294, 2138 (2001) Fig. 4 SAMFET (diluted). Science 290, 963 (2000) Figure 1. Applied Physics Letters 77, 3776 (2000) Figure 2. Synthetic Metals 122, 195 (2001) Figure 2.

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Science 287, 1022 (2000) Fig. 4 Pentacene Crystal FET

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  1. Science 287, 1022 (2000) Fig. 4 Pentacene Crystal FET

  2. Nature 413, 713 (2001) Fig. 4 SAMFET (undiluted)

  3. Science 294, 2138 (2001) Fig. 4 SAMFET (diluted)

  4. Science 290, 963 (2000) Figure 1

  5. Applied Physics Letters 77, 3776 (2000) Figure 2

  6. Synthetic Metals 122, 195 (2001) Figure 2

  7. Physical Review B 58, 12952 (1998) Figure 2, top. Look at top curve.

  8. Physical Review B 63, 245201 (2001) Figure 2, pentacene single crystal

  9. * * Nature 413, 713 (2001), Fig. 2.

  10. Nature 413, 713 (2001) Fig. 3. (same paper) Overlap except very close to 0. Note fine structure on -0.4 V curve, and current axis scaled by exactly 2. * *

  11. Synthetic Metals 122, 195 (2001) Figure 3, pentacene

  12. Applied Physics Letters 79, 4043 (2001) Figure 2, pentacene, output axis identical (including fine structure near the tops of the peaks), but different scale on time axis

  13. Thin Solid Films 385, 271 (2001) Figure 5, CdS, scaled by exactly a factor of 2 on output axis.

  14. Nature 410, 189 (2001) Bottom two curves are identical except for first point.

  15. Science 287, 1022 (2000) Fig. 2 lower Pentacene Crystal FET *

  16. * Science 288, 656 (2000) Fig. 1 lower C60 FET

  17. Nature 406, 702 (2000) Fig 3 Superconductivity in molecular crystals

  18. Advanced Materials 13, 1273 (2001), Fig. 1. Compare noise on OPV4 curve to the tetracence curve on the previous Nature graph. OPV5 is suspiciously similar to pentacene, but the data are cut off.

  19. Science 288, 2338 (2000) Fig. 2 Phys. Stat. Sol. 226, 257 (2001) Fig. 4 Rxx data are shifted between graphs along the carrier concentration axis

  20. (a) (b) (c) (d) Science 289, 599 (2000), “An Organic Solid State Injection Laser” (a) and (c) insets to Fig. 2, 5 K. (b) and (d) insets to Fig. 5, room temperature. Current densities are also said to be different for all 4 graphs.

  21. * ** Note repeated double-points in both * and ** curves Journal of Applied Physics 79, 6961 (1996). Fig. 1

  22. * ** Solar Energy Materials and Solar Cells 57, 229 (1999). Fig. 1

  23. ** Solar Energy Materials and Solar Cells 57, 229 (1999). Fig. 2

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