Journal of Vacuum Science & Technology B, Vol.18, No.2, 632-635, 2000
Point contact current-voltage measurements on individual organic semiconductor grains by conducting probe atomic force microscopy
Conducting probe atomic force microscopy (CP-AFM) was used to make point contact current-voltage (I-V) measurements on individual microscopic grains of the organic semiconductor sexithiophene (6T). The 6T grains ranged from 1 to 6 molecules (2-14 nm) in thickness, 1-2 mu m in length and width, and were deposited by thermal evaporation onto SiO2 substrates previously patterned with 200 nm wide Au wires. Au-coated AFM probes were used to image the substrates in air to identify individual 6T grains which grew in contact with a wire. The same probes were used to record the I-V characteristics of single grains. Analysis of the differential resistance as a function of probe wire separation yielded typical grain resistivities of 100 Omega cm and contact resistances of similar to 100 M Omega. Over the 0-3 V range probed, the shape of the I-V curves can be attributed to a combination of the nonlinear I-V characteristics of the Au-GT junctions and the ohmic response of the grain. in general, we have shown that CP-AFM is a reliable method for correlating electrical transport properties with microscopic morphology in organic semiconductors.