Title :
Microstructure, Charge Transport and Trapping in Anisotropic Polymeric Thin Film Transistors
Author :
Jimison, L.H. ; Rivnay, J. ; Toney, M.F. ; Salleo, A.
Author_Institution :
Stanford Univ., Stanford
Abstract :
In this work we have used the directional solidification of a crystallizing solvent to further manipulate the microstructure of P3HT thin films, controlling the orientation and size of the disordered grain boundary regions. Resulting films have a very anisotropic distribution of grain boundaries in the plane of the substrate, with periodic crystalline regions. By fabricating thin film transistors with these anisotropic films, and subsequently fitting temperature dependent mobility data to the Mobility Edge Model, we have means to explore the relationship between trap density within grain boundaries and charge transport.
Keywords :
directional solidification; grain boundaries; organic semiconductors; polymers; thin film transistors; P3HT thin films; anisotropic distribution; anisotropic films; anisotropic polymeric thin film transistors; charge transport; charge trapping; crystallizing solvent; directional solidification; disordered grain boundary regions; microstructure; mobility edge model; periodic crystalline regions; trap density; Anisotropic magnetoresistance; Crystal microstructure; Crystallization; Grain boundaries; Polymer films; Size control; Solvents; Substrates; Temperature dependence; Thin film transistors;
Conference_Titel :
IEEE/LEOS Summer Topical Meetings, 2007 Digest of the
Conference_Location :
Portland, OR
Print_ISBN :
1-4244-0926-8
Electronic_ISBN :
1099-4742
DOI :
10.1109/LEOSST.2007.4288405
