Field effect transistors based on poly(3-hexylthiophene) at different length scales

Mas‐Torrent, Marta; Boer, Duncan den; Durkut, M.; Hadley, P.; Schenning, Aphj Albert

doi:10.1088/0957-4484/15/4/028

Cited by 78 publications

(74 citation statements)

References 20 publications

(24 reference statements)

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“…2͒, the absence of well-defined potential barriers associated with grain boundaries in scanning kelvin probe potential imaging 60 and with previous measurements on individual P3HT nanofibers, which showed no evidence of an enhanced field-effect mobility in spite of grain boundary effects being eliminated in such experiments. 24,35 Further breakthroughs to achieve even higher mobilities in crystalline polymers such as P3HT require unique processes to better control the various factors that determine the crystal growth and the chain conformation, and to improve the crystalline quality and eliminate structural and chemical defects in high MW P3HT nanoribbon crystals. …”

Section: Discussionmentioning

confidence: 99%

“…We observe that the saturation mobility of different MW generally increases as channel length decreases, which is opposite to the reduction of mobility caused by severe contact limited short-channel transistors with Cr-Au or Ti-Au electrodes. 23,24 The mobility is found to be more strongly channel-length dependent in low-mobility transistors, but little dependence is seen in highly crystalline, high-MW transistors. Figure 3 shows the output characteristics of 2 m-and 20 m-channel TCB spin-cast transistors plotted on a current scale normalized by the channel length L. The 20 m-channel transistors for both low ͑a͒ and high MW ͑b͒ polymers exhibit nearly ideal scaling characteristics.…”

Section: Transistor Characterizationmentioning

confidence: 99%

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Molecular-weight dependence of interchain polaron delocalization and exciton bandwidth in high-mobility conjugated polymers

et al. 2006

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Interchain interactions have a profound effect on the optical as well as charge transport properties of conjugated polymer thin films. In contrast to oligomeric model systems in solution-deposited polymer thin films the study of such effects is complicated by the complex microstructure. We present here a detailed study of interchain interaction effects on both charged polarons as well as neutral excitons in highly crystalline, high-mobility poly-3-hexylthiophene ͑P3HT͒ as a function of molecular weight. We find experimental evidence for reduced exciton bandwidth and increased polaron delocalization with increasing conjugation length and crystalline quality. From comparative studies of field-effect transistor characteristics, film morphology, and optical properties our study provides a microscopic understanding of the factors which limit the charge transport in P3HT to field-effect mobilities around 0.1 cm 2 / V s, and which will need to be addressed to improve mobility further.

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Section: Discussionmentioning

confidence: 99%

Section: Transistor Characterizationmentioning

confidence: 99%

Molecular-weight dependence of interchain polaron delocalization and exciton bandwidth in high-mobility conjugated polymers

et al. 2006

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“…[140,141] The applied field induces a dipole in conducting elements, and pulls them towards the region where the field gradient is the highest. [142] Recently, it was demonstrated that P3HT fibers can also be aligned based on this method. Films of aligned fibers showed mobilities of 0.04 cm 2 V À1 s À1 .…”

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confidence: 99%

Controlled Deposition of Crystalline Organic Semiconductors for Field‐Effect‐Transistor Applications

et al. 2009

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The search for low‐cost, large‐area, flexible devices has led to a remarkable increase in the research and development of organic semiconductors, which serve as one of the most important components for organic field‐effect transistors (OFETs). In the current review, we highlight deposition techniques that offer precise control over the location or in‐plane orientation of organic semiconductors. We focus on various vapor‐ and solution‐processing techniques for patterning organic single crystals in desired locations. Furthermore, the alignment of organic semiconductors via different methods relying on mechanical forces, alignment layers, epitaxial growth, and external magnetic and electric fields are surveyed. The advantages, limitations, and applications of these techniques in OFETs are also discussed.

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“…On the other hand, the 'face-on' arrangement, with DLC columnar directors perpendicular to the substrate, is generally best for photovoltaic devices and light emitting diodes. [10] Recently, various alignment techniques utilizing temperature gradient, [11] concentration gradient, [12] pre-aligned layer, [13] electric field [14] and magnetic field [15] have been reported. However, more facile approaches to achieve uniaxially oriented long-range ordering of DLC columnar superstructures with clear identification of the ordered structures are still being actively explored.…”

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confidence: 99%

Uniaxially Oriented, Highly Ordered, Large Area Columnar Superstructures of Discotic Supramolecules using Magnetic Field and Surface Interactions

et al. 2008

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The unique anisotropic physical properties of columnar discotic liquid crystals (DLCs) have attracted considerable interest for their potential applications as electronic devices, such as field effect transistors (FETs), [1,2] photovoltaics, [3] and light emitting diodes (LEDs). [4,5] The typical DLC molecule consists of a relatively rigid aromatic core with several flexible aliphatic side chains. Depending on their molecular structure and thermodynamic state, DLCs exist in various phases such as nematic, hexagonal columnar and rectangular columnar. [6] In the columnar phase, the intermolecular p-p orbital overlap between neighboring aromatic cores is significant, providing extremely anisotropic and order-dependent, quasi-one-dimensional, charge carrier mobility along the stacked cores. [7,8] For many practical applications, however, it is crucial to obtain a thin film of uniaxially oriented and highly ordered columnar superstructures of DLC molecules covering the macroscopic area of a substrate. [9] For example, the unidirectional 'edge-on' alignment, with the DLC columnar directors parallel to the substrate, is required for field effect transistors. On the other hand, the 'face-on' arrangement, with DLC columnar directors perpendicular to the substrate, is generally best for photovoltaic devices and light emitting diodes. [10] Recently, various alignment techniques utilizing temperature gradient, [11] concentration gradient, [12] pre-aligned layer, [13] electric field [14] and magnetic field [15] have been reported. However, more facile approaches to achieve uniaxially oriented long-range ordering of DLC columnar superstructures with clear identification of the ordered structures are still being actively explored.Here, we report a simple method to obtain a uniaxially oriented and highly ordered columnar superstructure of a DLC, using the alkyl-substituted metalloporphyrinoid, cobalt octa(n-decylthio)porphyrazine (CoS10), on substrates over a centimeter length scale. This method simultaneously utilizes the interactions of DLCs with both an easily accessible external magnetic field (ca. 1.0 T) and a functionalized surface of substrate. The substrate was functionalized with octadecyltrichlorosilane (OTS) to increase the affinity of the surface with the alkyl side chains of the discotics, resulting in an 'edge-on' arrangement of DLC columns. The detailed structures of the ordered and oriented columnar DLCs on substrates were investigated using the grazing incidence small angle X-ray scattering (GISAXS) technique, which is a very powerful tool to investigate the internal nanoscale structures in thin films. [16,17] The GISAXS measurements show that when a spin-coated CoS10 thin film on an OTS-functionalized silicon wafer is cooled from its isotropic phase to the liquid crystal phase in the presence of an external magnetic field of 1.07 T, it forms highly oriented 'edge-on' columnar superstructures with the columnar directors perpendicular to the applied magnetic field. The oriented superstructure shows a long range o...

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Field effect transistors based on poly(3-hexylthiophene) at different length scales

Cited by 78 publications

References 20 publications

Molecular-weight dependence of interchain polaron delocalization and exciton bandwidth in high-mobility conjugated polymers

Molecular-weight dependence of interchain polaron delocalization and exciton bandwidth in high-mobility conjugated polymers

Controlled Deposition of Crystalline Organic Semiconductors for Field‐Effect‐Transistor Applications

Uniaxially Oriented, Highly Ordered, Large Area Columnar Superstructures of Discotic Supramolecules using Magnetic Field and Surface Interactions

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