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Tolerance Pavlownia tomentosa in vitro k suchu a osmotické zátěži
Zapalač, Radek
This diploma thesis deals with the influence of abiotic stressors on plant growth and their acclimation responses. An in vitro culture experiment was conducted with Paulownia tomentosa plants for 35 days, in which growth parameters (reduction of leaf turgescence, leaf damage, plant height, number of nodes per stem, number of leaves and number of roots) and plant survival, under the treatment of three different osmotics at different concentrations in the medium (20 g/l sucrose – control, 80 g/l sucrose, 50 mM NaCl, 100 mM NaCl, 1.5 % PEG6000, 3 % PEG6000). On days 10 and 30 of the experiment, plant samples were collected for determination of ABA and proline content in leaves. The radioimmunoassay method was used to determine ABA content, while proline content was determined by spectrophotometric measurement. During the first ten days of cultivation, gas samples were also taken from the culture vessels to determine ethylene production, which was subsequently carried out by gas chromatography. The results obtained were statistically and graphically processed and supplemented by photodocumentation.
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Thermal-hydraulic analysis of operated heat exchanger
Chudý, Dávid ; Kilkovský, Bohuslav (referee) ; Jegla, Zdeněk (advisor)
The diploma thesis is focused on the thermal-hydraulic analysis of an operating heat exchanger in an ethylene evaporation unit. In the theoretical part of the thesis the design of shell and tube heat exchanger and the basics of the thermal-hydraulic calculation are presented. The subject of the practical part is the evaporator, which is a part of the unit without measuring the flow rates of the hot stream – steam, and the cold stream – ethylene. Therefore, ChemCAD is used to calculate mass and energy balance of the unit. The actual thermal-hydraulic calculation of the evaporator is then performed in the HTRI software. For the purpose of analysing the evaporator behaviour under different operating conditions, a combined model is developed. The model consists of an iterative calculation procedure between ChemCAD and HTRI. The computational model verifies the evaporator function under several operating conditions. In addition to the design proposals, the work also includes new customized evaporator designs together with an economic evaluation.
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The role of phytohormones in the root system response to environmental conditions
Vávrová, Barbora ; Tylová, Edita (advisor) ; Konrádová, Hana (referee)
During their life cycle, plants form several important anatomical structures in roots, which are crucial for the proper function of the root system and for survival of plant organisms in variable environmental conditions. These structures enable plants to adapt to various stress factors of the environment. Among them, apoplastic barriers are very important. They are formed by cells of the endodermis and exodermis. These cell layers develop Casparian bands and suberin lamellae, modifications of cell walls, that block the apoplastic pathway and are necessary for selective nutrient uptake. Another structure is aerenchyma, a tissue containing many intercellular spaces, which is primarily associated with growth in flooded soils. Development of these structural adaptations is associated with the abscisic acid (ABA) and ethylene. These phytohormones are known mainly for their involvement in stress responses but they are also important in many developmental processes. Work published so far have shown that ABA stimulates deposition of suberin lamellae in the endodermis in unfavourable conditions. Ethylene on the other hand suppresses the deposition of suberin and can even trigger a degradation of previously developed suberin lamellae. In many cases ethylene plays a crucial regulatory role in development of...
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Interaction of organic molecules with metal passivated semiconductor surfaces studied via STM
Zimmermann, Petr ; Sobotík, Pavel (advisor)
Title Interaction of Organic Molecules with Metal Passivated Silicon Surfaces Studied via STM Author Petr Zimmermann Department Department of Plasma and Surface Science Supervisor Doc. RNDr. Pavel Sobotík, CSc. Department of Plasma and Surface Science Abstract Organic molecules offer a wide range of optical, electronic or chemical properties. Coupling them to silicon could pave way to novel applications and devices, however, a controlled molecular functionalization of silicon remains challenging due to the presence of highly reactive dangling bonds on its surfaces. We attempt to decrease the reactivity of low index silicon surfaces with an ultra-thin layer of a metal adsorbates and study their interaction with organic molecules via scanning tunnelling microscopy. In the first part we investigate the interaction of ethylene, a small unsaturated molecule, with tin and indium 1D chains grown on Si(001) - 2 × 1. The chains consist of dimers structurally analogous to the dimers of the underlying Si(001) - 2 × 1 surface. Aided by photoelectron spectroscopy we find that the Sn chains are less reactive than the Si(001) surface and that the absence of a π dimer bond renders indium chains inert. In the second part we study the interaction of copper phthalocyanine, a small macrocyclic heteroaromatic compound, with the...
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Interaction of organic molecules with metal passivated semiconductor surfaces studied via STM
Zimmermann, Petr ; Sobotík, Pavel (advisor)
Title Interaction of Organic Molecules with Metal Passivated Silicon Surfaces Studied via STM Author Petr Zimmermann Department Department of Plasma and Surface Science Supervisor Doc. RNDr. Pavel Sobotík, CSc. Department of Plasma and Surface Science Abstract Organic molecules offer a wide range of optical, electronic or chemical properties. Coupling them to silicon could pave way to novel applications and devices, however, a controlled molecular functionalization of silicon remains challenging due to the presence of highly reactive dangling bonds on its surfaces. We attempt to decrease the reactivity of low index silicon surfaces with an ultra-thin layer of a metal adsorbates and study their interaction with organic molecules via scanning tunnelling microscopy. In the first part we investigate the interaction of ethylene, a small unsaturated molecule, with tin and indium 1D chains grown on Si(001) - 2 × 1. The chains consist of dimers structurally analogous to the dimers of the underlying Si(001) - 2 × 1 surface. Aided by photoelectron spectroscopy we find that the Sn chains are less reactive than the Si(001) surface and that the absence of a π dimer bond renders indium chains inert. In the second part we study the interaction of copper phthalocyanine, a small macrocyclic heteroaromatic compound, with the...
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Interaction of organic molecules with metal passivated semiconductor surfaces studied via STM
Zimmermann, Petr ; Sobotík, Pavel (advisor) ; Plšek, Jan (referee) ; Šikola, Tomáš (referee)
Title Interaction of Organic Molecules with Metal Passivated Silicon Surfaces Studied via STM Author Petr Zimmermann Department Department of Plasma and Surface Science Supervisor Doc. RNDr. Pavel Sobotík, CSc. Department of Plasma and Surface Science Abstract Organic molecules offer a wide range of optical, electronic or chemical properties. Coupling them to silicon could pave way to novel applications and devices, however, a controlled molecular functionalization of silicon remains challenging due to the presence of highly reactive dangling bonds on its surfaces. We attempt to decrease the reactivity of low index silicon surfaces with an ultra-thin layer of a metal adsorbates and study their interaction with organic molecules via scanning tunnelling microscopy. In the first part we investigate the interaction of ethylene, a small unsaturated molecule, with tin and indium 1D chains grown on Si(001) - 2 × 1. The chains consist of dimers structurally analogous to the dimers of the underlying Si(001) - 2 × 1 surface. Aided by photoelectron spectroscopy we find that the Sn chains are less reactive than the Si(001) surface and that the absence of a π dimer bond renders indium chains inert. In the second part we study the interaction of copper phthalocyanine, a small macrocyclic heteroaromatic compound, with the...
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Alternative fuels for diesel engines
Baránek, Adam ; Mauder, Tomáš (referee) ; Píštěk, Václav (advisor)
Internal combustion engines have become part of everyday life. Because oil reserves are diminishing and there is evidence of environment harmfulness of oil combustion, there is an increasing use of alternative fuels. This thesis will outline of the most commonly used alternative fuels in diesel engines with a list of advantages and disadvantages, possibilities of current use and their potential development.
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Alternative fuels for diesel engines
Baránek, Adam ; Píštěk, Václav (advisor)
Internal combustion engines have become part of everyday life. Because oil reserves are diminishing and there is evidence of environment harmfulness of oil combustion, there is an increasing use of alternative fuels. This thesis will outline of the most commonly used alternative fuels in diesel engines with a list of advantages and disadvantages, possibilities of current use and their potential development.
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