Time Resolved Spectroscopy in InAs and InSb based Narrow-Gap Semiconductors

Bhowmick, Mithun

30 July 2012

As the switching rates in electronic and optoelectronic devices are pushed to even higher frequencies, it is crucial to probe carrier dynamics in semiconductors on femtosecond timescales. Time resolved spectroscopy is an excellent tool to probe the relaxation dynamics of photoexcited carriers; where after the initial photoexcitation, the nonequilibrium population of electrons and holes relax by a series of scattering processes including carrier-carrier and carrier-phonon scattering. Probing carrier and spin relaxation dynamics in InAs and InSb based narrow-gap semiconductors is crucial to understand the different scattering mechanisms related to the systems. Similar studies in InSb quantum wells are also intriguing, especially for their scientifically unique features (such as small effective mass, large g-factor etc). Our time resolved techniques demonstrated tunability of carrier and spin dynamics which might be important for charge and spin based devices. The samples studied in this work were provided by the groups of Prof. Wessels (Northwestern University) and Prof. Santos (University of Oklahoma). Theoretical calculations were performed by the group of Prof. Stanton (University of Florida). The THz measurements were performed at Wright State University in collaboration with Prof. Jason Deibel. This work has been supported by the National Science Foundation through grants Career Award DMR-0846834, AFOSR Young Investigator Program 06NE231. A portion of this work was performed at the National High Magnetic Field Laboratory (in collaboration with Dr. Stephen McGill), which is supported by National Science Foundation Cooperative Agreement No. DMR-0654118, the State of Florida, and the U.S. Department of Energy. / Ph. D.

Ferromagnetic Semiconductors

Narrow-Gap Semiconductors

Carrier and Spin Relaxation

InMnAs

InSb Quantum Wells

InMnSb

Time Resolved Spectroscopy

Measurements of Scalar Convection Velocity in Heated and Unheated High-Speed Jets

Shea, Sean Patrick

14 November 2018

Jet noise has been a growing concern in recent years due to the costs associated with hearing loss of United States service members. Jet noise is also becoming more of a concern due to the rise of civilian complaints regarding the noise of jets near civilian and military air stations. One source of noise generation is from packets of air called eddies, which move with a convection velocity Uc. The current work seeks to expand upon the understanding of jet noise by collecting data using Time-resolved Doppler global velocimetry (TR-DGV) from regions of the jet known to produce high levels of acoustic radiation. Past experiments in studying convection velocity are reviewed based on the technique for obtaining the velocities. To add to these experiments, the current work analyzes data obtained using TR-DGV applied to a perfectly expanded Mach 1.65 flow with total temperature ratio (TTR) equal to 1. Additional measurements were obtained on a Mach 1.5 nozzle operated at a slightly over expanded condition and at TTR = 2. The cold jet flow is compared to the past experiments on unheated jets and demonstrates good agreement with respect to normalized convection velocities based on the jet exit speed. The data is then compared to past experiments conducted on the same nozzle at heated conditions. Shadowgraph imaging is used as a qualitative tool to locate shock cells within the jet plume. TR-DGV data from near the lipline (r = 0.5D) is axially aligned with the shadowgraph images to demonstrate that the shock structure within the potential core causes detectable variations in the scalar convective velocity. Additionally, it is shown that in the heated and unheated Mach 1.65 jet and the over expanded heated Mach 1.48 jet that the convection velocity does increase beyond the potential core. The Mach 1.48 jet is also compared to mean velocities obtained using Particle Image Velocimetry and found that the convective and mean velocities were only similar in some regions of the jet. A discussion is provided on suggestions of future work on where to obtain data within the jet plume and how to collect the data using current capabilities. Suggestions are also provided for improving data quality in future experiments, as well as ideas for future investigations into convection velocity along the length of the jet plume using TR-DGV. / Master of Science / Jet noise has been a growing concern in recent year due to the costs associated with hearing loss of United States service members. Additionally, many civilians complain about the noise of aircraft flying both out of military facilities and commercial airports. One source of noise generation is from packets of air called eddies which move with a convection velocity. Researchers have identified that by affecting the convection velocities of these eddies, there is a larger benefit than other traditional methods such as engine chevrons. The current work summarizes techniques used to investigate convective velocity as well as to provide evidence for other unconfirmed theories. This study focuses on using a laser-based technique to obtain data within the flow of an unheated supersonic jet. An unheated jet is studied to allow for easy comparison to other experiments that have used different diagnostic techniques. Additionally, this case is studied to complete a set of experiments that were previously conducted on the same nozzle so that there is a true base-line or “control” case for future work. Later in this paper, analysis will be done to show how shocks within the jet affect the convective velocity. A combination of both quantitative and qualitative efforts are performed to accomplish this. Additionally, it will be shown that after the potential core of the jet breaks down, there is an increase in the local convective velocity in this region immediately after the potential core. Finally, a brief summary will be given and suggestions for future work will be presented.

Time-resolved Doppler Global Velocimetry

Scalar Convection Velocity

Unheated Supersonic Jets

Heated Supersonic Jets

Understanding Solvent Effect On Triplet State Structure Of Thioxanthone And Its Derivatives Using Time-Resolved Resonance Raman Spectroscopy

Pandey, Rishikesh

09 1900

It has long been recognized that course and efficiency of a chemical reaction is largely mediated by the short-lived transient species (excited state or radicals) which are formed as reactive intermediates during a chemical reaction. Subtle changes not only in the bonding and electronic distributions but also in the conformations and geometries of these intermediates have a dramatic influence on the reactivity. A detailed understanding of the structural and dynamical aspects of electronic excited states is therefore essential towards unraveling photoinduced natural processes and for designing novel photonic materials. Time-resolved techniques have been widely used to study the transient species (or intermediates) formed during photochemical and photophysical reactions for better understanding of the reaction mechanism and dynamics. Time-resolved absorption spectroscopy is a promising tool to study the temporal dynamics and the kinetics of photophysical processes. But the absorption spectra of species in solution usually consist of broad spectral band revealing little or no information about the structure of the transient species under investigation. Time-resolved resonance Raman (TR3) spectroscopy, on the other hand, is a potential sensitive modality, which not only allows one to study the dynamics but also provides the vibrational structure of the transient species of interest in microsecond to picosecond time scale. Moreover, by choosing the wavelength of excitation one can selectively probe the particular transient species from a complex molecular system especially a biological molecule. Thioxanthone (TX) is well known for its dramatic solvatochromic behavior and has drawn enormous attention in the recent years. The objective of present thesis has been to understand the solvent-induced structural changes on the lowest excited triplet state of TX and its derivatives. We have primarily employed nanosecond TR3 spectroscopy, a pump-probe technique, to investigate structure of the lowest excited triplet state. Transient absorption experiments have also been carried out to study the excited electronic states. In order to substantiate our experimental findings and also to get more insight into the triplet-state structure, we have performed density functional theory (DFT) calculations. The polarizable continuum solvation model has been employed to account for the solvent effect into the computation. Time dependent (TD) -DFT calculations have also been performed to get the energy and the structure of the excited states. The present thesis has been divided into eight chapters. Chapter 1 gives brief literature review on photochemistry and photophysics of TX and the introduction to the TR3 technique. In this chapter we have briefly introduced key concepts which form the basis of the thesis. Chapter 2 covers the experimental and theoretical methodologies used in the present thesis work. The major components of the TR3 spectrometer as well as the important technical aspect of the TR3 technique have been discussed in detail. In the section of the theoretical method, basic concepts of the computational method, density functional theory and key concepts related to the solvation are briefly discussed. Chapter 3 focuses on a systematic vibrational study of the ground and lowest triplet states of TX. TR3 experiments have been carried out and the observed vibrational frequencies have been assigned. It has been observed that electronic excitation distorts the molecule, enabling the increased electron delocalization in the central ring keeping the ground state symmetry intact. The largest structural reorganization is observed in the central ring of TX, consisting of an oxygen atom. Normal mode analyses show that the normal mode composition is significantly influenced by the electronic excitation. The C=C stretching and C=O stretching modes are coupled to a greater extent in the triplet state as compared to the ground state. In the ground state, the two high-frequency modes can be assigned almost exclusively to the C=O stretching and C=C stretching, whereas in the triplet state, both of these coordinates have comparable contributions to the two totally symmetric modes. Chapter 4 deals with a very unique observation of simultaneous detection of two triplets. This is the first time when two triplet states have been simultaneously deleted using TR3 experiments. We have performed TR3 experiments in wide variety of solvents differing in their polarities and hydrogen atom donor abilities. The transient Raman signal has been observed from both n - π∗ and π - π∗ triplet states simultaneously. The population ratio of the two triplet states has been found to be dependent on the solvent polarity. Additionally, the excitation wavelength study has revealed that the relative ratios of the transient Raman peaks (assigned to two different triplet states) change with the excitation wavelength. Our claim of simultaneous detection of two triplets has been reconfirmed by triplet quenching experiments carried out at different temperature. It has also been observed that the CO bond length is very sensitive to the solvent polarity and specific interactions play an important role in determining the structure of lowest triplet-state. In Chapter 5, we focus on the understanding of the effect of chlorine substitution on the lowest excited triplet state of TX. TR3 spectroscopy has been used as an experimental tool to study the vibrational structure of 2-chlorothioxanthone (CTX). TR3 results indicate the coexistence of two lowest triplet states in the thermal equilibrium akin to the parent compound. The above observation has been further substantiated by probe wavelength dependent study. The configuration of the T1 state has been assigned to π – π∗, whereas the T2 state has been ascribed as n - π∗. The population ratio of 3n - π∗ to 3 π - π ∗ triplet states has been found to be more for CTX as compared to TX which has been substantiated by the flash photolysis experiments. Chapter 6 highlights the influence of solvent effect on lowest triplet state structure of CTX. Transient absorption spectroscopy has been employed to understand the triplet state electronic structure; whereas solvent induced changes in the structure of the lowest triplet state have been studied using TR3 spectroscopy. Time-resolved absorption measurements show that solvent polarity has dramatic dependence on the wavelength of T1 - Tn absorption maximum. A good correlation between the wavelength of T1 - Tn absorption maximum and ET(30) value of the solvent is observed. TR3 experiments carried out in solvents of varying polarities indicate that the contribution of n - π∗ character to the lowest excited triplet state increases with the increase in the solvent polarity. Both transient absorption and TR3 studies reveal that specific solvent effect is more pronounced in comparison to the nonspecific solvent effect. Chapter 7 of the thesis deals with the study on the triplet state structure and solvent effect on 2-trifluoromethyl Thioxanthone. Flash photolysis in tandem with TR3 spectroscopy has been employed to understand both the electronic and the vibrational structures of this pharmaceutically important thioxanthone derivative. Experiments have also been carried out in solvents of varying polarities to study solvent-induced changes in the triplet-state electronic spectra. We have observed the coexistence of two lowest triplet states alike the parent compound. The T1 state has been assigned to π - π∗ state, whereas n - π∗ configuration has been attributed to the T2 state. The wavelength of triplet-triplet absorption maximum of the lowest triplet state has been found to be sensitive to the solvent polarity and good correlation has been observed with the ET(30) value. The transient Raman results indicate that the CF3 substitution leads to increase in the population ratio of n - π∗ and π - π ∗ triplet states. Finally, Chapter 8 contains overall summary of the thesis and future directions of the present investigation.

Solvent Polarity Scale

Thioxanthone (TX)

Ketones

Thioxanthone - Triplet State Structure

Triplet State Structure

2-chlorothioxanthone (CTX)

Time-Resolved Resonance Raman Study

Physical Chemistry

Femtosecond pump probe spectroscopy of light harvesting complexes and Phthalocyanines

Ombinda-Lemboumba, Saturnin

12 1900

Thesis (PhD)--Stellenbosch University, 2011. / ENGLISH ABSTRACT: The generation of ultrafast light pulses and the development of time resolved spectroscopic techniques, such as the femtosecond pump probe spectroscopy technique, have facilitated the study of ultrafast energy transfer in the photosynthetic systems of green plants and photodynamic therapy drugs. It has allowed the investigation of biological and chemical processes that take place on the ultrafast timescale and has allowed us to obtain spectral and kinetic information on energy transfer. In addition, it has allowed time resolved experiments in which the transient absorption of species under investigation was observed and has elucidated molecular dynamics. In the present work this was done with a temporal resolution of approximately 200 fs and covering a pump-to-probe delay range of 300 fs to 2 ns. The main aims of this study were to characterise the femtosecond pump probe spectroscopy system, to investigate the energy transfer in the natural light harvesting complex II (LHC II) in view of future expansion to the study of synthesized arti cial functional light harvesting complexes and nally to study ultrafast processes in zinc phthalocyanine (ZnPc) systems. In photosynthetic organisms, LHC II is the most abundant light harvesting complex and it plays an important role in light harvesting and photoprotection. The light energy is absorbed by light harvesting complexes and transferred to a reaction centre (RC) in an ultrafast timescale. Phthalocyanines are a new class of photosensitiser used for photodynamic therapy. These drugs are used to treat small and super cial tumours. The energy transfer from the singlet excited state to the triplet excited state occurs on an ultrafast timescale. However, recent work done on zinc phthalocyanine has proved that the determination of the ultrafast component remains a challenge. Several ultrafast studies carried out on ZnPc in solvents have been not only unsuccessful to give a clear picture of the ultrafast dynamics but have also produced divergent results. In this study, a characterisation of the femtosecond pump probe spectroscopy setup was done. The samples under investigation were probed by a white light continuum. The generation of the white light continuum introduced chirp, which in uenced the temporal evolution of the transient absorption results. The technique used to correct the chirp introduced by white light generation is discussed in detail. Our femtosecond pump probe spectroscopy setup was benchmarked by using a well known dye, namely malachite green. In addition, the investigation of the transient absorption change of LHC II, an active component in photosynthesis, as extracted from spinach leaves and the ultrafast dynamics of a promising photosensitiser ZnPc in dimethyl sulfoxide (DMSO) as well as in dimethyl formamide (DMF) was done. The spectral and dynamic results obtained using these three samples are described and exponential ts to the absorbance decay curves used to estimate the timescales of the energy transfer processes are presented. In this experiment, the dynamics and measured time constants related to the energy transfer between the different types of chlorophyll in LHC II was monitored, whereas with ZnPc, the dynamics and the measured time constants associated with solvation dynamics and vibrational relaxation was examined. / AFRIKAANSE OPSOMMING: Die vorming van ultravinnige lig pulse en die ontwikkeling van tyd opgelosde spektroskopiese tegnieke, soos die femtosekonde pomp proef spektroskopie tegniek, het die studie van ultravinnige energie oordrag in fotosintetiese stelsels van groen plante en chemiese prosesse gefasiliteer, wat kan plaasvind op die ultravinnige tyd skaal en laat dit toe om spektrale en kinetiese informasie oor die energie oordrag te kan bepaal. Dit het ook dit moontlik gemaak om tyd opgelosde eksperimente te kan doen waarin ons veranderlike absorbsie van die monster kon ondersoek en die molekulere dinamika kon ontrafel. In hierdie werk is dit gedoen met n tyd resolusie van omtrent 200 fs termyl 'n pomp-tot-proef tydvertraging van 300 fs tot 2 ns gebruik is. Die hoof doelwitte van hierdie werk was om 'n femtosekonde pomp proef spektroskopie stelsel te karakteriseer, die energie oordrag in die natuurlike ligoes kompleks II te ondersoek met die toekomstige uitbreiding van die studie na sintetiese lig-oes komplekse as oogmerk en laastens om ultravinnige prosesse in Sink Ftalosianiene stelsels te ondersoek. In fotosintetiese organismes, is lig oes kompleks II die mees volop lig oes kompleks en speel 'n belangrike rol in lig oes en foto skerming. Die lig energie word geabsorbeer deur lig oes komplekse en dan oorgedra na reaksie middelpunte in 'n ultravinnige tydskaal. Ftalosianiene is 'n nuwe klas fotosensiteerder wat gebruik word in fotodinamiese terapie. Hierdie dwelms word gebruik om klein en oppervlakkige gewasse te behandel. Die energie oordrag van die opgewekte singlet tot die triplet toestand vind plaas op die ultravinnige tydskaal. Onlangse navorsingswerke het getoon dat die bepaling van die ultravinnige komponent 'n uitdaging bly. Verskeie vorige ondersoeke is gedoen op Sink Ftalosianiene in verskeie oplosmiddels, en nie net het hierdie studies nie 'n helder prentjie verskaf van die ultravinnige dinamika nie, maar het ook divergerende resultate opgelewer. In hierdie werk word 'n karakterisering van die femtosekonde pomp proef spektroskopie stelsel gedoen. Die monsters is ondersoek met 'n wit lig kontinuum proef. Die vorming van die wit lig kontinuum het tjirp veroorsaak, wat die tyd evolusie van die veranderlike absorbsie resultate beinvloed het. Die tegniek wat gebruik was om die tjirp te korregeer word bespreek. Ons femtosekonde pomp proef spektroskopie stelsel is gestandardiseer deur die welbekende kleurstof malachiet groen. Ons het ook die veranderlike absorbsie van lig oes kompleks II ondersoek, 'n aktiewe komponent in fotosintese, soos dit onttrek is uit spinasie blare, asook die ultravinnige dinamika van die belowende photosensitizer Sink Ftalosianiene in DMSO asook DMF. Die spektrale en dinamiese resultate verkry vanaf hierdie drie monsters word beskryf en eksponensiele passings aan die absorbsie verval kurwes is gebruik om die tydskale van die energie oordrag prosesse te skat. In hierdie eksperiment is dinamika en gemete tydkonstantes waargeneem wat toegeskryf kan word aan die energie oordrag tussen verskillende soorte chloro l in lig oes kompleks II. In die Sink Ftalosianien eksperimente is dinamika en gemete tydkonstantes waargeneem wat toegeskryf kan word aan solverings dinamika asook vibrasionele ontspanning.

Light harvesting complexes

Zinc phthalocyanines

Time-resolved spectroscopy

Pump-probe spectroscopy

Dissertations -- Physics

Theses -- Physics

Transient absorption measurement

Measurements of exciton diffusion in conjugated polymers

Shaw, Paul E.

January 2009

The exciton diffusion length, which is the distance an exciton can diffuse in its lifetime, is an important parameter that has a critical impact on the operation of many organic optoelectronic devices, including organic solar cells, light emitting diodes and lasers. Knowledge of the exciton diffusion length can be a powerful aid for the design and optimisation of these devices. This thesis details the development of techniques based on time-resolved fluorescence for measuring the exciton diffusion in organic semiconductors. Two main methods were used to investigate exciton diffusion in the conjugated polymers P3HT, MEH-PPV and F8BT: the surface quenching technique and exciton-exciton annihilation. In particular, the surface quenching technique was adapted to avoid some of the potential pitfalls that have plagued earlier measurements. Using a titania quencher, measurements were performed using the surface quenching technique and fitted with an exciton diffusion model, allowing the calculation of the exciton diffusion length. Results from measurements of the exciton-exciton annihilation rate, which is a diffusion controlled process, where in good agreement with those from surface quenching, confirming the robustness of this twofold approach. A novel method for the control of the β-phase conformation in PFO films was used to produce films containing varying concentrations of β-phase. Exciton-exciton annihilation was used to investigate exciton diffusion in these films, revealing a gradual rise with increasing β-phase fraction due to improved interconnectivity. This work demonstrates how simple processing techniques can be used to control both film morphology and the exciton diffusion. The thickness dependence of the photoluminescence lifetime in conjugated polymers is a phenomenon that has so far received little attention and, thus, remained unexplained. This study demonstrates that it is not due to exciton quenching by external factors, but can be explained by a change in the morphology with decreasing film thickness.

547.135

Oligomérisation des récepteurs couplés au protéines G de la famille de la vasopressine et de l’ocytocine : mise en évidence dans les tissus natifs / Vasopressin and oxytocin family G-protein coupled receptors oligomerization : proof in native tissues

Cottet, Martin

21 January 2013

Les récepteurs couplés aux protéines G forment une grande famille de récepteurs transmembranaires. De nombreuses études montrent que ces récepteurs présenteraient une tendance à interagir entre eux et à former des oligomères. Ces structures sont toutefois sujettes à controverse. En effet, très peu d'éléments permettent d'affirmer que ces oligomères existeraient dans les tissus natifs, la plupart des caractérisations se faisant en systèmes hétérologues. Nous avons donc développé une approche basée d'une part sur l'utilisation de ligands fluorescents pour marquer les récepteurs dans leur environnement natif et d'autre part sur le FRET (Fluorescence Resonance Energy Transfer) en temps résolu en utilisant des cryptates de lanthanides, en particulier le Lumi4-Tb. Nous avons ainsi pu montrer et publier l'existence d'oligomères du récepteur de l'ocytocine dans la glande mammaire. Le protocole de cette étude a aussi été publié et a été validé pour la mise en évidence d'hétéro-oligomères, plus précisément entre les récepteurs V1a et V2 de la vasopressine. La poursuite de l'étude de ce phénomène dans les tissus natifs nous a poussés à développer notre propre dispositif de microscopie FRET en temps résolu. Ce dispositif est basé sur un microscope en champ large auquel nous avons ajouté une source laser pour l'excitation pulsée et une caméra CCD Multigate pour la détection. Nous en présentons ici les premiers résultats ainsi que sa validation pour l'utilisation de multiples fluorophores accepteurs avec une contamination minimale par le Lumi4-Tb. Enfin, nous proposons un modèle pharmacologique montrant l'utilisation de ligands bivalents pour étudier le couplage des oligomères. / G-protein coupled receptors form a very large family of transmembrane receptors. Numerous studies have shown that these receptors showed a tendency to interact and form oligomers. These structures are however the matter of great debate. Indeed, very few elements allow us to maintain that these oligomers could exist in native tissues, most studies being carried out in heterologous systems. We have therefore developed an approach based for one part on the use of fluorescent ligands to label receptors in their native environment, and on the other part on time-resolved FRET (Fluorescence Resonance Energy Transfer) by using lanthanide cryptates, more specifically Lumi4-Tb. We have thus been able to show and publish the existence of oxytocin receptor oligomers in the mammary gland. The protocol used for this study was also published and validated for the study of hetero-oligomers, more specifically between vasopressin V1a and V2 receptors. Following on our study of oligomers in native tissues, we have developed our own setup to perform time-resolved FRET microscopy. This setup is based on a wide field microscope to which we added a laser source for the pulsed excitation and a Multigate CCD camera for imaging. We are here presenting the first results as well as its validation for the use of multiple acceptor fluorophores with minimal bleed through from the Lumi4-Tb. Lastly, we propose a pharmacological model showing the use of bivalent ligands to study oligomer coupling.

Rcpg

Vasopressine ocytocine

Tissus natifs

Oligomérisation

FRET en temps résolu

Microscopie

Rcpg

Vasopressin oxytocin

Native tissues

Oligomerization

Time-resolved FRET

Microscopy

The effect of intermolecular interactions and disorder on exciton diffusion in organic semiconductors

Haji Masri, Mohammad K. Z.

January 2015

This thesis presents studies of exciton diffusion in organic semiconductors measured using exciton-exciton annihilation and the measurements were performed on materials important for organic solar cells. In the conjugated polymer poly(3-hexylthiophene) (P3HT), the effect of molecular weight (4-76 kgmol⁻¹) was explored. Using exciton-exciton annihilation measurements, the highest diffusion coefficient was observed in the intermediate molecular weight region and was correlated with long conjugation lengths, higher fraction of aggregated states and more delocalised excitons within the aggregate. The results demonstrated that the molecular weight dependence is due to a complex relationship between intermolecular interactions, aggregate size and Boltzmann statistics. This thesis also includes an investigation of exciton diffusion in diketopyrrolopyrrole(DPP)-based small molecules as a function of molecular structure. Significant changes in photophysical and exciton diffusion properties were observed due to minor changes in molecular structure. Long conjugation lengths, bulky side chains or reduced steric hindrance due to absence of end alkyl chains correlated with reduced film crystallinity and reduced diffusion coefficients. The increase in disorder observed due to large conformational torsions resulted in inhomogeneous broadening of density of states and as a result exciton diffusion becomes dispersive. In this case, a slowdown of exciton diffusion is observed. This study demonstrates that enhanced exciton diffusion can be achieved by designing more rigid and planar conjugated backbones with smaller conjugation lengths. Finally, exciton diffusion measurements were used to rationalise the performance of T3 truxene oligomers as explosive sensors. Side chain lengths were found to have a subtle influence on exciton diffusion. Time-resolved PL quenching measurements were used to estimate the quencher concentration. Differences in quencher concentration were observed suggesting different interaction strengths of the quencher with the truxene oligomer which help explain the explosive sensing performance.

537.6

Nanodispersion et développement de traceurs fluorescents / Nanodispersion and fluorescent tracers development

Ould Metidji, Mahmoud

21 October 2016

L'étude de la dispersion de matériaux inorganiques dans des médias organiques et aqueux est un facteur déterminant pour leur mise en œuvre industrielle. Ces matériaux trouvent leur application dans de nombreux domaines allant de l'industrie pétrolière à celle du polissage. Nous nous sommes intéressés à la stabilité de ces matériaux dans des médias tels que : (i) les solvants aqueux utilisés pour la formulation de suspensions abrasives, (ii) les eaux d'exploitations pétrolières et (iii) le pétrole brut et ses dérivés. Ceci dans le but d'améliorer les propriétés de luminescence de ces matériaux pour l'industrie pétrolière et les propriétés abrasives pour l'industrie du polissageNous avons ainsi développé des formulations stables de complexes de lanthanides (Ln) dérivés du DOTA et de nanoparticules (NPs) de sulfure de zinc dopées au manganèse, dans le but de tracer les eaux d'injections pétrolières. Ces matériaux ont été détecté par fluorescence en temps-résolu (TRF) et ce afin de contourner les problématiques liées à l'auto-fluorescence des produits pétroliers présents dans les eaux d'exploitation. Nous avons également étudié la dispersion de composés spécifiques dans des carburants, dans le but de proposer des nouveaux marqueurs anticontrefaçon pour le pétrole brut et ses dérivés. Enfin, nous avons cherché à améliorer la dispersion de nanoparticules de diamant dans des médias aqueux et ce afin d'optimiser l'efficacité des suspensions abrasives à base diamantées, utilisées pour le polissage du saphir plan a / The dispersion of inorganic materials in organic and aqueous media is a decisive factor for their industrial implementation. These materials are used in many areas from the oil industry to polishing. Herein, we focus on studying the stability of these materials in different media such as: (i) the aqueous solvents used for the formulation of abrasive slurries, (ii) the waters of oil operations and (iii) crude oil and its derivatives. Our objective is to improve the luminescence properties of these materials for the oil industry and the abrasive properties for polishing applications.We have developed stable formulations of lanthanide complexes (Ln) derived from DOTA and nanoparticles (NPs) of zinc sulfide doped with manganese for water-management in oil fields. These materials were characterized by time-resolved fluorescence (TRF) to solve the problems associated with the auto-fluorescence of petroleum products in the operating water.Furthermore, we studied the dispersion of specific compounds in different fuels in order to develop new anti-counterfeiting markers for crude oil and its derivatives. Finally, we tried to improve the dispersion of diamond nanoparticles in aqueous media in order to enhance the efficiency of diamond abrasive suspensions based for polishing sapphire a-plan

Traceur

Marqueur

Lanthanide

Nanoparticules

Pétrole

Fluorescence

Temps-résolu

Spectroscopie

Tracer

Marker

Lanthanides

Nanoparticles

Petroleum

Fluorescence

Time-resolved

Spectroscopy

543.56

Time-resolved measurements of charge carrier dynamics and optical nonlinearities in narrow-bandgap semiconductors

Olson, Benjamin Varberg

01 May 2013

All-optical time-resolved measurement techniques provide a powerful tool for investigating critical parameters that determine the performance of infrared photodetector and emitter semiconductor materials. Narrow-bandgap InAs/GaSb type-II superlattices (T2SLs) have shown great promise as a next generation source of these materials, due to superior intrinsic properties and versatility. Unfortunately, InAs/GaSb T2SLs are plagued by parasitic Shockley-Read-Hall recombination centers that shorten the carrier lifetime and limit device performance. Ultrafast pump-probe techniques and time-resolved differential transmission measurements are used here to demonstrate that Ga-free InAs/InAsSb T2SLs and InAsSb alloys do not have this same limitation and thus have significantly longer carrier lifetimes. Measurements at 77 K provided minority carrier lifetimes of 9 μs and 3 μs for an unintentionally doped mid-wave infrared (MWIR) InAs/InAsSb T2SL and InAsSb alloy, respectively; a two order of magnitude increase compared to the 90 ns minority carrier lifetime measured in a comparable MWIR InAs/GaSb T2SL. Through temperature-dependent lifetime measurements, the various carrier recombination processes are differentiated and the dominant mechanisms identified for each material. These results demonstrate that these Ga-free materials are viable options over InAs/GaSb T2SLs for potentially improved infrared photodetectors. In addition to carrier lifetimes, the drift and diffusion of excited charge carriers through the superlattice growth layers (i.e. vertical transport) directly affects the performance of photodetectors and emitters. Unfortunately, there is a lack of information pertaining to vertical transport, primarily due to difficulties in making measurements on thin growth layers and the need for non-standard measurement techniques. However, all-optical ultrafast techniques are successfully used here to directly measure vertical diffusion in MWIR InAs/GaSb T2SLs. By optically generating excess carriers near one end of a MWIR T2SL and measuring the transit time to a thin, 2 lower-bandgap superlattice placed at the other end, the time-of-flight of vertically diffusing carriers is determined. Through investigation of both unintentionally doped and p-type superlattices at 77 K, the vertical hole and electron diffusion coefficients are determined to be 0.04±0.03 cm2/s and 4.7±0.5 cm2/s, corresponding to vertical mobilities of 6±5 cm2/Vs and 700±80 cm2/Vs, respectively. These measurements are, to my knowledge, the first direct measurements of vertical transport properties in narrow-bandgap superlattices. Lastly, the widely tunable two-color ultrafast laser system used in this research allowed for the investigation of nonlinear optical properties in narrow-bandgap semiconductors. Time-resolved measurements taken at 77 K of the nondegenerate two-photon absorption spectrum of bulk n-type GaSb have provided new information about the nonresonant change in absorption and two-photon absorption coefficients in this material. Furthermore, as the nondegenerate spectrum was measured over a wide range of optical frequencies, a Kramers-Kronig transformation allowed the dispersion of the nondegenerate nonlinear refractive index to be calculated.

carrier lifetimes

InAs/GaSb superlattices

InAs/InAsSb superlattices

time-resolved pump-probe

type-II superlattices

vertical transport

Physics

Lanthanides and quantum dots : time-resolved laser spectroscopy of biochemical Förster Resonance Energy Transfer (FRET) systems

Hildebrandt, Niko

January 2006

Förster Resonance Energy Transfer (FRET) plays an important role for biochemical applications such as DNA sequencing, intracellular protein-protein interactions, molecular binding studies, in vitro diagnostics and many others. For qualitative and quantitative analysis, FRET systems are usually assembled through molecular recognition of biomolecules conjugated with donor and acceptor luminophores. Lanthanide (Ln) complexes, as well as semiconductor quantum dot nanocrystals (QD), possess unique photophysical properties that make them especially suitable for applied FRET. In this work the possibility of using QD as very efficient FRET acceptors in combination with Ln complexes as donors in biochemical systems is demonstrated. The necessary theoretical and practical background of FRET, Ln complexes, QD and the applied biochemical models is outlined. In addition, scientific as well as commercial applications are presented. FRET can be used to measure structural changes or dynamics at distances ranging from approximately 1 to 10 nm. The very strong and well characterized binding process between streptavidin (Strep) and biotin (Biot) is used as a biomolecular model system. A FRET system is established by Strep conjugation with the Ln complexes and QD biotinylation. Three Ln complexes (one with Tb3+ and two with Eu3+ as central ion) are used as FRET donors. Besides the QD two further acceptors, the luminescent crosslinked protein allophycocyanin (APC) and a commercial fluorescence dye (DY633), are investigated for direct comparison. FRET is demonstrated for all donor-acceptor pairs by acceptor emission sensitization and a more than 1000-fold increase of the luminescence decay time in the case of QD reaching the hundred microsecond regime. Detailed photophysical characterization of donors and acceptors permits analysis of the bioconjugates and calculation of the FRET parameters. Extremely large Förster radii of more than 100 Å are achieved for QD as acceptors, considerably larger than for APC and DY633 (ca. 80 and 60 Å). Special attention is paid to interactions with different additives in aqueous solutions, namely borate buffer, bovine serum albumin (BSA), sodium azide and potassium fluoride (KF). A more than 10-fold limit of detection (LOD) decrease compared to the extensively characterized and frequently used donor-acceptor pair of Europium tris(bipyridine) (Eu-TBP) and APC is demonstrated for the FRET system, consisting of the Tb complex and QD. A sub-picomolar LOD for QD is achieved with this system in azide free borate buffer (pH 8.3) containing 2 % BSA and 0.5 M KF. In order to transfer the Strep-Biot model system to a real-life in vitro diagnostic application, two kinds of imunnoassays are investigated using human chorionic gonadotropin (HCG) as analyte. HCG itself, as well as two monoclonal anti-HCG mouse-IgG (immunoglobulin G) antibodies are labeled with the Tb complex and QD, respectively. Although no sufficient evidence for FRET can be found for a sandwich assay, FRET becomes obvious in a direct HCG-IgG assay showing the feasibility of using the Ln-QD donor-acceptor pair as highly sensitive analytical tool for in vitro diagnostics. / Förster Resonanzenergietransfer (FRET) spielt eine wichtige Rolle in biochemischen Anwendungen, wie z.B. DNA-Sequenzierung, intrazellulären Protein-Protein-Wechselwirkungen, molekularen Bindungsstudien, in-vitro-Diagnostik und vielen anderen. Zur quantitativen und qualitativen Analyse werden FRET Systeme normalerweise durch molekulare Erkennung von Biomolekülen, die mit Donator- und Acceptorluminophoren markiert sind, ermöglicht. Durch die besonderen photophysikalischen Eigenschaften sowohl von Lanthanidkomplexen (Ln-Komplexen), als auch Halbleiternanokristallen (sog. Quantenpunkten oder Quantumdots - QD), sind diese besonders für FRET Anwendungen geeignet. In der vorliegenden Arbeit wird effizienter FRET zwischen Ln-Komplexen und QD in biochemischen Systemen demonstriert. Die notwendigen theoretischen und praktischen Grundlagen über FRET, Ln-Komplexe, QD und die verwendeten biochemischen Modelle werden dargestellt, und wissenschaftliche als auch kommerzielle Anwendungen werden präsentiert. FRET kann zur Messung von strukturellen Veränderungen und Dynamiken im Bereich von ca. 1 bis 10 nm verwendet werden. Der sehr starke und gut charakterisierte Bindungsprozess zwischen Streptavidin (Strep) und Biotin (Biot) wird als biomolekulares Modellsystem eingesetzt. Ein FRET System wird durch Streptavidinkonjugation mit Ln-Komplexen und QD-Biotinylierung etabliert. Drei Ln-Komplexe (einer mit Tb3+ und zwei mit Eu3+ als Zentralion) werden als Donatoren verwendet, und neben QD werden zwei weitere Acceptoren, das lumineszierende, quervernetzte Protein Allophycocyanin (APC) und ein kommerzieller Fluoreszenzfarbstoff (DY633), untersucht. FRET kann für alle Donator-Acceptor Paare nachgewiesen werden, zum einen durch sensibilisierte Acceptorlumineszenz und zum anderen durch eine über 1000-fach erhöhte Lumineszenzabklingzeit der QD mit über 100 Mikrosekunden. Mittels detailierter photophysikalischer Charakterisierung der Donatoren und Acceptoren können die Biokonjugate analysiert und die FRET Parameter berechnet werden. Für die QD FRET Systeme ergeben sich extrem große Försterradien von über 100 Å, die wesentlich größer sind als für APC und DY633 (ca. 80 bzw. 60 Å). Besondere Aufmerksamkeit gilt der Wechselwirkung mit den Zusatzreagenzien Boratpuffer, Bovines Serumalbumin (BSA), Natriumazid und Kaliumfluorid (KF) in den wässrigen Lösungen. Im Vergleich zum ausgiebig charakterisierten und vielfach verwendeten Donator-Acceptor Paar aus Europium-tris(Bipyridin) (Eu-TBP) und APC wird eine mehr als 10-fache Senkung der Nachweisgrenze für das FRET-System, bestehend aus Tb-Komplex und QD, erreicht. In azidfreiem Boratpuffer (pH 8,3) mit 2 % BSA und 0,5 M KF wird eine subpicomolare QD-Nachweisgrenze für dieses System aufgezeigt. Um den Transfer des Strep-Biot Modellsystems in eine echte in-vitro-diagnostische Anwendung zu demonstrieren, werden zwei Immuntests zum HCG-(Humanes Choriongonadotropin)-Nachweis untersucht. Sowohl HCG als auch monoklonale anti-HCG Maus-IgG-(Immunoglobulin G)-Antikörper werden mit dem Tb-Komplex bzw. mit QD markiert. Obwohl kein ausreichender Nachweis für FRET in einem immunometrischen Assay (oder Sandwichassay) erbracht werden kann, wird FRET in einem direkten HCG-IgG Assay erzielt, wodurch die Realisierbarkeit von Ln-QD Donator-Acceptor Paaren zur hochsensitiven Anwendung in der in-vitro-Diagnostik gezeigt werden kann.

FRET

Lanthanide

Quantenpunkte

Zeitaufgelöster Immunoassay

Spektroskopie

FRET

Lanthanides

Quantum Dots

Time-resolved Immunoassay

Spectroscopy

Chemistry and allied sciences