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Linkam temperature controlled stage used to crystallisation processes in opto-electronic thin films at the Université Libre de Bruxelles

The Linkam GS350 temperature stageMarket leaders in temperature controlled microscopy, Linkam Scientific Instruments, report on the work of Professor Yves Henri Geerts from the Université Libre de Bruxelles where he uses a specially designed temperature stage to study crystallisation processes in opto-electronic thin films.

The Laboratory of Polymer Chemistry at the Université Libre de Bruxelles, unlike the name of the laboratory might suggest, is focused on research into "small molecules", namely, liquid crystalline semiconductors for organic electronics application. Various organic semiconductors have been receiving a great deal of attention in "plastic" electronic devices such as organic photovoltaic cells, light-emitting diodes (OLED) and field effect transistors (OFET). The important physical parameters of microcrystalline films are strongly affected by dimensions of domains and domain boundaries, while large defect-free single crystals are difficult to fabricate and inappropriate for practical applications. At the same time, liquid crystals have been recognized as a new type of organic semiconductors, as they are capable to self-healing of structural defects and to self-organization in large structurally homogeneous domains. Influence of domain boundaries, if any, on carrier transport in liquid crystalline phases is very small.

Professor Yves Henri Geerts and his colleagues in Bruxelles have undertaken a study of single crystal thin films of terthiophene, the building block for the organic semi-conductor polythiophene, by directional crystallization by means of a thermal gradient using the Linkam GS350 stage. The background to this work is to better understand how molecular structure and supramolecular organization affects optoelectronic properties. These can also be affected by the method of fabrication, therefore determining a method to control deposition and crystallisation is important. As part of his research, Professor Geerts used polarized optical microscopy (POM) and X-ray diffraction to characterise the shape, size, and orientation (in and out of the plane of the substrate) of the crystals produced by the thermal gradient technique. He found temperature gradients could potentially be used to control crystal growth and these conditions induce a preferential fast growth direction perpendicular to the gradient direction. In addition it is found that nucleation and growth can be decoupled for OSC crystallizing from the melt in a temperature gradient and that these conditions lead to the generation of highly textured thin films with uniaxial in-plane orientation of crystallites.

The Linkam GS350 was chosen for this work for its ability to accurately programme temperature gradients across the sample. It has two heating elements which are perfectly aligned to ensure uniform thermal contact between the temperature-controlled surface and the sample media. The heating elements are separated by a 2.5mm gap and can be controlled to 0.1°C from -196 to 350°C allowing large, precise temperature gradients to be set up.

The accompanying T95-Linksys controller and Linksys 32 software enables the precision stepper motor to control the position and the speed of sample movement between the two elements and can be used to determine speed of crystal growth and allow the crystallisation front to remain in the field of view. The stepper motor control also enables extremely fast heating or cooling by quickly transferring the sample from one element to the other.

Visit Linkam at http://www.linkam.co.uk/ and learn about the broad range of applications in the field of temperature controlled microscopy.


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