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Study of optoelectrical properties of organic semiconductor thin film layers of phtalocyanines
Miklíková, Zdeňka ; Vala, Martin (referee) ; Zmeškal, Oldřich (advisor)
Diploma thesis is focused on the study of optoelectric properties of thin layers of organic materials based on phthalocyanines, which can be used as an active layer of photovoltaic cells. Especially are studied the properties of the thin active layers of PdPc and PdPc + IL on the glass or ceramic substrates with aluminium contact, which are prepared by material printing here. On the prepared samples were first measured current-voltage characteristics in the dark and in the light and then were measured impedance spectrums in the dark. The received results will be used to improve the properties and structures of photovoltaic cells.
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Photogeneration of Charge Carriers in Organic Semiconductors
Heinrichová, Patricie ; Kratochvílová, Irena (referee) ; Cimrová,, Věra (referee) ; Weiter, Martin (advisor)
The interest in the detail knowledge about elementary electronic processes during photogeneration of charge carriers, which allow achieving higher efficiency of organic solar cells, grows with advent of the commercial organic solar cells production. The thesis is focused on study of photogeneration of charge carriers in organic semiconductors, especially in -conjugated polymer materials. First part of the thesis summarized state of the art in studies of photogeneration of charge carriers in polymer solar cells. Subsequent experimental and results part are focused on study of polymeric solar cells prepared from electron donor polymers MDMO-PPV, Tg-PPV, PCDTBT and PCBTDPP and electron acceptor derivates of fullerenes PC60BM and PC70BM. Results of the thesis are divided in tree main parts: 1) study of charge transfer between electron donor and electron acceptor materials by optical methods, 2) study of charge transfer between electron donor and electron acceptor materials by optoelectrical methods and 3) development of organic solar cells on flexible substrates. The last part is focused largely on deposition methods of active materials thin layer.
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The synthesis of thiamacrocycles and the study of their properties
Nejedlý, Jindřich ; Starý, Ivo (advisor) ; Kroutil, Jiří (referee)
The aim of this work is the study of a simple method of preparing macrocyclic ligands for complexation of fullerenes. Necessary attribute of those ligands is their construction of electron-rich building blocks, which are prerequisite for π-π interactions with electron- deficiency fullerene spherical systems. Tetrathiafulvalene (TTF) is a known electron-rich system and for this reason, 2,3-bis(butylthio)-6,7-bis(2-kyanoethylthio)- tetrathiafulvalene was chosen as a basic building block. The protecting cyanoethyl group in this derivative can be removed by the acting of a base and thus generated thiolate function group is used in alkylation reactions of bis(bromomethyl)aryls. In reactions of these two components of bifunctional alkylation reactions was produced (in addition to the prevalent oligomeric products) a mixture of macrocycles with different sizes, the number of included building units was marked as [2 +2], [3 +3] and [4 +4] macrocycles. Reactions of TTF derivative with 4,4'- bis(bromomethyl)biphenyl and 4,4'-bis(bromomethyl)diphenylether have been performed. Column chromatography fractions of cyclic products were in both cases analyzed by gel permeation chromatography, NMR spectroscopy. The performed study has shown, that an equipoise to the simplicity of the synthetic protocol are low yields of...
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The synthesis of thiamacrocycles and the study of their properties
Nejedlý, Jindřich ; Kroutil, Jiří (referee) ; Starý, Ivo (advisor)
The aim of this work is the study of a simple method of preparing macrocyclic ligands for complexation of fullerenes. Necessary attribute of those ligands is their construction of electron-rich building blocks, which are prerequisite for π-π interactions with electron- deficiency fullerene spherical systems. Tetrathiafulvalene (TTF) is a known electron-rich system and for this reason, 2,3-bis(butylthio)-6,7-bis(2-kyanoethylthio)- tetrathiafulvalene was chosen as a basic building block. The protecting cyanoethyl group in this derivative can be removed by the acting of a base and thus generated thiolate function group is used in alkylation reactions of bis(bromomethyl)aryls. In reactions of these two components of bifunctional alkylation reactions was produced (in addition to the prevalent oligomeric products) a mixture of macrocycles with different sizes, the number of included building units was marked as [2 +2], [3 +3] and [4 +4] macrocycles. Reactions of TTF derivative with 4,4'- bis(bromomethyl)biphenyl and 4,4'-bis(bromomethyl)diphenylether have been performed. Column chromatography fractions of cyclic products were in both cases analyzed by gel permeation chromatography, NMR spectroscopy. The performed study has shown, that an equipoise to the simplicity of the synthetic protocol are low yields of...
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Nanomaterials as a platform for the doxorubicin transport - Fluorescence imaging
Blažková, Iva
Doxorubicin (DOX) is an important anthracycline antineoplastic drug used to treat a variety of cancers. As well as other antineoplastic agents, DOX has negative side effects; the most serious one is cardiotoxicity. Conjugation of DOX with nanomaterials could help to reduce its adverse effects. The presented thesis entitled ,,Nanomaterials as a platform for the DOX transport -- Fluorescence imaging" is primarily focused on the study of DOX interaction with biomolecules such as amino acids and albumin. The interaction was analysed by fluorescence spectrometry and by other analytical methods and significant interaction with amino acids as well as with protein albumin was detected. Next work was focused on the utilization of nanoparticles in DOX transport. DOX was conjugated with fullerenes or encapsulated in liposomes and properties of these nanoconstructs, in vitro and in vivo, were analysed. Both of these nanomaterials seemed to be good nanotransporters for DOX targeted delivery.
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Photogeneration of Charge Carriers in Organic Semiconductors
Heinrichová, Patricie ; Kratochvílová, Irena (referee) ; Cimrová,, Věra (referee) ; Weiter, Martin (advisor)
The interest in the detail knowledge about elementary electronic processes during photogeneration of charge carriers, which allow achieving higher efficiency of organic solar cells, grows with advent of the commercial organic solar cells production. The thesis is focused on study of photogeneration of charge carriers in organic semiconductors, especially in -conjugated polymer materials. First part of the thesis summarized state of the art in studies of photogeneration of charge carriers in polymer solar cells. Subsequent experimental and results part are focused on study of polymeric solar cells prepared from electron donor polymers MDMO-PPV, Tg-PPV, PCDTBT and PCBTDPP and electron acceptor derivates of fullerenes PC60BM and PC70BM. Results of the thesis are divided in tree main parts: 1) study of charge transfer between electron donor and electron acceptor materials by optical methods, 2) study of charge transfer between electron donor and electron acceptor materials by optoelectrical methods and 3) development of organic solar cells on flexible substrates. The last part is focused largely on deposition methods of active materials thin layer.
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Study of optoelectrical properties of organic semiconductor thin film layers of phtalocyanines
Miklíková, Zdeňka ; Vala, Martin (referee) ; Zmeškal, Oldřich (advisor)
Diploma thesis is focused on the study of optoelectric properties of thin layers of organic materials based on phthalocyanines, which can be used as an active layer of photovoltaic cells. Especially are studied the properties of the thin active layers of PdPc and PdPc + IL on the glass or ceramic substrates with aluminium contact, which are prepared by material printing here. On the prepared samples were first measured current-voltage characteristics in the dark and in the light and then were measured impedance spectrums in the dark. The received results will be used to improve the properties and structures of photovoltaic cells.
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