Nonlinear Effects in Contactless Ultrasound Energy Transfer Systems

Meesala, Vamsi Chandra

05 January 2021

Ultrasound acoustic energy transfer (UAET) is an emerging contactless technology that offers the capability to safely and efficiently power sensors and devices while eliminating the need to replace batteries, which is of interest in many applications. It has been proposed to recharge and communicate with implanted medical devices, thereby eliminating the need for invasive and expensive surgery and also to charge sensors inside enclosed metal containers typically found in automobiles, nuclear power plants, space stations, and aircraft engines. In UAET, energy is transferred through the reception of acoustic waves by a piezoelectric receiver that converts the energy of acoustic waves to electrical voltage. It has been shown that UAET outperforms the conventional CET technologies that use electromagnetic waves to transfer energy, including inductive coupling and capacitative coupling. To date, the majority of research on UAET systems has been limited to modeling and proof-of-concept experiments, mostly in the linear regime, i.e., under small levels of acoustic pressure that result in small amplitude longitudinal vibrations and linearized piezoelectricity. Moreover, existing models are based on the "piston-like" deformation assumption of the transmitter and receiver, which is only accurate for thin disks and does not accurately account for radiation effects. The linear models neglect nonlinear effects associated with the nonlinear acoustic wave propagation as well as the receiver's electroelastic nonlinearities on the energy transfer characteristics, which become significant at high source strengths. In this dissertation, we present experimentally-validated analytical and numerical multiphysics modeling approaches aimed at filling a knowledge gap in terms of considering resonant acoustic-piezoelectric structure interactions and nonlinear effects associated with high excitation levels in UAET systems. In particular, we develop a reduced-order model that can accurately account for the radiation effects and validate it by performing experiments on four piezoelectric disks with different aspect ratios. Next, we study the role of individual sources of nonlinearity on the output power characteristics. First, we consider the effects of electroelastic nonlinearities. We show that these nonlinearities can shift the optimum load resistance when the acoustic medium is fluid. Next, we consider the nonlinear wave propagation and note that the shock formation is associated with the dissipation of energy, and as such, shock formation distance is an essential design parameter for high-intensity UAET systems. We then present an analytical approach capable of predicting the shock formation distance and validate it by comparing its prediction with finite element simulations and experimental results published in the literature. Finally, we experimentally investigate the effects of both the nonlinearity sources on the output power characteristics of the UAET system by considering a high intensity focused ultrasound source and a piezoelectric disk receiver. We determine that the system's efficiency decreases, and the maximum voltage output position drifts towards the source as the source strength is increased. / Doctor of Philosophy / Advancements in electronics that underpinned the development of low power sensors and devices have transformed many fields. For instance, it has led to the innovation of implanted medical devices (IMDs) such as pacemakers and neurostimulators that perform life-saving functions. They also find applications in condition monitoring and wireless sensing in nuclear power plants, space stations, automobiles and aircraft engines, where the sensors are enclosed within sealed metal containers, vacuum/pressure vessels or located in a position isolated from the operator by metal walls. In all these applications, it is desired to communicate with and recharge the sensors wirelessly. Such a mechanism can eliminate the need for invasive and expensive surgeries to replace batteries of IMDs and preserve the structural integrity of metal containers by eliminating the need for feed through wires. It has been shown that ultrasound acoustic energy transfer (UAET) outperforms conventional wireless power transfer techniques. However, existing models are based on several assumptions that limit their potential and do not account for effects that become dominant when a higher output power is desired. In this dissertation, we present experimentally validated numerical and theoretical investigations to fill those knowledge gaps. We also provide crucial design recommendations based on our findings for the efficient implementation of UAET technology.

Ultrasound acoustic energy transfer

Piezoelectric materials

Acoustic structure interactions

Nonlinear acoustics

Nonlinear constitutive relations

Parameter identification

Finite element method

Reduced order modeling

Perturbation techniques

Me

A Novel Thermal Method for Pipe Flow Measurements Using a Non-invasive BTU Meter

Alshawaf, Hussain M J A A M A

25 June 2018

This work presents the development of a novel and non-invasive method that measures fluid flow rate and temperature in pipes. While current non-invasive flow meters are able to measure pipe flow rate, they cannot simultaneously measure the internal temperature of the fluid flow, which limits their widespread application. Moreover, devices that are able to determine flow temperature are primarily intrusive and require constant maintenance, which can shut down operation, resulting in downtime and economic loss. Consequently, non-invasive flow rate and temperature measurement systems are becoming increasingly attractive for a variety of operations, including for use in leak detection, energy metering, energy optimization, and oil and gas production, to name a few. In this work, a new solution method and parameter estimation scheme are developed and deployed to non-invasively determine fluid flow rate and temperature in a pipe. This new method is utilized in conjunction with a sensor-based apparatus--"namely, the Combined Heat Flux and Temperature Sensor (CHFT+), which employs simultaneous heat flux and temperature measurements for non-invasive thermal interrogation (NITI). In this work, the CHFT+ sensor embodiment is referred to as the British Thermal Unit (BTU) Meter. The fluid's flow rate and temperature are determined by estimating the fluid's convection heat transfer coefficient and the sensor-pipe thermal contact resistance. The new solution method and parameter estimation scheme were validated using both simulated and experimental data. The experimental data was validated for accuracy using a commercially available FR1118P10 Inline Flowmeter by Sotera Systems (Fort Wayne, IN) and a ThermaGate sensor by ThermaSENSE Corp. (Roanoke, VA). This study's experimental results displayed excellent agreement with values estimated from the aforementioned methods. Once tested in conjunction with the non-invasive BTU Meter, the proposed solution and parameter estimation scheme displayed an excellent level of validity and reliability in the results. Given the proposed BTU Meter's non-invasive design and experimental results, the developed solution and parameter estimation scheme shows promise for use in a variety of different residential, commercial, and industrial applications. / MS

Pipe Flow Rate

Non-Invasive

Heat Flux

Fluid Temperature

Parameter Estimation

Convection Heat Transfer Coefficient

Thermal Contact Resistance

Energy Transfer

Non-Invasive Thermal Interrogation

Applications of deep learning-based image-analysis models for the personalization of radiotherapy

Starke, Sebastian

09 July 2024

Radiotherapy treatment-response of cancer patients can vary considerably, even in patients sharing the same diagnosis. Enhancing the degree of treatment personalization might offer a way towards improving curation rates. The recent advancements in the field of deep neural networks provide new directions for the non-invasive extraction of patient-individual biomarkers when applied on diagnostic imaging data. Within this thesis, we explored the potential of image-based deep learning as an enabler for individualized therapy. In a cohort of head and neck cancer patients, we first assessed the suitability of applying convolutional neural networks (CNNs) on pre-treatment computed tomography imaging data for the prediction of loco-regional tumor control in the presence of censored outcomes. We further investigated whether the predictive performance can be improved through the adoption of multitask learning strategies that combine multiple outcome prediction models and a tumor segmentation task, both for CNNs and the recently emerged vision transformer-based network architectures. Subsequently, we applied neural networks on multimodal and longitudinal imaging data collected during the course of radiotherapy and evaluated their potential to further improve outcome models. Finally, in the context of proton-beam radiotherapy of primary brain tumor patients, we applied CNNs for the prediction of the linear energy transfer and examined the feasibility of this approach for estimating treatment-related side-effects considering a variable biological effectiveness of protons.:1. Introduction 2. Theoretical background 3. Convolutional neural networks for outcome prediction 4. Multitask learning and attention-based models for outcome prediction 5. Longitudinal and multimodal models for outcome prediction 6. Prediction of the linear energy transfer in proton-beam radiotherapy / Das Ansprechverhalten von Krebspatienten auf eine Strahlentherapie kann selbst zwischen Patienten mit gleicher Diagnose deutlich variieren. Eine erweiterte Personalisierung der Behandlung stellt einen möglichen Weg dar, um die Heilungschancen zu verbessern. Durch die kürzlich erzielten Fortschritte im Bereich neuronaler Netzwerke bieten sich neue Möglichkeiten zur nicht-invasiven Extraktion patientenspezifischer Merkmale aus diagnostischen Bildgebungsdaten. In dieser Arbeit wurde das Potential tiefer, bildbasierter neuronaler Netzwerke für eine individualisierte Strahlentherapie analysiert. In einer Kohorte von Patienten mit Kopf- und Halstumoren wurde zunächst die Eignung faltender neuronaler Netzwerke (CNNs) zur Vorhersage der lokoregionären Kontrolle im Beisein zensierter Beobachtungen basierend auf prätherapeutischer Computertomographie (CT) evaluiert. Außerdem wurde untersucht, ob sich die Vorhersagequalität von CNNs und den kürzlich vorgestellten vision transformer Architekturen unter Verwendung von Multitask-Lernstrategien, welche mehrere Vorhersagemodelle und eine Segmentierung des Tumors kombinieren, verbessern lässt. Anschließend wurde die Anwendbarkeit neuronaler Netzwerke zur Analyse multimodaler und longitudinaler, während des Behandlungsverlaufes aufgenommener, Bildgebungsdaten aufgezeigt und ihr Potential zur weiteren Verbesserung der Vorhersagen analysiert. Abschließend wurden CNNs im Rahmen der Protonentherapie genutzt, um den linearen Energietransfer bei Patienten mit primären Hirntumoren vorherzusagen. Die Plausibilität dieser Vorhersagen zur Risikoabschätzung behandlungsbedingter Nebenwirkungen wurde unter Berücksichtigung einer variablen relativen biologischen Wirksamkeit von Protonen untersucht.:1. Introduction 2. Theoretical background 3. Convolutional neural networks for outcome prediction 4. Multitask learning and attention-based models for outcome prediction 5. Longitudinal and multimodal models for outcome prediction 6. Prediction of the linear energy transfer in proton-beam radiotherapy

info:eu-repo/classification/ddc/610

ddc:610

Étude moléculaire de la formation de complexes protéiques impliqués dans la signalisation des récepteurs couplés aux protéines G

Breton, Billy

05 1900

La communication cellulaire est un phénomène important pour le maintien de l’homéostasie des cellules. Au court des dernières années, cette sphère de recherche sur la signalisation cellulaire a connue des avancées importantes au niveau de l’identification des acteurs principaux impliqués dans la reconnaissance extracellulaire des signaux, ainsi que la compréhension des voies de signalisation engagées par les cellules pour répondre aux facteurs extracellulaires. Malgré ces nouvelles informations, les diverses interrelations moléculaires entre les acteurs ainsi que les voies de signalisation cellulaire, demeurent mal comprises. Le transfert d’énergie de résonance de bioluminescence (BRET) permet la mesure d’interactions protéiques et peut être utilisé dans deux configurations, le BRET480-YFP (connu aussi comme le BRET1) et le BRET400-GFP (connu aussi en tant que BRET2). Suite à l’oxydation de son substrat, la luciférase de renilla peut transférer son énergie à une protéine fluorescente, uniquement si elles sont à proximité l’une de l’autre (≤100Å). La combinaison dans un seul essai des BRET480-YFP et BRET400-GFP, a permis de suivre trois paires d’interactions, sur une même population cellulaire. Par contre, l’utilisation de deux substrats pour la réaction de bioluminescence rend impossible la mesure simultanée des différents signaux de BRET, pour ce trois nouvelles configurations de BRET ont été mises au point en utilisant des nouvelles protéines fluorescentes. Ainsi deux des nouvelles couleurs de BRET ayant des émissions résolues, le BRET400-BFP et le BRET400mAmetrine ont pu être combinées pour mesurer l’engagement par un RCPG d’une protéine G, ainsi que l’accumulation du second messager. La combinaison de ces BRET a également permis de révéler la formation d’un complexe entre le récepteur α2A adrénergique (α2AAR), Gαi1, le dimère Gβγ ainsi que la kinase des récepteurs couplés aux protéines G (GRK2), suite à l’activation du récepteur. De plus, seule l’entrée de GRK2 semble être en mesure de causer la désensibilisation du α2AAR, en s’intercalant entre Gαi1 et Gβγ. Par contre, la stabilisation de l’interaction entre α2AAR et la β-arrestine2 semble nécessiter l’activité kinase de GRK2. Une autre étude a révélé l’importance de différentes Gα pour la mobilisation du calcium, suite à l’activation du récepteur aux opioïdes de type delta (DOR). Suite à la surexpression de Gα de la famille Gαq, il a été possible de mesurer une influence de ces Gα sur la mobilisation du calcium. Toutefois, cette réponse calcique mesurée en présence des Gαq demeure sensible aux prétraitements à la toxine de Bordetella pertussis, qui inhibe sélectivement l’activité des Gαi. De plus, la co-expression de Gαi et Gαq permet de potentialiser la mobilisation de calcium, démontrant une interrelation entre ces deux familles de protéine Gα, pour la signalisation du DOR. Afin de démontrer l’interrelation directe, des expériences de BRET ont été réalisées entre différentes Gα. En plus de montrer la formation de complexes sélectifs entre les Gα, les expériences de BRET réalisées en parallèle d’analyses de séquences de Gα, ont également mis à jour un site de sélectivité d’interaction entre les Gα, l’hélice α4. Suite à la transposition de cette hélice α4 de Gα12 sur Gαi1, qui normalement n’interagissent pas, il a été possible de forcer l’interaction entre Gα12 et Gαi1, confirmant ainsi que cette hélice α contient l’information permettant une sélectivité d’interaction. Au cours de cette thèse, il a été possible de générer de nouvelles méthodes de mesure d’interactions protéiques qui permettent de multiplexer différents signaux, ce qui a permis de mettre à jour de nouvelles interactions entre divers effecteurs de la signalisation de RCGP / Cellular communication is an important phenomenon for the maintenance of cellular homeostasis. Recently, important progress has been made in the cell signalling research field concerning the identification of the major actors and the cellular pathways engaged in response to these extracellular factors. However, in spite of this new information, the interrelationships at the molecular level between the various cellular actors and the different signalling pathways remain badly understood. Bioluminescence resonance energy transfer (BRET) monitors interactions between proteins and can be used in two configurations, the BRET480-YFP (also known as BRET1) and the BRET400-GFP (also known as BRET2). Following oxidation of its substrate, renilla luciferase transfers its energy to a fluorescent protein, only if they are in close proximity (≤100Å). By combining the BRET480-YFP and BRET400-GFP in one assay, it is possible to follow three pair-wise interactions in the same cellular population. However, using two bioluminescence reaction substrates limits the possibility of measuring the different BRET signals simultaneously. In order to measure multiple BRET signals simultaneously, three new BRET configurations, based on the BRET400-GFP, were developed using fluorescent proteins with different emission wavelengths. Two of the new BRET colors which have resolved emission wavelengths, the BRET400-BFP and BRET400mAmetrine, were combined for measuring the heterotrimeric G protein engagement by the vasopressin V2 receptor, as well as the accumulation of the second messenger. Combining these new BRET techniques reveals for the first time the formation of a complex between the α2A adrenergic receptor (α2AAR), Gαi1, the Gβγ dimer and G protein-receptor kinase (GRK2) following receptor activation. Moreover, only the entry of GRK2 into the receptor complex is required for the α2AAR desensitization, by inserting between Gαi1 and Gβγ. On the other hand, the stabilization of the interaction between α2AAR and β-arrestin2 requires the kinase activity of GRK2. Another study revealed the importance of multiple Gα subunits for calcium mobilization induced upon activation of the delta opioid receptor (DOR). Gαq subfamily member overexpression altered the DOR-induced calcium mobilization, but this Gαq calcium mobilization remained sensitive to pre-treatement pertussis toxin, through selective inhibition of the activity of Gαi members. Moreover, Gαi and Gαq co-expression potentiated calcium mobilization, suggesting an interrelationship between these two Gα families in DOR signaling. This Gαi and Gαq interrelationship could result from the formation of a complex close to the receptor. In order to test this hypothesis, BRET experiments were performed, with the aim of measuring the presence of complexes between different Gα. In addition to demonstrating complex formation between Gα subunits, the BRET experiments in parallel with sequence analysis, also revealed a selective interaction site between the Gα, the α4 helix. By swapping the a4 helix of Gαi with the α4 helix of Gα12, which doesn’t normally interact with Gα12, it was possible to force the interaction between Gα12 and Gαi to confirm that this α helix contains information concerning the selectivity of interactions between Gα subunits. During this thesis, new methods were to detect protein interactions and multiplexing these methods allowed the detection of novel interactions between signalling effectors of GPCRs.

Récepteur couplé aux protéines G

Protéine G hétérotrimérique

β-arrestin

Obelin

Mobilisation du calcium

Multiplexage

Luciférase

G protein coupled receptor

Heterotrimeric G protein

G protein coupled receptor kinase

β-arresitn

Fluorescence resonance energy transfer

Obelin

Calcium mobilization

Multiplexing

Luciferase

Étude moléculaire de la formation de complexes protéiques impliqués dans la signalisation des récepteurs couplés aux protéines G

Breton, Billy

05 1900

La communication cellulaire est un phénomène important pour le maintien de l’homéostasie des cellules. Au court des dernières années, cette sphère de recherche sur la signalisation cellulaire a connue des avancées importantes au niveau de l’identification des acteurs principaux impliqués dans la reconnaissance extracellulaire des signaux, ainsi que la compréhension des voies de signalisation engagées par les cellules pour répondre aux facteurs extracellulaires. Malgré ces nouvelles informations, les diverses interrelations moléculaires entre les acteurs ainsi que les voies de signalisation cellulaire, demeurent mal comprises. Le transfert d’énergie de résonance de bioluminescence (BRET) permet la mesure d’interactions protéiques et peut être utilisé dans deux configurations, le BRET480-YFP (connu aussi comme le BRET1) et le BRET400-GFP (connu aussi en tant que BRET2). Suite à l’oxydation de son substrat, la luciférase de renilla peut transférer son énergie à une protéine fluorescente, uniquement si elles sont à proximité l’une de l’autre (≤100Å). La combinaison dans un seul essai des BRET480-YFP et BRET400-GFP, a permis de suivre trois paires d’interactions, sur une même population cellulaire. Par contre, l’utilisation de deux substrats pour la réaction de bioluminescence rend impossible la mesure simultanée des différents signaux de BRET, pour ce trois nouvelles configurations de BRET ont été mises au point en utilisant des nouvelles protéines fluorescentes. Ainsi deux des nouvelles couleurs de BRET ayant des émissions résolues, le BRET400-BFP et le BRET400mAmetrine ont pu être combinées pour mesurer l’engagement par un RCPG d’une protéine G, ainsi que l’accumulation du second messager. La combinaison de ces BRET a également permis de révéler la formation d’un complexe entre le récepteur α2A adrénergique (α2AAR), Gαi1, le dimère Gβγ ainsi que la kinase des récepteurs couplés aux protéines G (GRK2), suite à l’activation du récepteur. De plus, seule l’entrée de GRK2 semble être en mesure de causer la désensibilisation du α2AAR, en s’intercalant entre Gαi1 et Gβγ. Par contre, la stabilisation de l’interaction entre α2AAR et la β-arrestine2 semble nécessiter l’activité kinase de GRK2. Une autre étude a révélé l’importance de différentes Gα pour la mobilisation du calcium, suite à l’activation du récepteur aux opioïdes de type delta (DOR). Suite à la surexpression de Gα de la famille Gαq, il a été possible de mesurer une influence de ces Gα sur la mobilisation du calcium. Toutefois, cette réponse calcique mesurée en présence des Gαq demeure sensible aux prétraitements à la toxine de Bordetella pertussis, qui inhibe sélectivement l’activité des Gαi. De plus, la co-expression de Gαi et Gαq permet de potentialiser la mobilisation de calcium, démontrant une interrelation entre ces deux familles de protéine Gα, pour la signalisation du DOR. Afin de démontrer l’interrelation directe, des expériences de BRET ont été réalisées entre différentes Gα. En plus de montrer la formation de complexes sélectifs entre les Gα, les expériences de BRET réalisées en parallèle d’analyses de séquences de Gα, ont également mis à jour un site de sélectivité d’interaction entre les Gα, l’hélice α4. Suite à la transposition de cette hélice α4 de Gα12 sur Gαi1, qui normalement n’interagissent pas, il a été possible de forcer l’interaction entre Gα12 et Gαi1, confirmant ainsi que cette hélice α contient l’information permettant une sélectivité d’interaction. Au cours de cette thèse, il a été possible de générer de nouvelles méthodes de mesure d’interactions protéiques qui permettent de multiplexer différents signaux, ce qui a permis de mettre à jour de nouvelles interactions entre divers effecteurs de la signalisation de RCGP / Cellular communication is an important phenomenon for the maintenance of cellular homeostasis. Recently, important progress has been made in the cell signalling research field concerning the identification of the major actors and the cellular pathways engaged in response to these extracellular factors. However, in spite of this new information, the interrelationships at the molecular level between the various cellular actors and the different signalling pathways remain badly understood. Bioluminescence resonance energy transfer (BRET) monitors interactions between proteins and can be used in two configurations, the BRET480-YFP (also known as BRET1) and the BRET400-GFP (also known as BRET2). Following oxidation of its substrate, renilla luciferase transfers its energy to a fluorescent protein, only if they are in close proximity (≤100Å). By combining the BRET480-YFP and BRET400-GFP in one assay, it is possible to follow three pair-wise interactions in the same cellular population. However, using two bioluminescence reaction substrates limits the possibility of measuring the different BRET signals simultaneously. In order to measure multiple BRET signals simultaneously, three new BRET configurations, based on the BRET400-GFP, were developed using fluorescent proteins with different emission wavelengths. Two of the new BRET colors which have resolved emission wavelengths, the BRET400-BFP and BRET400mAmetrine, were combined for measuring the heterotrimeric G protein engagement by the vasopressin V2 receptor, as well as the accumulation of the second messenger. Combining these new BRET techniques reveals for the first time the formation of a complex between the α2A adrenergic receptor (α2AAR), Gαi1, the Gβγ dimer and G protein-receptor kinase (GRK2) following receptor activation. Moreover, only the entry of GRK2 into the receptor complex is required for the α2AAR desensitization, by inserting between Gαi1 and Gβγ. On the other hand, the stabilization of the interaction between α2AAR and β-arrestin2 requires the kinase activity of GRK2. Another study revealed the importance of multiple Gα subunits for calcium mobilization induced upon activation of the delta opioid receptor (DOR). Gαq subfamily member overexpression altered the DOR-induced calcium mobilization, but this Gαq calcium mobilization remained sensitive to pre-treatement pertussis toxin, through selective inhibition of the activity of Gαi members. Moreover, Gαi and Gαq co-expression potentiated calcium mobilization, suggesting an interrelationship between these two Gα families in DOR signaling. This Gαi and Gαq interrelationship could result from the formation of a complex close to the receptor. In order to test this hypothesis, BRET experiments were performed, with the aim of measuring the presence of complexes between different Gα. In addition to demonstrating complex formation between Gα subunits, the BRET experiments in parallel with sequence analysis, also revealed a selective interaction site between the Gα, the α4 helix. By swapping the a4 helix of Gαi with the α4 helix of Gα12, which doesn’t normally interact with Gα12, it was possible to force the interaction between Gα12 and Gαi to confirm that this α helix contains information concerning the selectivity of interactions between Gα subunits. During this thesis, new methods were to detect protein interactions and multiplexing these methods allowed the detection of novel interactions between signalling effectors of GPCRs.

Récepteur couplé aux protéines G

Protéine G hétérotrimérique

β-arrestin

Obelin

Mobilisation du calcium

Multiplexage

Luciférase

G protein coupled receptor

Heterotrimeric G protein

G protein coupled receptor kinase

β-arresitn

Fluorescence resonance energy transfer

Obelin

Calcium mobilization

Multiplexing

Luciferase

Homoleptic Co(II), Ni(II), Cu(II), Zn(II) and Hg(II) complexes of bis-(phenyl)-diisoindol-aza-methene

Gresser, Roland, Hoyer, Alexander, Hummert, Markus, Hartmann, Horst, Leo, Karl, Riede, Moritz

31 March 2014

The synthesis of five homoleptic transition metal complexes of bis-(phenyl)-diisoindol-aza-methene is described together with the optical, electrochemical and thermal properties of these compounds. Additionally, crystal structures for the Co and the Zn complex are reported. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

Metall-organische Gerüste

MOF

leichte Säuren

Energieübertragung

Bordipyrromethen-Farbstoffe

HSAB-Konzept

Basen

Dimer

metal-organic frameworks

soft acids

energy-transfer

BODIPY dyes

bases hsab

chemistry

hard

dimers

ddc:540

rvk:VA 1120

Angular momentum polarisation effects in inelastic scattering

Chadwick, Helen J.

January 2012

In this thesis, a joint experimental and theoretical investigation of the vector properties that describe the inelastic scattering of a diatomic radical with an atomic collision partner is presented. A particular emphasis is placed on those correlations that include the final rotational angular momentum, j', of the radical. The depolarisation of both NO(A) and OH(A) brought about through collisions with krypton has been studied, providing a measure of the j-j' correlation, where j is the initial rotational angular momentum associated with the diatom. The total depolarisation cross- sections for both collisional disorientation and disalignment have been measured using quantum beat spectroscopy, and modelled theoretically using quasi-classical trajectory (QCT) calculations. The agreement between experiment and theory for NO(A)-Kr is excellent, but is not observed for OH(A)-Kr under thermal conditions. This has been attributed to the importance of electronic quenching in OH(A)-Kr. The depolarisation cross-sections have also been determined at a higher collision energy for OH(A)-Kr where electronic quenching is less significant, and the experimental results are in better agreement with those obtained theoretically. The NO(A)-Kr depolarisation cross-sections fall with increasing rotational quantum number, N, whereas for OH(A)-Kr, they exhibit less of an N dependence. This trend is mirrored in the elastic depolarisation cross-sections, which have also been determined experimentally for OH(A)-Kr. The significantly attractive and anisotropic nature of the OH(A)-Kr potential energy surface (PES) accounts for these observations. The j-j' correlation is extended to include the initial (relative) velocity (k) in a new theoretical treatment of the k-j-j' correlation. The formalism developed is used with the results from the QCT calculations for NO(A)-Kr and OH(A)-Kr to provide further insight into the mechanism of depolarisation in the two systems. Collisions of NO(A) with krypton do not cause significant depolarisation due to their impulsive nature, and the projection of j onto the kinematic apse is conserved. In contrast, collisions of OH(A) with krypton effectively randomise the direction of j, again showing the influence of the anisotropic and attractive nature of the PES. However, the projection of j onto the kinematic apse is still conserved. The inelastic scattering of NO(X) with argon and krypton has also been investigated, using a crossed molecular beam apparatus. The initial Λ-doublet state of the NO(X) was selected using hexapole focussing, and the products of the collision detected using velocity mapped ion imaging. The state to state differential cross-sections (equivalent to the k-k' correlation, where k' is the final relative velocity) have been measured for collisions which conserve the initial spin-orbit level of the NO(X) with krypton. The same parity dependent effects were seen as have been observed previously for NO(X)-Ar. The collision induced alignment (equivalent to the k-k'-j' correlation) of NO(X) as a result of scattering with argon has also been determined experimentally. The results can be explained classically by considering the conservation of the projection of j onto the kinematic apse.

539.758

Energy transfer processes in supramolecular light-harvesting systems

Stevens, Amy L.

January 2011

This dissertation attempts to understand how energy transfer in a molecular wire and a spherical organic assembly are affected by molecular structure. The molecular wire is a DNA-hybrid structure composed of a strand of thymine bases appended by a cyanine dye. Hydrogen bonded to each base is a naphthalene-derivative molecule. Using time-integrated photoluminescence and time-correlated single photon counting measurements, energy transfer from the naphthalene donors to the cyanine acceptors was confirmed, and its dependence on temperature and DNA-template length investigated. Donor-thymine bonding was disrupted at temperatures above about 25 degrees Celcius resulting in poor donor template decoration and low rates of energy transfer. Increasing numbers of donors attach to the scaffold, forming an orderly array, as the template length increases due to the stabilising effects of the donor-donor pi-stacking interactions. Conversely, modelled energy transfer rates fall as the scaffold length increases because of the longer donor-acceptor distances involved. Therefore, the energy transfer rate was greatest for a template built from 30 thymines. The spherical organic assemblies (nanoparticles) are formed by fast injection of a small volume of molecularly dissolved fluorene-derivative amphiphilic molecules into a polar solvent. The amphiphilic molecules contained either a naphthalene (donor) or a benzothiadiazole (acceptor) core. The donor-acceptor mixed nanoparticles resemble an amorphous polymer film and were modelled as such using the Foerster resonance energy transfer theory. The Foerster radii extracted from the measurements depends intricately on the donor-acceptor spectral overlap and distance. The latter effect was controlled by the stacking interactions between the molecules. Altering the morphology of the structural units is the key to optimising energy transfer in molecular structures. To achieve efficient organic molecule-based devices, the importance of this property needs to be fully appreciated and effectively exploited.

621.38152

Single-Molecule Metal-Induced Energy Transfer: From Basics to Applications

Karedla, Narain

02 June 2016

No description available.

530

Physik (PPN621336750)

Superresolution microscopy

Axial resolution

Förster Resonance Energy Transfer

Electrodynamics

Transition dipole

Pattern matching

Fluorescence Lifetime Imaging Microscopy

Defocused Imaging

Single-molecule imaging

Single-molecule localization microscopy

Einfluss der Herzinsuffizienz auf Membranstrukturen und lokale cAMP-Dynamiken der SERCA2a-Mikrodomäne / Effects of heart failure on membrane structures and local cAMP dynamics of the SERCA2a microdomain

Hofmann, Sandra

05 July 2016

Die Herzinsuffizienz ist trotz zahlreicher Therapiemöglichkeiten immer noch eine der häufigsten chronischen Erkrankung und Todesursachen in westlichen Industrienationen. Eine zentrale Rolle in der Regulation der effizienten Herzkontraktion nimmt die zyklisches Adenosin-3’,5’-monophophat(cAMP)-Signalkaskade ein, wobei Veränderungen in der Kompartimentierung des sekundären Botenstoffes bisher nicht vollständig verstanden sind. Ziel dieser Studie war es deshalb Regulationsmechanismen des lokalen cAMP-Pools der Mikrodomäne der ATP-abhängigen Calciumpumpe 2a des sarkoplasmatischen und endoplasmatischen Retikulums (SERCA2a) in kardialen Mausmyozyten unter den pathologischen Rahmenbedingungen der Herzinsuffizienz zu untersuchen. Hierfür wurde ein post-Myokardinfarkt Mausmodell an einer transgene Mauslinie verwendet, die einen cAMP-abhängigen auf Förster-Resonanz-Energietransfer(FRET)-basierenden Biosensor, lokalisiert in der SERCA2a-Mikrodomäne, in vivo exprimiert. Mit Hilfe von Echtzeit-FRET-Messungen an frisch isolierten, lebenden Kardiomyozyten wurden die Beiträge der am Herzen relevanten Phosphodiesterase(PDE)-Familien zur Begrenzung des lokalen cAMP-Pools in der SERCA2a-Domäne 12 Wochen nach Myokardinfarkt gemessen und mit einer Kontrollgruppe (Sham) verglichen. Hierbei zeigte sich, dass in der Mikrodomäne sowohl unter Ruhebedingungen, als auch nach β-adrenerger Vorstimulation, eine signifikante Aktivitätsminderung der PDE4, verglichen mit der Sham-Gruppe, nachweisbar ist. Da dies mit Veränderungen im lokalen cAMP-Pool der die SERCA2a reguliert einhergeht, bietet diese Studie also eine interessante Grundlage für die weitere Untersuchung der im Krankheitsfall auftretenden Funktionsabweichungen.

610

Herzinsuffizienz

cAMP

Förster-Resonanz-Energietransfer

SERCA2a

PDE4

FRET

post-Myokardinfarkt Mausmodell

Phosphodiesterase 4

cAMP

PDE4

Förster resonance energy transfer

heart failure

SERCA2a

FRET

myocardial infarction mouse model

phosphodiesterase 4

Medizin (PPN619874732)