@phdthesis{Jahn2003,
  author    = {Jahn, Andreas},
  title     = {Zerebrale Nahinfrarotspektroskopie bei Neugeborenen : Eine Untersuchung mit dem "CRITIKON 2020 Cerebral RedOx Monitor"},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-8772},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2003},
  abstract  = {Fr{\"u}hgeborene und schwerkranke Neugeborene haben ein hohes Risiko f{\"u}r eine zerebrale Sch{\"a}digung durch Hypoxie und Isch{\"a}mie. Mit der Entwicklung der Nahinfrarotspektroskopie kam die Hoffnung auf, eine nicht-invasive, kontinuierliche {\"U}berwachungsmethode der zerebralen Perfusion und Oxygenierung zu erhalten. Der „CRITIKON™ 2020 Cerebral RedOx Monitor" wurde als ein Nahinfrarot-spektroskopie-Ger{\"a}t f{\"u}r den klinischen Einsatz zugelassen, welches erstmals die M{\"o}glichkeit einer Quantifizierung der Messparameter regionale Sauerstoffs{\"a}ttigung, sowie reduziertes und oxygeniertes H{\"a}moglobin garantieren sollte. Letztere sollten die Bestimmung der Konzentration des gesamten H{\"a}moglobins als Perfusionsparameter erm{\"o}glichen. In der vorliegenden Studie wurde an 103 Fr{\"u}h- und Neugeborenen mit einem Gestationsalter von 24 bis 42 Wochen und einem Geburtsgewicht zwischen 380 und 4990 Gramm untersucht, ob sich Signalqualit{\"a}t und Messwerte bei unterschiedlichen Sensorpositionen am kindlichen Kopf unterscheiden und welche Einfl{\"u}sse das Lebensalter bei den Verlaufsuntersuchungen zwischen dem 1. und 30. Lebenstag sowie die sich ver{\"a}ndernden Bilirubin- und H{\"a}moglobinkonzentrationen auf die Messergebnisse haben. Hierzu wurden insgesamt 1893 Messungen ausgewertet. Die Position des Sensors war entscheidend f{\"u}r eine erfolgreiche Messung. Die Ableitung der Messwerte auf der Stirn f{\"u}hrte zu signifikant weniger gescheiterten Messversuchen als bei parietaler Sensorposition (2,3 \% vs. 25,3 \%; p<0,001). Das Anbringen des Sensors seitlich der Mittellinie der Stirn (Sagittallinie) ca. 2 cm {\"u}ber den Augenbrauen erwies sich am geeignetesten um nicht Gef{\"a}ssstrukturen beider Hemisph{\"a}ren zu erfassen. In den ersten dreissig Lebenstagen wurden bei frontal-seitlicher Sensorposition, vor allem f{\"u}r die H{\"a}moglobinparameter, signifikant niedrigere Messwerte ermittelt als zentral oder parietal (p<0,001). Als Hauptursache ist der relativ grosse Abstand sowohl zu den grossen intrakraniellen Blutgef{\"a}ssen der temporo-parietalen Region als auch zur Arteria cerebri anterior und dem ven{\"o}sen Sinus sagittalis im Frontalkortexbereich anzusehen. Die optischen Eigenschaften des zerebralen und extrazerebralen Gewebes differieren zwischen den Kopfregionen und beeintr{\"a}chtigten vor allem parietal signifikant die Signalqualit{\"a}t. Der Einfluss des extrazerebralen Gewebes auf das NIRS-Signal scheint bei Neugeborenen, im Gegensatz zu erwachsenen Patienten, vor allem im Stirnbereich vernachl{\"a}ssigbar. Es zeigte sich eine signifikante positive Korrelation zwischen dem Gestationsalter und den Messergebnissen f{\"u}r die NIRS-H{\"a}moglobinparameter (0,54 = r = 0,82; p<0,01). Hierf{\"u}r k{\"o}nnten Verschiebungen zwischen den unterschiedlich vaskularisierten Gewebeklassen im Gehirn des Neugeborenen zwischen der 25. und 42. postkonzeptionellen Woche und ihre Auswirkungen auf die optischen Eigenschaften mitverantwortlich sein. Sowohl das totale H{\"a}moglobin als auch die regionale Sauerstoffs{\"a}ttigung zeigten einen tendenziellen R{\"u}ckgang im Verlauf des ersten Lebensmonats. Gruppen- und parameterspezifisch konnten signifikante Abnahmen zum 5. und 30. Lebenstag (p<0,05) dargestellt werden. Die im Verlauf abfallende H{\"a}moglobinkonzentration im Blut k{\"o}nnte dazu beitragen. Sie korreliert signifikant mit der Abnahme der NIRS-Messwerte f{\"u}r die regionale Sauerstoffs{\"a}ttigung (r = 0,81; p<0,05). Die Bilirubinkonzentration im Blutplasma hat bei Neugeborenen allenfalls geringen Einfluss auf das NIRS-Signal. Die vorliegenden Ergebnisse zeigen, dass in den meisten F{\"a}llen Messungen des totalen H{\"a}moglobins und der regionalen Sauerstoffs{\"a}ttigung bei Fr{\"u}h- und Neugeborenen mit dem „CRITIKON™ 2020 Cerebral RedOx Monitor" bereits in den ersten Lebenstagen zu reproduzierbaren Ergebnissen f{\"u}hren, ohne dabei die Patienten zu beeintr{\"a}chtigen. Klinische Folgerungen aus den quantifizierten Angaben sollten jedoch derzeit mit Vorsicht gezogen werden, da die Ergebnisse neben m{\"o}glichen weiteren nicht untersuchten Einfl{\"u}ssen bereits alleine durch die Sensorposition, das Gestations- und Lebensalter, sowie den individuellen H{\"a}moglobinwert nicht unerheblich beeinflusst werden. Weiterf{\"u}hrende Studien und die Erarbeitung von Normwerttabellen sind notwendig. Bis dahin empfehlen sich f{\"u}r die klinischen Anwendungen nur Messungen relativer Unterschiede wie beispielsweise bei Verlaufsstudien einzelner Patienten unter Einfluss therapeutischer Massnahmen.},
  language  = {de}
}
@phdthesis{Moigno2001,
  author    = {Moigno, Damien},
  title     = {Study of the ligand effects on the metal-ligand bond in some new organometallic complexes using FT-Raman and -IR spectroscopy, isotopic substitution and density functional theory techniques},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-3101},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2001},
  abstract  = {The present studies which have been performed in the work-group C-2 (Prof. W. Kiefer) within the program of the Sonderforschungsbereichs 347, deal with the FT-Raman and -IR spectroscopy on new organometallic complexes, synthesized in the work-groups B-2 (Prof. W. Malisch), B-3 (Prof. W. A. Schenk), D-1 (Prof. H. Werner) and D-4 (Prof. D. Stalke). The FT-Raman spectra recorded at 1064 nm led to very useful and interesting information. Furthermore, the DFT calculations which are known to offer promise of obtaining accurate vibrational wavenumbers, were successfully used for the assignment of the vibrational spectra. For the first time it has been possible to ascribe exactly the n(RhC) stretching mode in the vinylidene rhodium(I) complex trans-[RhF(=C=CH2)(PiPr3)2] by using isotopic substitution, in conjunction with theoretical calculations. This is also true for the complexes trans-[RhF(CO)(PiPr3)2], trans-[RhF(C2H4)(PiPr3)2], trans-[RhX(=C=CHPh)(PiPr3)2] (X = F, Cl, Br, I, Me, PhCºC) and trans-[RhX(CN-2,6-xylyl)(PiPr3)2] (X = F, Cl, Br, I, CºCPh). In addition, the comparison between the n(RhC) wavenumbers of the complexes trans-[RhF(=13C=13CH2)(PiPr3)2] and trans-[RhF(CO)(PiPr3)2], containing the isoelectronic ligands 13C=13CH2 and CO, which have the same reduced mass, indicated that the Rh-C bond is stronger in the carbonyl than in the vinylidene complex. Besides, the n(RhF) stretching mode, which has been observed at higher wavenumbers in the FT-Raman and -IR spectra of trans-[RhF(CO)(PiPr3)2], showed that the carbonyl ligand is a better p-acceptor and a less effective s-donor than the vinylidene one. Moreover, the comparison of the n(CºC) and n(Rh-C) modes from the FT-Raman spectrum of the complexes trans-[Rh(CºCPh)(L)(PiPr3)2] (L = C=CHPh, CO, CN-2,6-xylyl) point out that the p-acceptor ability of the ligand trans to CºCPh should rise in the order C=CH2 < CO < CN-2,6-xylyl \pounds C=CHPh. The investigated sensitivity of the n(RhC), n(CC), n(CO) and n(CN) vibrational modes to the electronic modifications occuring in the vinylidene, carbonyl, ethylene and isonitrile complexes, should allow in the future the examination of the p-acceptor or p-donor properties of further ligands. Likewise, we were able to characterize the influence of various X ligands on the RhC bond by using the n(RhC) stretching mode as a probe for the weakening of this. The calculated wavenumbers of the n(RhC) for the vinylidene complexes trans-[RhX(=C=CHR)(PiPr3)2], where R = H or Ph, suggested that the strength of the Rh=C bond increases along the sequence X = CºCPh < CH3 < I < Br < Cl < F. For the series of carbonyl compounds trans-[RhX(CO)(PiPr3)2], where X = F, Cl, Br and I, analogous results have been obtained and confirmed from the model compounds trans-[RhX(CO)(PMe3)2]. Since, the calculated vibrational modes for the ethylene complex trans-[RhF(C2H4)(PiPr3)2] were in good agreement with the experimental results and supported the description of this complex as a metallacyclopropane, we were interested in getting more information upon this class of compounds. In this context, we have recorded the FT-Raman and -IR spectra of the thioaldehyde complexes mer-[W(CO)3(dmpe)(h2-S=CH2)] and mer-[W(CO)3(dmpe)(h2-S=CD2)] which have been synthezised by B-3. The positions of the different WL vibrational modes anticipated by the DFT calculations, were consistent with the experimental results. Indeed, the analysis of the band shifts in the FT-Raman and -IR spectra of the isotopomer mer-[W(CO)3(dmpe)(h2-S=CD2)] confirmed our assignment. The different stereoisomers of complex mer-[W(CO)3(dmpe)(h2-S=CH2)] were investigated too, since RMN and IR-data have shown that complex mer-[W(CO)3(dmpe)(h2-S=CH2)] lead in solution to an equilibrium. Since the information on the vibrational spectra of the molybdenum and tungsten complexes Cp(CO)2M-PR2-X (M = Mo, W; R = Me, tBu, Ph; X = S, Se) is very scarce, we extended our research work to this class of compounds. We have tried to elucidate the bonding properties in these chalcogenoheterocycle complexes by taking advantage of the mass effect on the different metal atoms (W vs. Mo). Thus, the observed band shifts allowed to assign most of the ML fundamental modes of these complexes. This project and the following one were a cooperation within the work-group B-2. The Raman and IR spectra of the matrix isolated photoproducts expected by the UV irradiation of the iron silyl complex Cp(CO)2FeSiH2CH3 have been already reported by Claudia Fickert and Volker Nagel in their PhD-thesis. Since no exact assignment was feasible for these spectra, we were interested in the study of the reaction products created by irradiation of the carbonyl iron silyl complex Cp(CO)2FeCH2SiH3. Although the calculated characteristic vibrational modes of the metal ligand unit for the various photoproducts are significantly different in constitution, they are very similar in wavenumbers, which did not simplify their identification. However, the theoretical results have been found to be consistent with the earlier experimental results. Finally, the last part of this thesis has been devoted to the (2-Py)2E- anions which exhibit a high selectivity toward metal-coordination. All di(2-pyridyl) amides and -phosphides which were synthesized by D-4, coordinate the R2Al+ fragment via both ring nitrogen atoms. This already suggests that the charge density in the anions is coupled into the rings and accumulated at the ring nitrogen atoms, but the Lewis basicity of the central nitrogen atom in Et2Al(2-Py)2N is still high enough to coordinate a second equivalent AlEt3 to form the Lewis acid base adduct Et2Al(2-Py)2NAlEt3. Due to the higher electronegativity of the central nitrogen atom in Me2Al(2-Py)2N, Et2Al(2-Py)2N and Et2Al(2-Py)2NAlEt3, compared to the bridging two coordinated phosphorus atom in Me2Al(2-Py)2P and Et2Al(2-Py)2P, the di(2-pyridyl)amide is the hardest Lewis base. In the phosphides merely all charge density couples into the rings leaving the central phosphorus atom only attractive for soft metals. These results were confirmed by using DFT and MP2 calculations. Moreover, a similar behaviour has been observed and described for the benzothiazolyl complex [Me2Al{Py(Bth)P}], where complementary investigations are to be continued. The DFT calculations carried out on the model compounds analysed in these studies supply very accurate wavenumbers and molecular geometries, these being in excellent agreement with the experimental results obtained from the corresponding isolated complexes.},
  subject      = {{\"U}bergangsmetallkomplexe},
  language  = {en}
}
@phdthesis{AlBaidhani2018,
  author    = {Al-Baidhani, Mohammed},
  title     = {Spectroscopy as a tool to investigate the high energy optical properties of nanostructured magnetically doped topological insulator},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-157221},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2018},
  abstract  = {In this dissertation the electronic and high-energy optical properties of thin nanoscale films of the magnetic topological insulator (MTI) (V,Cr)y(BixSb1-x)2-yTe3 are studied by means of X-ray photoelectron spectroscopy (XPS) and electron energy-loss spectroscopy (EELS). Magnetic topological insulators are presently of broad interest as the combination of ferromagnetism and spin-orbit coupling in these materials leads to a new topological phase, the quantum anomalous Hall state (QAHS), with dissipation less conduction channels. Determining and controlling the physical properties of these complex materials is therefore desirable for a fundamental understanding of the QAHS and for their possible application in spintronics. EELS can directly probe the electron energy-loss function of a material from which one can obtain the complex dynamic dielectric function by means of the Kramers-Kronig transformation and the Drude-Lindhard model of plasmon oscillations. The XPS core-level spectra in (V,Cr)y(BixSb1-x)2-yTe3 are analyzed in detail with regards to inelastic background contributions. It is shown that the spectra can be accurately described based on the electron energy-loss function obtained from an independent EELS measurement. This allows for a comprehensive and quantitative analysis of the XPS data, which will facilitate future core-level spectroscopy studies in this class of topological materials. From the EELS data, furthermore, the bulk and surface optical properties were estimated, and compared to ab initio calculations based on density functional theory (DFT) performed in the GW approximation for Sb2Te3. The experimental results show a good agreement with the calculated complex dielectric function and the calculated energy-loss function. The positions of the main plasmon modes reported here are expected to be generally similar in other materials in this class of nanoscale TI films. Hence, the present work introduces EELS as a powerful method to access the high-energy optical properties of TI thin films. Based on the presented results it will be interesting to explore more systematically the effects of stoichiometry, magnetic doping, film thickness and surface morphology on the electron-loss function, potentially leading to a better understanding of the complex interplay of structural, electronic, magnetic and optical properties in MTI nanostructures.},
  subject      = {Topologischer Isolator},
  language  = {en}
}
@article{WolterAizezersFenneletal.2012,
  author    = {Wolter, Steffen and Aizezers, Janis and Fennel, Franziska and Seidel, Marcus and W{\"u}rthner, Frank and K{\"u}hn, Oliver and Lochbrunner, Stefan},
  title     = {Size-dependent exciton dynamics in one-dimensional perylene bisimide aggregates},
  series = {New Journal of Physics},
  volume    = {14},
  journal   = {New Journal of Physics},
  number    = {105027},
  doi       = {10.1088/1367-2630/14/10/105027},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-135190},
  year      = {2012},
  abstract  = {The size-dependent exciton dynamics of one-dimensional aggregates of substituted perylene bisimides are studied by ultrafast transient absorption spectroscopy and kinetic Monte-Carlo simulations as a function of the excitation density and the temperature in the range of 25-90 degrees C. For low temperatures, the aggregates can be treated as infinite chains and the dynamics is dominated by diffusion-driven exciton-exciton annihilation. With increasing temperature the aggregates dissociate into small fragments consisting of very few monomers. This scenario is also supported by the time-dependent anisotropy deduced from polarization-dependent experiments.},
  language  = {en}
}
@phdthesis{Buchner2003,
  author    = {Buchner, Stefan},
  title     = {Quantitative 31P-MR-Spektroskopie am menschlichen Herzen und Etablierung von SLOOP am Skelettmuskel},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-9071},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2003},
  abstract  = {Die vorliegende Arbeit setzt sich mit dem Einsatz der 31P-Magnetresonanzspektroskopie (MRS) zur Untersuchung des menschlichen Herz- und Skelettmuskelstoffwechsels auseinander: [1] Mit der Anwendung und Implementierung der akquisitionsgewichteten CSI (AW-CSI) am menschlichen Herzen konnten wir den Einsatz dieser neuen Methode zur 31P-MR-Bildgebung am klinischen MR-Ger{\"a}t etablieren. [2] Mit dem erstmaligen Einsatz von SLOOP am Skelettmuskel zur nicht-invasiven Quantifizierung des Energiestoffwechsels mit 31P-MRS erarbeiteten wir neue Untersuchungsprotokolle und konnten sie erfolgreich bei Probanden anwenden. [3] Mit der 31P-MRs konnten wir durch Bestimmung des PCr/ATP Verh{\"a}ltnisses Einfl{\"u}sse und Ver{\"a}nderungen im Energiestoffwechsel sowohl im infarzierten als auch im nicht-infarzierten Myokard bei Patienten mit vitalem und avitalem anterioren Infarkt nachweisen (FAST). [4] Mit der klinischen Anwendung von SLOOP wurden subklinische Stoffwechselver{\"a}nderungen bei Patienten mit multipler Sklerose (MS) und bei mit Mitoxantron (MX) therapierten MS-Patienten eruiert. [5] Mit dem erstmalig kombinierten Einsatz von SLOOP bei neuromuskul{\"a}ren Erkrankungen wie myotoner Dystrophie (DM1) und proximaler myotoner Myopathie (PROMM/DM2) wurden Zusammenh{\"a}nge zwischen Krankheitsdauer, Krankheitsverlauf, Muskelschw{\"a}che und dem kardialen und skelettmuskul{\"a}ren Energiestoffwechsel untersucht, um zus{\"a}tzliche Informationen zum Verst{\"a}ndnis der Pathogenese und Entwicklung von DM1 und PROMM/DM2 zu gewinnen.},
  language  = {de}
}
@phdthesis{Schoeppler2012,
  author    = {Sch{\"o}ppler, Friedrich Eugen},
  title     = {Photolumineszenzmikroskopie und-spektroskopie halbleitender Kohlenstoffnanor{\"o}hren},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-73329},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2012},
  abstract  = {Im Rahmen dieser Dissertation wurden optische Eigenschaften von halbleitenden, einwandigen Kohlenstoffnanor{\"o}hren (SWNTs) der (6,5)-Chiralit{\"a}t untersucht. Dies gelang durch Ensemblemessungen aber vor allem durch den Aufbau eines Mikroskops zur Messung an einzelnen SWNTs. Dieses Einzel- SWNT-Mikroskop erm{\"o}glichte nebst „normaler" Bildgebung durch Sammlung und Abbildung der nahinfraroten Photolumineszenz (PL) der (6,5)-SWNTs auch die spektral- und zeitaufgel{\"o}ste Untersuchung der PL. Durch Verwendung von Dichtegradientenultrazentrifugation (DGU) zur chiralen Aufreinigung des SWNT-Rohmaterials konnten alle Messungen unter Minimierung des st{\"o}renden Einflusses von Aggregaten oder SWNTs anderer Chiralit{\"a}t durchgef{\"u}hrt werden. Untersucht und bestimmt wurde der Absorptionsquerschnitt und die Exzitonengr{\"o}ße, die PL-Eigenschaften aggregierter SWNTs und der Einfluß der Permittivit{\"a}t auf die PL einzelner SWNTs.},
  subject      = {Mikroskopie},
  language  = {de}
}
@phdthesis{Wagner2003,
  author    = {Wagner, Joachim},
  title     = {Optische Charakterisierung von II-VI-Halbleiter-Oberfl{\"a}chen in Kombination mit First-Principles-Rechnungen},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-8722},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2003},
  abstract  = {In dieser Arbeit sind Methoden der optischen Spektroskopie, insbesondere die Ramanspektroskopie (RS) und die Reflexions-Anisotropie-Spektroskopie (RAS), angewandt worden, um die Oberfl{\"a}chen von II-VI Halbleitern zu charakterisieren. F{\"u}r die experimentellen Untersuchungen wurde eine eigens f{\"u}r diesen Zweck entwickelte UHV-Optikkammer benutzt. Diese einzigartige M{\"o}glichkeit, II-VI Halbleiterproben aus einer state-of-the-art MBE-Anlage mit einer UHV-Optikanlage zu kombinieren hat gezeigt, dass optische Spektroskopie sehr gut daf{\"u}r geeignet ist, strukturelle Eigenschaften, z.B. Rekonstruktionen, und chemische Bindungen an Oberfl{\"a}chen, sowie die damit verbundene Schwingungsdynamik zu analysieren. Neben den experimentellen Arbeiten wurden u. a. first principles Rechnungen mittels der Dichtefunktionaltheorie im Rahmen der Lokalen-Dichte-Approximation durchgef{\"u}hrt. Damit konnten f{\"u}r die Oberfl{\"a}chen einerseits ihre geometrischen Eigenschaften, d.h die atomare Anordnung der Oberfl{\"a}chenatome, und andererseits auch ihre Dynamik, d.h. die Schwingungsfrequenzen und die Auslenkungsmuster der an der Rekonstruktion beteiligten Atome der Oberfl{\"a}che und der oberfl{\"a}chennahen Schichten, im Rahmen der Frozen-Phonon-N{\"a}herung bestimmt werden. Die Kombination von experimenteller und theoretischer Vibrationsbestimmung von Oberfl{\"a}chen bietet also, neben den klassischen Oberfl{\"a}chen-Analysemethoden wie RHEED, LEED, XPS, Auger und SXRD, ein zus{\"a}tzliches Werkzeug zur Charakterisierung von Oberfl{\"a}chen. Da die Frozen-Phonon-N{\"a}herung nicht elementarer Bestandteil des hier benutzten DFT-Programmcodes fhi96md ist, wurde diese Erweiterung im Rahmen dieser Arbeit durchgef{\"u}hrt. Die theoretische Berechnung von Schwingungsfrequenzen mit dynamischen Matrizen ist in einem Unterkapitel dargestellt. Die so berechneten Schwingungsfrequenzen f{\"u}r verschiedene Oberfl{\"a}chen-Rekonstruktionen konnten erfolgreich am Beispiel der reinen BeTe(100)-Oberfl{\"a}che mit den experimentell mit der UHV-Ramanspektroskopie beobachteten Frequenzen verglichen werden. So gelang erstmalig die optische identifizierung von rekonstruktionsinduzierten Eigenschwingungen einer Oberfl{\"a}che. Nach detaillierter Kenntnis der BeTe(100)-Oberfl{\"a}che wurde die Ramanspektroskopie als Sonde benutzt, um die Entwicklung der BeTe-Oberfl{\"a}che bei unterschiedlichen Behandlungen (Modifikation) zu verfolgen. Dabei dienten die fr{\"u}heren Ergebnisse als Referenzpunkte, um die modifizierten Spektren zu erkl{\"a}ren. Zus{\"a}tzlich wurde ein Konzept zur Passivierung der Te-reichen BeTe(100)-Oberfl{\"a}che entwickelt, um diese Proben ohne einen technisch aufwendigen UHV-Transportbeh{\"a}lter {\"u}ber gr{\"o}ssere Entfernungen transportieren zu k{\"o}nnen (z.B. zu Experimenten an einem Synchrotron). Mit der RAS wurden auch die Oberfl{\"a}chen von weiteren Gruppe II-Telluriden, n{\"a}mlich die Te-reiche (2x1) CdTe(100)-Oberfl{\"a}che, die Te-reiche (2x1) MnTe(100)-Oberfl{\"a}che und die Hg-reiche c(2x2) HgTe(100)-Oberfl{\"a}che untersucht. Schließlich wurde der Wachstumsstart von CdSe auf der BeTe(100)-Oberfl{\"a}che im Bereich weniger Monolagen (1-5 ML) CdSe analysiert, wobei die hohe Empfindlichkeit der Ramanspektroskopie bereits den Nachweis einer Monolage CdSe erlaubte.},
  subject      = {Zwei-Sechs-Halbleiter},
  language  = {de}
}
@phdthesis{Andrei2007,
  author    = {Andrei, Horia-Sorin},
  title     = {Infrared photodissociation spectroscopy of ionic hydrocarbons : microsolvation and protonation sites},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-24652},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2007},
  abstract  = {This work has presented a spectroscopic analysis of three types of hydrocarbon cations: two ionized aromatic hydrocarbons, two protonated aromatic hydrocarbons and the cation of a fundamental radical hydrocarbon. The experiments were centered on the proton stretch vibrations of mass-selected complexes of these systems and polar (H2O) and non polar (Ar, N2, CO2) ligands. The experiments have been done in a tandem mass spectrometer coupled with an electron impact ionization ion source; an OPO laser system was used as tunable IR light source. All the proposed dimer structures have been also modeled using quantum chemical calculations (QCC). These calculations have consistently been matched with the experimental results and have enabled clear identification of the spectral features observed. This has enabled the evaluation of thermochemical properties which could not be extracted directly from experiment. The experiments done on complexes of 1-Np+ and Im+ have allowed for the acidity of their various groups to be probed: the shifts in the frequency as well as the enhancement in the intensity of the OH and NH stretch vibrations resulting from the complexation have yielded dependences on both the species (L) and the number (n) of the ligands. OH bound 1-Np+···Ar has been detected for the first time, showing that the REMPI-IRPD method is severely limited with respect to the production of the most stable isomer of a given cationic complex. The detection of c-1-Np+···(N2)n corresponds to the first observation of c-1-Np+ complexes and enables thus direct comparison of both 1-Np+ rotamers. The shift of the NH vibration of Im+···N2(H) yielded the first experimental estimate for the PA of the imidazyl radical. It was also found that the most stable 1-Np+···Ar and Im+···Ar structures differ qualitatively from that of the corresponding neutral dimers (H-bound vs pi-bound), emphasizing the large impact of ionization on the interaction potential and the preferred recognition motif between acidic aromatic molecules (A) and nonpolar ligands. The IRPD spectra of 1-Np+···Ln and Im+···Ln yielded spectroscopic information about the CH, NH and OH stretch vibrations of bare 1-Np+ and Im+. The dependence of the shifts in the frequency of the OH and NH stretch vibrations allows for creating microsolvation models. The spectroscopic results obtained on size-selected 1-NpH+···Ln show that, in the output of the presently used ion source, three classes of 1-NpH+ isomers can be identified: oxonium ions (1-Np protonated at the O atom); carbenium ions obtained by protonation in the para and ortho positions with respect to the OH functional group; carbenium ions obtained by the addition of a proton to well-defined sites on the second naphthalene ring. The spectral identification of these three classes of protonation sites is supported by their different photofragmentation patterns. It was demonstrated that the spectroscopic monitoring of the microsolvation of ImH+ in Ar and N2 together with the QCCs paint a very detailed picture of the microsolvation process, evidencing clear differences between the microsolvation models as function of the PA of the ligands. Important differences have also been identified between the various binding sites, enabling the creation of a clear scale of priorities for occupation of the binding sites during microsolvation. The application of IRPD to the study of microhydrated ImH+ provided for the first time direct spectroscopic information on the properties of the N-H bonds of this biomolecular building block under controlled microhydration. It was demonstrated that, as protonation enhances the acidity of the NH groups, the ability for proton conductivity of ImH+ increases. A very important result is derived from the IRPD spectroscopy of C2H5+···L (L = Ar, N2, CO2, CH4) dimers. The equilibrium geometry of the C2H5+ has long been debated. Now, IRPD spectra were recorded over the range of the CH stretch fundamentals (covering possible sp3 and sp2 hybridization of C). Depending on the ligand species, the spectra are found to be dominated by the fingerprint of two largely different dimer geometries. Using the experimental C2H5+···Ar spectrum and the corresponding QCCs, the structure of the (weakly perturbed) C2H5+ was found to be the nonclassical one, with one proton straddling across the C=C bond of the H2C=CH2. On the other hand, ligands like N2 and CH4 are strongly influencing the geometry, as seen in the spectral signatures of the C2H5+···N2 and C2H5+···CH4, which correspond to the classical [H2CCH3]+. It was thus demonstrated that while the nonclassical C2H5+ is the global minimum on the PES of the free [C2,H5]+, the structure of the C2H5+ can be strongly influenced by the chemical properties of the environment.},
  subject      = {Infrarot},
  language  = {en}
}
@unpublished{AuerhammerArrowsmithBissingeretal.2017,
  author    = {Auerhammer, Dominic and Arrowsmith, Merle and Bissinger, Philipp and Braunschweig, Holger and Dellermann, Theresa and Kupfer, Thomas and Lenczyk, Carsten and Roy, Dipak and Sch{\"a}fer, Marius and Schneider, Christoph},
  title     = {Increasing the Reactivity of Diborenes: Derivatization of NHC- Supported Dithienyldiborenes with Electron-Donor Groups},
  series = {Chemistry, A European Journal},
  journal   = {Chemistry, A European Journal},
  doi       = {10.1002/chem.201704669},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-155419},
  year      = {2017},
  abstract  = {A series of NHC-supported 1,2-dithienyldiborenes was synthesized from the corresponding (dihalo)thienylborane NHC precursors. NMR and UV-vis spectroscopic data, as well as X-ray crystallographic analyses, were used to assess the electronic and steric influences on the B=B double bond of various NHCs and electron-donating substituents on the thienyl ligands. Crystallographic data showed that the degree of coplanarity of the diborene core and thienyl groups is highly dependent on the sterics of the substituents. Furthermore, any increase in the electron- donating ability of the substituents resulted in the destabilization of the HOMO and greater instability of the resulting diborenes.},
  language  = {en}
}
@phdthesis{Schoell2003,
  author    = {Sch{\"o}ll, Achim},
  title     = {High-resolution investigation of the electronic structure of organic thin films},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-10809},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2003},
  abstract  = {Die vorliegende Arbeit befasst sich mit der elektronischen Struktur organischer D{\"u}nnfilme. Eine zentrale Frage dabei ist der Einfluss der Wechselwirkung zwischen den Molek{\"u}len in der kondensierten Phase und der Wechselwirkung an metall-organischen Grenzfl{\"a}chen auf die elektronischen Eigenschaften. Dazu wurden die experimentellen Methoden Photoelektronenspektroskopie (PES) und R{\"o}ntgenabsorptionsspektroskopie (NEXAFS) mit h{\"o}chster Energieaufl{\"o}sung angewandt. Zus{\"a}tzlich wurden ab initio Rechnungen zur theoretischen Simulation von NEXAFS Spektren durchgef{\"u}hrt. Haupts{\"a}chlich wurden d{\"u}nne, vakuumsublimierte Filme aromatischer Modellmolek{\"u}le mit sauerstoffhaltigen funktionellen Gruppen (NTCDA, PTCDA, NDCA, BPDCA und ANQ) auf Ag(111) Oberfl{\"a}chen untersucht. Die ausgew{\"a}hlten Molek{\"u}le besitzen wegen ihrer großen delokalisierten p-Elektronensysteme sehr interessante Eigenschaften f{\"u}r die Anwendung in elektronischen Bauelementen. Dank der hohen Energieaufl{\"o}sung von Synchrotronstrahlungsquellen der dritten Generation war es erstmals m{\"o}glich, die Schwingungsfeinstruktur in den NEXAFS Spektren dieser kondensierten großen Molek{\"u}le sichtbar zu machen. Der Vergleich der Daten verschiedener Molek{\"u}le liefert dabei interessante Einblicke in den Kopplungmechanismus zwischen dem elektronischen {\"U}bergang und der Schwingungsanregung. Obwohl die Molek{\"u}le eine Vielzahl verschiedener Schwingungsmoden besitzen, kann man in deren NEXAFS Spektren beobachten, dass die elektronischen {\"U}berg{\"a}nge jeweils an haupts{\"a}chlich eine Schwingungsmode koppeln. Die hochaufgel{\"o}sten XPS Spektren der Molek{\"u}le NTCDA, PTCDA, NDCA, BPDCA und ANQ zeigen bestimmte systematische Unterschiede, so dass diese Spektren als Fingerabdruck f{\"u}r die jeweilige Substanz verwendet werden k{\"o}nnen. Durch die vergleichende Auswertung der Spektren konnten die 1s Bindungsenergien aller chemisch unterschiedlichen Kohlenstoff- und Sauerstoffatome bestimmt werden. Zus{\"a}tzliche Strukturen in den Spektren k{\"o}nnen shake-up Satelliten zugeschrieben werden. Die f{\"u}nf Molek{\"u}le stellen ein ideales Modellsystem dar, um fundamentale Aspekte der Rumpfelektronenspektroskopie zu untersuchen, wie Anfangs- und Endzustandseffekte und Satelliten, die durch die intramolekulare und intermolekulare Elektronendichteverteilung im Grund- und rumpfionisierten Zustand beeinflusst werden. Ein wichtiger Punkt dieser Dissertation sind spektroskopische Untersuchungen strukturell unterschiedlicher NTCDA Monolagenphasen auf Ag(111), deren Existenz aus vorangegangenen Arbeiten bekannt ist. Deutliche Unterschiede in der elektronischen Struktur der verschiedenen Phasen, die auf die Metall-Adsorbat Wechselwirkung zur{\"u}ckzuf{\"u}hren sind, konnten sowohl mittels XPS als auch mittels NEXAFS aufgezeigt werden. Sowohl f{\"u}r die komprimierte also auch f{\"u}r die relaxierte NTCDA Monolage kann die Bindung ans Substrat als schwach chemisorptiv charakterisiert werden, was eindeutig aus der Analyse der Satellitenstrukturen in den O 1s und C 1s XPS Spektren hervorgeht, die durch die dynamische Abschirmung durch Ladungstransfer vom Substrat erzeugt werden. Die NEXAFS Daten zeigen konsistent eine teilweise Besetzung des NTCDA LUMOs. Sowohl f{\"u}r die komprimierte als auch f{\"u}r die relaxierte NTCDA Monolage finden hochinteressante Phasen{\"u}berg{\"a}nge in ungeordnete Tieftemperaturphasen beim Abk{\"u}hlen auf 160 K statt. Dabei wird die Adsorbat-Substrat Wechselwirkung st{\"a}rker und das LUMO wird vollst{\"a}ndig besetzt. Dies kann in den NEXAFS Spektren anhand des Verschwindens der zugh{\"o}rigen {\"U}berg{\"a}nge beobachtet werden. Die XPS Spektren zeigen gleichzeitig eine deutliche Abnahme der Intensit{\"a}t schlecht abgeschirmter Photoemissionszust{\"a}nde, was auf die nun effektivere Ladungstransferabschirmung zur{\"u}ckzuf{\"u}hren ist. F{\"u}r den Phasen{\"u}bergang der relaxierten Monolage konnte mittels temperaturabh{\"a}ngiger NEXAFS Messungen eindeutig ein Hystereseverhalten gezeigt und die Hysteresekurve bestimmt werden. Die Hysterese betr{\"a}gt etwa 20 K. Des weiteren wurde aus SPA-LEED Messungen die Aktivierungsenergie f{\"u}r den Phasen{\"u}bergang der relaxierten Monolage beim Abk{\"u}hlen auf ca. 60 meV bestimmt. Schließlich wurden NEXAFS Untersuchungen an Poly{\"a}thylenproben mit verschiedenem Komonomergehalt durchgef{\"u}hrt. Unterschiede in den Absorptionsspektren von Proben mit unterschiedlichem Komonomeranteil konnten eindeutig auf die unterschiedliche Kristallinit{\"a}t der Proben zur{\"u}ckgef{\"u}hrt werden, indem eine hochkristalline Probe in situ bis zur Schmelztemperatur geheizt wurde. Ab initio Rechnungen an einer Modelmatrix aus Butanmolek{\"u}len zeigen, dass die Spektren von kristallinem und amorphem Poly{\"a}thylen aufgrund der intermolekularen Wechselwirkung deutliche Unterschiede haupts{\"a}chlich f{\"u}r Resonanzen mit starkem Rydberg Charakter aufweisen. Damit lassen sich die Unterschiede in den Poly{\"a}thylenspektren durch die {\"U}berlagerung der Signaturen der kristallinen und amorphen Anteile erkl{\"a}ren, die je nach Kristallinit{\"a}t der Probe in unterschiedlichen Verh{\"a}ltnissen vorliegen.},
  subject      = {D{\"u}nne Schicht},
  language  = {en}
}
@article{GilbertMeffertSchmalzletal.2018,
  author    = {Gilbert, F. and Meffert, R. H. and Schmalzl, J. and Weng, A. M. and K{\"o}stler, H. and Eden, L.},
  title     = {Grade of retraction and tendon thickness correlates with MR-spectroscopically measured amount of fatty degeneration in full thickness supraspinatus tears},
  series = {BMC Musculoskeletal Disorders},
  volume    = {19},
  journal   = {BMC Musculoskeletal Disorders},
  number    = {197},
  doi       = {10.1186/s12891-018-2096-5},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-176116},
  year      = {2018},
  abstract  = {Background: The amount of fatty degeneration (FD) has major impact on the clinical result and cuff integrity after rotator cuff repair. A quantitative analysis with magnet resonance imaging (MRI) spectroscopy was employed to analyze possible correlation of FD with tendon retraction, tendon thickness and patients' characteristics in full thickness supraspinatus tears. Methods: Forty-two patients with full-thickness supraspinatus tears underwent shoulder MRI including an experimental spectroscopic sequence allowing quantification of the fat fraction in the supraspinatus muscle belly. The amount of fatty degeneration was correlated with tendon retraction, tendon thickness, patients' age, gender, smoker status, symptom duration and body mass index (BMI). Patients were divided in to three groups of retraction (A) 0-10 mm (n=), (B) 11-20 mm (n=) and (C) < 21 mm (n=) and the means of FD for each group were calculated. Results: Tendon retraction (R = 0.6) and symptom duration (R = 0.6) correlated positively, whereas tendon thickness correlated negatively (R = - 0.6) with the amount of FD. The fat fraction increased significantly with tendon retraction: Group (A) showed a mean fat mount of 3.7\% (±4\%), group (B) of 16.7\% (±8.2\%) and group (C) of 37.5\% (±19\%). BMI, age and smoker-status only showed weak to moderate correlation with the amount of FD in this cohort. Conclusion: MRI spectroscopy revealed significantly higher amount of fat with increasing grade of retraction, symptom duration and decreased tendon thickness. Thus, these parameters may indirectly be associated with the severity of tendon disease.},
  language  = {en}
}
@phdthesis{Noller2009,
  author    = {Noller, Bastian},
  title     = {Excited-State Dynamics of Organic Intermediates},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-36075},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2009},
  abstract  = {This thesis gives insights into the real-time dynamics of several free carbenes and radicals on a femtosecond and nanosecond time scale. The experiments were performed with radicals, singlet carbenes and triplet carbenes of various sizes. Several neutral excited states as well as the ionic ground state were characterized. Despite the relevance of such reactive intermediates in almost all chemical reactions, only relatively little experimental information on such systems is found in the literature. This is linked to the experimental challenge of producing such species under isolated conditions. The intermediates are formed from precursor molecules under interaction- free conditions by supersonic jet flash pyrolysis. The precursor molecules were synthetically designed to show clean thermal dissociation into one specific intermediate. A large variety of spectroscopic techniques was applied to study the intermediates. Each method augments the results of the other methods. This enabled to successfully approach the main goal of this thesis: to understand the excited-state dynamics of organic intermediates. The excited states were found to deactivate rapidly to the hot ground state. The observed fast decay is presumably linked to coupled electronically excited states and relaxation takes place by internal conversion or conical intersections. Further reactions then take place on the ground state surface. Absorption spectra, photodissociation dynamics, photoelectron spectra, ionization potentials, excited-state lifetimes and dissociative photoionization were elucidated by the measurements. Pulsed and continuous light sources were used over a large spectral range (UV, Vis, VUV). A well-defined amount of energy was deposited into the molecule. After internal conversion has taken place, a microcanonical ensemble of reactive intermediates can be studied. This data helps to understand the energetics and reaction channels of intermediates. Velocity map imaging enabled to monitor the pyrolysis efficiency in real time by analyzing photoion images. This observation facilitates clean intermediate generation. Experimental results were compared to quantum chemical calculations to aid the interpretation as well as to test the performance of theoretical approaches. Hydrocarbon radicals and carbenes are regarded as benchmark systems for computational methods due to their several low-lying electronic states and open-shell electronic configuration. The experimental data can help to identify and understand the contributions of the examined intermediates to the chemistry of high energy environments (e. g., hydrocarbon cracking reactors, interstellar space and combustion chambers). Here increased numbers of hydrocarbon intermediates are often present and usually have a strong impact on the overall reaction mechanism. Such environments contain in general a complex mixture of several different intermediates. The more spectroscopic and dynamic properties of each isolated intermediate are known, the easier it is to identify it among multiple components and to understand how it contributes to the overall reaction mechanism. Electronic excitation can take place by radiation, particle collisions or thermally at very high temperatures. How excited states influence the reaction mechanisms is still a matter of currant research.},
  subject      = {Excited-State Dynamics of Organic Intermediates},
  language  = {en}
}
@article{ReichmuthHenningPinneletal.2018,
  author    = {Reichmuth, Anne and Henning, Lea and Pinnel, Nicole and Bachmann, Martin and Rogge, Derek},
  title     = {Early detection of vitality changes of multi-temporal Norway spruce laboratory needle measurements—the ring-barking experiment},
  series = {Remote Sensing},
  volume    = {10},
  journal   = {Remote Sensing},
  number    = {1},
  doi       = {10.3390/rs10010057},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-159253},
  pages     = {57},
  year      = {2018},
  abstract  = {The focus of this analysis is on the early detection of forest health changes, specifically that of Norway spruce (Picea abies L. Karst.). In this analysis, we planned to examine the time (degree of early detection), spectral wavelengths and appropriate method for detecting vitality changes. To accomplish this, a ring-barking experiment with seven subsequent laboratory needle measurements was carried out in 2013 and 2014 in an area in southeastern Germany near Alt{\"o}tting. The experiment was also accompanied by visual crown condition assessment. In total, 140 spruce trees in groups of five were ring-barked with the same number of control trees in groups of five that were selected as reference trees in order to compare their development. The laboratory measurements were analysed regarding the separability of ring-barked and control samples using spectral reflectance, vegetation indices and derivative analysis. Subsequently, a random forest classifier for determining important spectral wavelength regions was applied. Results from the methods are consistent and showed a high importance of the visible (VIS) spectral region, very low importance of the near-infrared (NIR) and minor importance of the shortwave infrared (SWIR) spectral region. Using spectral reflectance data as well as indices, the earliest separation time was found to be 292 days after ring-barking. The derivative analysis showed that a significant separation was observed 152 days after ring-barking for six spectral features spread through VIS and SWIR. A significant separation was detected using a random forest classifier 292 days after ring-barking with 58\% separability. The visual crown condition assessment was analysed regarding obvious changes of vitality and the first indication was observed 302 days after ring-barking as bark beetle infestation and yellowing of foliage in the ring-barked trees only. This experiment shows that an early detection, compared with visual crown assessment, is possible using the proposed methods for this specific data set. This study will contribute to ongoing research for early detection of vitality changes that will support foresters and decision makers.},
  language  = {en}
}
@article{SungKimFimmeletal.2015,
  author    = {Sung, Jooyoung and Kim, Pyosang and Fimmel, Benjamin and W{\"u}rthner, Frank and Kim, Dongho},
  title     = {Direct observation of ultrafast coherent exciton dynamics in helical π-stacks of self-assembled perylene bisimides},
  series = {Nature Communications},
  volume    = {6},
  journal   = {Nature Communications},
  number    = {8646},
  doi       = {10.1038/ncomms9646},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-148157},
  year      = {2015},
  abstract  = {Ever since the discovery of dye self-assemblies in nature, there have been tremendous efforts to exploit biomimetic supramolecular assemblies for tailored artificial photon processing materials. This feature necessarily has resulted in an increasing demand for understanding exciton dynamics in the dye self-assemblies. In a sharp contrast with pi-type aggregates, however, the detailed observation of exciton dynamics in H-type aggregates has remained challenging. In this study, as we succeed in measuring transient fluorescence from Frenkel state of π-stacked perylene tetracarboxylic acid bisimide dimer and oligomer aggregates, we present an experimental demonstration on Frenkel exciton dynamics of archetypal columnar π-π stacks of dyes. The analysis of the vibronic peak ratio of the transient fluorescence spectra reveals that unlike the simple π-stacked dimer, the photoexcitation energy in the columnar π-stacked oligomer aggregates is initially delocalized over at least three molecular units and moves coherently along the chain in tens of femtoseconds, preceding excimer formation process.},
  language  = {en}
}
@phdthesis{Shen2021,
  author    = {Shen, Chia-An},
  title     = {Dicyanomethylene Squaraines: Aggregation and G-Quadruplex Complexation},
  doi       = {10.25972/OPUS-24359},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-243599},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2021},
  abstract  = {Squaraine dyes have attracted more attention in the past decade due to their strong and narrow absorption and fluorescence along with the easily functionalized molecular structure. One successful approach of core functionalization is to replace one oxygen of the squaric carbonyl group with a dicyanomethylene group, which shifts the absorption and emission into the near infrared (NIR) region and at the same time leads to a rigid, planar structure with C2v symmetry. However, such squaraines tend to aggregate cofacially in solution due to dispersion forces and dipole-dipole interactions, usually leading to H-type exciton coupling with undesired blue-shifted spectrum and quenched fluorescence. Therefore, the goal of my research was the design of dicyanomethylene-substituted squaraine dyes that self-assemble into extended aggregates in solution with J-type coupling, in order to retain or even enhance their outstanding optical properties. Toward this goal, bis(squaraine) dyes were envisioned with two squaraine units covalently linked to trigger a slip-stacked packing motif within the aggregates to enable J-type coupling. In my first project, bis(squaraine) dye BisSQ1 was synthesized, in which two dicyanomethylene squaraine chromophores are covalently linked. Concentration and temperature-dependent UV/Vis/NIR spectroscopy experiments reveal that BisSQ1 undergoes cooperative self-assembly resulting in J-type aggregates in a solvent mixture of toluene/1,1,2,2-tetrachloroethane (TCE) (98:2, v/v). The J type exciton coupling is evident from the significantly red shifted absorption maximum at 886 nm and the fluorescence peak at 904 nm. In conclusion, this was a first example to direct squaraine dye aggregation in solution to the more desired slip-stacked packing leading to J-type exciton coupling by simply connecting two dyes in a head-to-tail bis chromophore structure. Connecting two squaraine dyes with an additional phenylene spacer (BisSQ2) leads to two different polymorphs with very distinct absorption spectra upon cooling down a solution of BisSQ2 in a solvent mixture of toluene/TCE (98:2, v/v) with different rates. Accordingly, rapid cooling resulted in rigid helical nanorods with an absorption spectrum showing a panchromatic feature, while slow cooling led to a sheet-like structure with a significant bathochromic shift in the absorption spectrum. It was discovered that the conventional molecular exciton model failed to explain the panchromatic absorption features of the nanorods for the given packing arrangement, therefore more profound theoretical investigations based on the Essential States Model (ESM) were applied to unveil the importance of intermolecular charge transfer (ICT) to adequately describe the panchromatic absorption spectrum. Moreover, the red-shift observed in the spectrum for the sheet-like structure can be assigned to the interplay of Coulomb coupling and ICT-mediated coupling. Furthermore, the same bis-chromophore strategy was adopted for constructing an NIR-II emitter with a bathochromically-shifted spectrum. In chloroform, BisSQ3 exhibits an absorption maximum at 961 nm with a significant bathochromic shift (1020 cm-1) compared to the reference mono-squaraine SQ, indicating intramolecular J-type coupling via head-to-tail arrangement of two squaraine dyes. Moreover, BisSQ3 shows a fluorescence peak at 971 nm with a decent quantum yield of 0.33\%. In less polar toluene, BisSQ3 self-assembles into nanofibers with additional intermolecular J-type coupling, causing a pronounced bathochromic shift with absorption maximum at 1095 nm and a fluorescence peak at 1116 nm. Thus, connecting two quinoline-based squaraines in a head-to-tail fashion leads to not only intra-, but also intermolecular J-type exciton coupling, which serves as a promising strategy to shift the absorption and emission of organic fluorophores into the NIR-II window while retaining decent quantum yields. In conclusion, my research illustrates based on squaraine dyes how a simple modification of the molecular structure can significantly affect the aggregation behavior and further alter the optical properties of dye aggregates. Elongated supramolecular structures based on dicyanomethylene substituted squaraine dyes were successfully established by covalently linking two squaraine units to form a bis-chromophore structure. Then, a simple but efficient general approach was established to direct squaraine dye aggregation in solution to the more desired slip-stacked packing leading to J-type exciton coupling by directly connecting two squaraine dyes in a head-to-tail fashion without spacer units. Moreover, the additional spacer between the squaraine dyes in BisSQ2 allowed different molecular conformations, which leads to two different morphologies depending on the cooling rates for a hot solution. Hence, this is a promising strategy to realize supramolecular polymorphism. In general, it is expected that the concept of constructing J-aggregates by the bis-chromophore approach can be extended to entirely different classes of dyes since J-aggregates possess a variety of features such as spectral shifts into the NIR window, fluorescence enhancement, and light harvesting, which are commonly observed and utilized for numerous fundamental studies and applications. Moreover, the insights on short-range charge transfer coupling for squaraine dyes is considered of relevance for all materials based on alternating donor-acceptor π-systems. The panchromatic spectral feature is in particular crucial for acceptor-donor-acceptor (ADA) dyes, which are currently considered as very promising materials for the development of bulk heterojunction solar cells.},
  subject      = {Squaraine},
  language  = {en}
}
@article{GilbertBoehmEdenetal.2016,
  author    = {Gilbert, Fabian and B{\"o}hm, Dirk and Eden, Lars and Schmalzl, Jonas and Meffert, Rainer H. and K{\"o}stler, Herbert and Weng, Andreas M. and Ziegler, Dirk},
  title     = {Comparing the MRI-based Goutallier Classification to an experimental quantitative MR spectroscopic fat measurement of the supraspinatus muscle},
  series = {BMC Musculoskeletal Disorders},
  volume    = {17},
  journal   = {BMC Musculoskeletal Disorders},
  number    = {355},
  doi       = {10.1186/s12891-016-1216-3},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-147788},
  year      = {2016},
  abstract  = {Background The Goutallier Classification is a semi quantitative classification system to determine the amount of fatty degeneration in rotator cuff muscles. Although initially proposed for axial computer tomography scans it is currently applied to magnet-resonance-imaging-scans. The role for its clinical use is controversial, as the reliability of the classification has been shown to be inconsistent. The purpose of this study was to compare the semi quantitative MRI-based Goutallier Classification applied by 5 different raters to experimental MR spectroscopic quantitative fat measurement in order to determine the correlation between this classification system and the true extent of fatty degeneration shown by spectroscopy. Methods MRI-scans of 42 patients with rotator cuff tears were examined by 5 shoulder surgeons and were graduated according to the MRI-based Goutallier Classification proposed by Fuchs et al. Additionally the fat/water ratio was measured with MR spectroscopy using the experimental SPLASH technique. The semi quantitative grading according to the Goutallier Classification was statistically correlated with the quantitative measured fat/water ratio using Spearman's rank correlation. Results Statistical analysis of the data revealed only fair correlation of the Goutallier Classification system and the quantitative fat/water ratio with R = 0.35 (p < 0.05). By dichotomizing the scale the correlation was 0.72. The interobserver and intraobserver reliabilities were substantial with R = 0.62 and R = 0.74 (p < 0.01). Conclusion The correlation between the semi quantitative MRI based Goutallier Classification system and MR spectroscopic fat measurement is weak. As an adequate estimation of fatty degeneration based on standard MRI may not be possible, quantitative methods need to be considered in order to increase diagnostic safety and thus provide patients with ideal care in regard to the amount of fatty degeneration. Spectroscopic MR measurement may increase the accuracy of the Goutallier classification and thus improve the prediction of clinical results after rotator cuff repair. However, these techniques are currently only available in an experimental setting.},
  language  = {en}
}
@article{KasprzakSivalertpornAlbertetal.2013,
  author    = {Kasprzak, J. and Sivalertporn, K. and Albert, F. and Schneider, C. and H{\"o}fling, S. and Kamp, M. and Forchel, A. and Muljarov, E. A. and Langbein, W.},
  title     = {Coherence dynamics and quantum-to-classical crossover in an exciton-cavity system in the quantum strong coupling regime},
  series = {New Journal of Physics},
  volume    = {15},
  journal   = {New Journal of Physics},
  number    = {045013},
  issn      = {1367-2630},
  doi       = {10.1088/1367-2630/15/4/045013},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-123005},
  year      = {2013},
  abstract  = {Interaction between light and matter generates optical nonlinearities, which are particularly pronounced in the quantum strong coupling regime. When a single bosonic mode couples to a single fermionic mode, a Jaynes-Cummings (JC) ladder is formed, which we realize here using cavity photons and quantum dot excitons. We measure and model the coherent anharmonic response of this strongly coupled exciton-cavity system at resonance. Injecting two photons into the cavity, we demonstrate a \(\sqrt 2\) larger polariton splitting with respect to the vacuum Rabi splitting. This is achieved using coherent nonlinear spectroscopy, specifically four-wave mixing, where the coherence between the ground state and the first (second) rung of the JC ladder can be interrogated for positive (negative) delays. With increasing excitation intensity and thus rising average number of injected photons, we observe spectral signatures of the quantum-to-classical crossover of the strong coupling regime.},
  language  = {en}
}
@article{DauthWiessnerFeyeretal.2014,
  author    = {Dauth, M. and Wiessner, M. and Feyer, V. and Sch{\"o}ll, A. and Puschnig, P. and Reinert, F. and Kuemmel, S.},
  title     = {Angle resolved photoemission from organic semiconductors: orbital imaging beyond the molecular orbital interpretation},
  series = {New Journal of Physics},
  volume    = {16},
  journal   = {New Journal of Physics},
  issn      = {1367-2630},
  doi       = {10.1088/1367-2630/16/10/103005},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-115180},
  pages     = {103005},
  year      = {2014},
  abstract  = {Fascinating pictures that can be interpreted as showing molecular orbitals have been obtained with various imaging techniques. Among these, angle resolved photoemission spectroscopy (ARPES) has emerged as a particularly powerful method. Orbital images have been used to underline the physical credibility of the molecular orbital concept. However, from the theory of the photoemission process it is evident that imaging experiments do not show molecular orbitals, but Dyson orbitals. The latter are not eigenstates of a single-particle Hamiltonian and thus do not fit into the usual simple interpretation of electronic structure in terms of molecular orbitals. In a combined theoretical and experimental study we thus check whether a Dyson-orbital and a molecular-orbital based interpretation of ARPES lead to differences that are relevant on the experimentally observable scale. We discuss a scheme that allows for approximately calculating Dyson orbitals with moderate computational effort. Electronic relaxation is taken into account explicitly. The comparison reveals that while molecular orbitals are frequently good approximations to Dyson orbitals, a detailed understanding of photoemission intensities may require one to go beyond the molecular orbital picture. In particular we clearly observe signatures of the Dyson-orbital character for an adsorbed semiconductor molecule in ARPES spectra when these are recorded over a larger momentum range than in earlier experiments.},
  language  = {en}
}