- Author
- Mohammad Mohammadimasoudi (UGent)
- Promoter
- Kristiaan Neyts (UGent) and Jeroen Beeckman (UGent)
- Organization
- Abstract
- In a push to reduce global energy consumption, it is necessary to reduce the energy needed for optical devices. In addition, there are other important issues for optical devices such as fabrication cost and miniaturization. With this point of view, in this PhD work various optical devices based on liquid crystal (LC) and nanorods (NR) are investigated and fabricated. Firstly, fabrication of thin film polarizers and color filters based on photo-polymerization of reactive LC is demonstrated. The thin film polarizer is fabricated for applications which require very small thicknesses of the final device such as electro-active contact lenses. These films are suitable to be processed in optical device manufacturing as additional films or as in-cell optical components. The third fabricated device is a widely tunable optical filter with microsecond switching time. A microsecond-range optical shutter for unpolarized light is demonstrated as a forth application using reactive LCs. On the other hand, I demonstrate full alignment of colloidal NRs in suspension by an electric field. Finally, I present four methods for the homogeneous deposition and alignment of NRs from a colloidal suspension. They may be applied in polarized emitters in OLED, polarized fluorescent sheets or polarization-selective detectors.
- Keywords
- nanorods, Liquid crystals
Downloads
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Citation
Please use this url to cite or link to this publication: http://hdl.handle.net/1854/LU-6951016
- MLA
- Mohammadimasoudi, Mohammad. Anisotropic Films for Optical Applications Based on Liquid Crystal and Nanorods. Ghent University. Faculty of Engineering and Architecture, 2015.
- APA
- Mohammadimasoudi, M. (2015). Anisotropic films for optical applications based on liquid crystal and nanorods. Ghent University. Faculty of Engineering and Architecture, Ghent, Belgium.
- Chicago author-date
- Mohammadimasoudi, Mohammad. 2015. “Anisotropic Films for Optical Applications Based on Liquid Crystal and Nanorods.” Ghent, Belgium: Ghent University. Faculty of Engineering and Architecture.
- Chicago author-date (all authors)
- Mohammadimasoudi, Mohammad. 2015. “Anisotropic Films for Optical Applications Based on Liquid Crystal and Nanorods.” Ghent, Belgium: Ghent University. Faculty of Engineering and Architecture.
- Vancouver
- 1.Mohammadimasoudi M. Anisotropic films for optical applications based on liquid crystal and nanorods. [Ghent, Belgium]: Ghent University. Faculty of Engineering and Architecture; 2015.
- IEEE
- [1]M. Mohammadimasoudi, “Anisotropic films for optical applications based on liquid crystal and nanorods,” Ghent University. Faculty of Engineering and Architecture, Ghent, Belgium, 2015.
@phdthesis{6951016, abstract = {{In a push to reduce global energy consumption, it is necessary to reduce the energy needed for optical devices. In addition, there are other important issues for optical devices such as fabrication cost and miniaturization. With this point of view, in this PhD work various optical devices based on liquid crystal (LC) and nanorods (NR) are investigated and fabricated. Firstly, fabrication of thin film polarizers and color filters based on photo-polymerization of reactive LC is demonstrated. The thin film polarizer is fabricated for applications which require very small thicknesses of the final device such as electro-active contact lenses. These films are suitable to be processed in optical device manufacturing as additional films or as in-cell optical components. The third fabricated device is a widely tunable optical filter with microsecond switching time. A microsecond-range optical shutter for unpolarized light is demonstrated as a forth application using reactive LCs. On the other hand, I demonstrate full alignment of colloidal NRs in suspension by an electric field. Finally, I present four methods for the homogeneous deposition and alignment of NRs from a colloidal suspension. They may be applied in polarized emitters in OLED, polarized fluorescent sheets or polarization-selective detectors.}}, author = {{Mohammadimasoudi, Mohammad}}, isbn = {{9789085788294}}, keywords = {{nanorods,Liquid crystals}}, language = {{eng}}, pages = {{XXXVII, 146}}, publisher = {{Ghent University. Faculty of Engineering and Architecture}}, school = {{Ghent University}}, title = {{Anisotropic films for optical applications based on liquid crystal and nanorods}}, year = {{2015}}, }