Studies on High Potential Porphyrin-fullerene Supramolecular Dyads

Song, Baiyun

12 1900

Photoinduced electron transfer in self-assembled via axial coordination porphyrin-fullerene dyads is investigated. Fullerene functionalized with imidazole and fullerenes functionalized with pyridine are chosen as electron acceptors, while zinc pophyrin derivatives are utilized as electron donors. The electron withdrawing ability of halogen atoms make the porphyrin ring electrophilic, which explained the binding of (F20TPP)Zn with fullerene derivatives having the highest binding constant around 105M-1. Another important observation is that the fullerene imidazole binding to zinc pophyrin had higher stability than fullerene pyridine-porphyrin dyad. Computational DFT B3LYP-21G(*) calculations are used to study the geometric and electronic structures. The HOMO and LUMO was found to be located on the porphyrin and fullerene entities, respectively. Photoinduced electron transfer is investigated by the steady-state absorption and emission, differential pulse voltammetry, and nanosecond and femtosecond transient absorption studies. The measurements provided the same conclusion that the increasing number of the halogen atoms on the porphyrin ring leads to the higher binding of porphyrin-fullerene supramolecular dyads and efficient charge separation and charge recombination processes.

Donor-acceptor system

artificial photosynthesis

light energy harvesting

Synthesis and Photochemical Studies of Wide-Band Capturing Sensitizers Capable of Light Energy Harvesting

Bandi, Venu Gopal

08 1900

Artificial photosynthesis, for the purpose of converting solar energy into fuel, is one of the most viable and promising alternative approaches to solve the current global energy and environmental issues. Among the challenges faced in artificial photosynthesis is in building photosystems that can effectively and efficiently perform light absorption and charge separation in broad-band capturing donor-acceptor systems. While having a broad-band capturing antenna system that can harness incoming photons is crucial, another equally important task is to successfully couple the antenna system, while maintaining its optical properties, to an energy or electron acceptor which serves as the reaction center for the generation of charged species of useful potential energy. The stored potential energy will be utilized in different applications such as driving electrons in solar cells or in splitting water for the generation of fuel. Hence, the particular endeavor of this thesis is to study and synthesize molecular/supramolecular systems with wide-band capturing capabilities to generate long-lived charge separated states. The sensitizer used in building these systems in the present study is 4,4-difluoro-4-bora-3a,4a-diaza-s-indacene, for short, BF2 chelated Azaboron dipyrromenthene or AzaBODIPY. A handful of novel donor-acceptor systems based on AzaBODIPY have been successfully designed, synthesized and their photochemistry have been investigated using various techniques. In these systems, Azabodipy has been covalently attached to several donors like porphyrin, bodipy, subphthalocyanine, phenothiazine, ferrocene, bithiophene and effectively coupled to an electron acceptor, C60. These systems have been fully characterized by NMR, Mass, optical absorption and emission, X-ray crystallographic, computational, electrochemical, and photochemical studies. It has been possible to demonstrate occurrence of efficient electron and energy transfer events and long-lived charge separated states upon photoexcitation in these model compounds. By changing the arrangements of the donor and acceptor entities, it has also been possible to show directional, through-space and through-bond electron transfer processes. The present study brings out the importance of utilizing near-IR sensitizers in building solar energy harvesting model systems.

photosensitizers

azabodipy

light energy harvesting

organic chromophores

Chemistry, Organic

Chemistry, Analytical

Chemistry, Physical

Incandescent light power efficiency: an impact study on the power consumption of the Vaal University of Technology's light sources

Adeniyi, A. O.

12 1900

M. Tech. (Power Engineering, Faculty of Engineering and Technology), Vaal University of Technology / In view of the energy consumption problems, an impact study, extensive laboratory tests and an investigation towards comparable energy saving light sources was carried out on the light sources identified in the survey conducted at the Vaal University of Technology (VUT), Vanderbijlpark campus. Three types of identified incandescent light sources were purchased and extensively tested in order to obtain viable statistical data on the life span, luminance delivered per unit, power consumption and economic effect, as well as identifying relevant energy efficient light sources for replacement purposes. A suitable computerised maintenance program has been developed to be introduced to the VUT that currently does not have a lighting system maintenance program. The case study was located within the empirical-analytical paradigm, using quantitative data. The identified aims and goals place the empirical part of the study in the category of implementation evaluation research that provides an overview of a maintenance plan.

Incandescent light sources

Energy consumption

Electrical maintenance plan

Light energy

621.326

Lighting -- Environmental aspects

Electricity -- Consumption

Energy conservation

On The Importance of Light Source Classification in Indoor Light Energy Harvesting

Zhang, Ye

January 2018

Indoor light energy harvesting plays an important role in field of renewable energy. Indoor lighting condition is usually described by level of illumination. However, measured data alone does not by classification of different light sources, result is not representative. Energy harvesting system needs to be evaluated after classification to obtain more accurate value. This is also importance of different light source classification. In this thesis, a complete set of indoor light energy harvesting system is introduced, two models are proposed to evaluate energy, robustness is improved by mixing complex light condition during data collection. Main task of this thesis is to verify importance of indoor light classification. Main contribution of this thesis is to fill a gap in energy evaluation, and built a model with superior performance. In terms of collecting data, this thesis researches influence factor of data collection to ensure reliability of accuracy. This work can more accurately collect spectral under different light conditions. Finally, light energy is evaluated by classification of indoor light. This model is proven to be closer to true energy value under real condition. The result shows that classified data is more accurate than direct calculation of energy,it has a smaller error. In addition, performance of classifier model used in this thesis has been proven to be excellent, classifier model can still carry on high-accuracy classification when measurement data are not included in training data set. This makes it a low-cost alternative to measuring light condition without spectrometer.

Indoor light energy

classifier model

different light condition

influence factor

energy evaluation.

Annan elektroteknik och elektronik

Synthèses et études physico-chimiques de matériaux à base de moteurs moléculaires rotatifs photoactivables / Synthesis and physico-chemical studies of materials on light-driven rotery molecular motors

Colard-Itté, Jean-Rémy

29 October 2018

Ce manuscrit décrit la synthèse d’un moteur moléculaire rotatif photoactivable. Il est montré que la molécule cible peut être intégrée dans un réseau de chaînes PEG, et que l’irradiation UV du matériau obtenu mène à sa contraction à macroscopique. Ces mouvements moléculaires collectifs permettent donc de convertir de l’énergie lumineuse pour produire un travail mécanique de huit ordres de grandeur au-delà de leur échelle. Une combinaison d’études de rhéologie et de diffusion de neutron a permis de définir les paramètres de formation de gels pour obtenir une contraction maximale, mais aussi l’observation expérimentale que la rotation des moteurs initie des enroulements de chaînes PEG, ce qui est responsable de la contraction du matériau. De plus, la synthèse d’une unité modulatrice et son intégration dans ces matériaux sont décrites. Les gels résultants présentent des propriétés de contraction réversibles et le caractère hors-équilibre de l’ensemble du système est ensuite discuté. / This manuscript describes the gram-scale synthesis of a light-driven rotary molecular motor. It is shown that the target molecule can be integrated into a PEG chains network, and that the UV irradiation of the obtained material leads to its macroscopic contraction. These collective molecular movements are then able to convert light energy to produce a mechanical work of eight orders of magnitude beyond their scale. A combination of rheology and small angle neutron scattering studies defined the of gel formation parameters to obtain maximum contraction, but also the experimental observation that motor rotation initiates PEG chain windings, which is responsible of the contraction of the material.In addition, the synthesis of a modulator unit and its integration into these materials is described. The resulting gels present reversible contraction properties and the out-of-equilibrium behavior of the entire system is then discussed.

Moteurs moléculaires

Systèmes hors-équilibre

Synthèse organique

Gels contractiles

Conversion d’énergie lumineuse

Rhéologie

Diffusion de neutrons aux petits angles

Molecular motors

Out-of-equilibrium systems

Organic synthesis

Contractile gels

Light energy conversion

Rheology

Small Angle neutron scattering

541.3

572.6