TY - JOUR A1 - Kraus, Hannes A1 - Heiber, Michael C. A1 - Väth, Stefan A1 - Kern, Julia A1 - Deibel, Carsten A1 - Sperlich, Andreas A1 - Dyakonov, Vladimir T1 - Analysis of Triplet Exciton Loss Pathways in PTB7:PC\(_{71}\)BM Bulk Heterojunction Solar Cells JF - Scientific Reports N2 - A strategy for increasing the conversion efficiency of organic photovoltaics has been to increase the VOC by tuning the energy levels of donor and acceptor components. However, this opens up a new loss pathway from an interfacial charge transfer state to a triplet exciton (TE) state called electron back transfer (EBT), which is detrimental to device performance. To test this hypothesis, we study triplet formation in the high performing PTB7:PC\(_{71}\)BM blend system and determine the impact of the morphology-optimizing additive 1,8-diiodoctane (DIO). Using photoluminescence and spin-sensitive optically detected magnetic resonance (ODMR) measurements at low temperature, we find that TEs form on PC\(_{71}\)BM via intersystem crossing from singlet excitons and on PTB7 via EBT mechanism. For DIO blends with smaller fullerene domains, an increased density of PTB7 TEs is observed. The EBT process is found to be significant only at very low temperature. At 300 K, no triplets are detected via ODMR, and electrically detected magnetic resonance on optimized solar cells indicates that TEs are only present on the fullerenes. We conclude that in PTB7:PC\(_{71}\)BM devices, TE formation via EBT is impacted by fullerene domain size at low temperature, but at room temperature, EBT does not represent a dominant loss pathway. KW - solar cells KW - electronic properties and materials Y1 - 2016 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-147413 VL - 6 IS - 29158 ER - TY - THES A1 - Kraus, Hannes T1 - Optically Detected Magnetic Resonance on Organic and Inorganic Carbon-Based Semiconductors T1 - Optisch detektierte Magnetresonanz an organischen und anorganischen kohlenstoffbasierten Halbleitern N2 - In dieser Arbeit werden drei verschiedene kohlenstoffbasierte Materialsysteme behandelt: (i) Organische Halbleiter und kleine Moleküle, in Kombination mit Fullerenen für Anwendungen in der organischen Photovoltaik (OPV), (ii) Halbleitende Einzelwand-Kohlenstoffnanoröhren und (iii) Siliziumkarbid (SiC), dessen Defekte erst seit kurzem als Kandidaten für Quantenapplikationen gehandelt werden. Alle Systeme wurden mit optisch detektierter Magnetresonanzspektroskopie (ODMR) untersucht. Im OPV-Kapitel, die intrinsischen Parameter und Orientierungen von Exzitonen mit hohem Spin wurden für die Materialsysteme P3HT, PTB7 und DIP untersucht. Speziell der Einfluss von Ordnung diesen organischen Systemen wurde diskutiert. Der zweite Teil des Kapitels beschäftigt sich mit Triplettgeneration mittels Elektronenrücktransfer im leistungsfähigen Materialsystem PTB7:PC71BM. Das Kohlenstoffnanoröhren-Kapitel zeigt zuert den ersten zweifelsfreien Nachweis von Triplettexzitonen in halbleitenden (6,5) Einzelwandkohlenstoffnanoröhren (SWNT), mittels ODMR-Spektroskopie. Ein Modell für die Anregungskinetik, die intrinsischen Parameter des Exzitons und Abhängigkeit von der Orientierung der Röhren wurden diskutiert. Der letzte Teil der Arbeit gilt Spinzentren in Siliziumkarbid. Nach einer kurzen Einführung in das Materialsystem wird die Spinmultiplizität für die V2 und V3 Siliziumfehlstellen, sowie eines Frenkelpaars und eines noch nicht zugeordneten Defekts (UD) in 6H SiC, weiterhin für die V2 Fehlstelle und das Frenkelpaar in 4H SiC, durchgängig zu S=3/2 festgestellt. Das spinpolarisierte Befüllen der 3/2-Zustände des Grundzustands der Siliziumfehlstellen erlaubt stimulierte Mikrowellenemission. Ausserdem wurde für UD und Frenkelpaar in 6H SiC eine große Temperaturabhängigkeit der Nullfeldparameter festgestellt, während die Siliziumfehlstellen temperaturunabhängig sind. Anwendung des UD und Frenkelpaars als Temperatursensor, und der Vakanzen als Vektormagnetometer wurden diskutiert. N2 - In this work, three different material systems comprising carbon were researched: (i) Organic polymers and small molecules, in conjunction with fullerene molecules for applications in organic photovoltaics (OPV), (ii) single walled semiconducting carbon nanotubes and (iii) silicon carbide (SiC), whose defect color centers are recently in the limelight as candidates for quantum applications. All systems were analyzed using the optically detected magnetic resonance (ODMR) spectroscopy. In the OPV chapter, first the intrinsic parameters and orientations of high spin excitons were analyzed in the materials P3HT, PTB7 and DIP. Specifically the influence of ordering in these organic systems was adressed. The second part of the OPV chapter is concerned with triplet generation by electron back transfer in the high-efficiency OPV material combination PTB7:PC71BM. The carbon nanotube chapter first shows the way to the first unambiguous proof of the existence of triplet excitons in semiconducting (6,5) single-walled carbon nanotubes (SWNT) by ODMR spectroscopy. A model for exciton kinetics, and also orientation and intrinsic parameters were propoesed. The last part of this work is devoted to spin centers in silicon carbide (SiC). After a brief introduction, the spin multiplicity of the V2 and V3 silicon vacancies, and also of a Frenkel pair and an unassigned defect UD in 6H SiC, and of the V2 vacancy and the Frenkel pair in 4H SiC, was shown to be S=3/2. The spin polarized pumping of the 3/2 manifold of the quartet ground state of the silicon vacancies allows stimulated microwave emission. Furthermore, in 6H SiC, the UD and Frenkel pair were shown to have a large dependence of their intrinsic zero field interaction parameters on the temperature, while the vacancies are temperature independent. The application of the UD and Frenkel pair as temperature sensor, and of the vacancies as a vector magnetic field sensor is discussed. KW - ODMR-Spektroskopie KW - Organischer Halbleiter KW - quantum center KW - Siliciumcarbid KW - Nanoröhre Y1 - 2014 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-106308 ER - TY - JOUR A1 - Astakhov, Georgy V. A1 - Kraus, Hannes A1 - Soltamov, V. A. A1 - Fuchs, Franziska A1 - Simin, Dimitrij A1 - Sperlich, Andreas A1 - Baranov, P. G. A1 - Dyakonov, Vladimir T1 - Magnetic field and temperature sensing with atomic-scale spin defects in silicon carbide N2 - Quantum systems can provide outstanding performance in various sensing applications, ranging from bioscience to nanotechnology. Atomic-scale defects in silicon carbide are very attractive in this respect because of the technological advantages of this material and favorable optical and radio frequency spectral ranges to control these defects. We identified several, separately addressable spin-3/2 centers in the same silicon carbide crystal, which are immune to nonaxial strain fluctuations. Some of them are characterized by nearly temperature independent axial crystal fields, making these centers very attractive for vector magnetometry. Contrarily, the zero-field splitting of another center exhibits a giant thermal shift of −1.1 MHz/K at room temperature, which can be used for thermometry applications. We also discuss a synchronized composite clock exploiting spin centers with different thermal response. KW - condensed-matter physics KW - quantum physics Y1 - 2014 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-113025 ER - TY - JOUR A1 - Mannucci, Ilaria A1 - Dang, Nghi D. P. A1 - Huber, Hannes A1 - Murry, Jaclyn B. A1 - Abramson, Jeff A1 - Althoff, Thorsten A1 - Banka, Siddharth A1 - Baynam, Gareth A1 - Bearden, David A1 - Beleza-Meireles, Ana A1 - Benke, Paul J. A1 - Berland, Siren A1 - Bierhals, Tatjana A1 - Bilan, Frederic A1 - Bindoff, Laurence A. A1 - Braathen, Geir Julius A1 - Busk, Øyvind L. A1 - Chenbhanich, Jirat A1 - Denecke, Jonas A1 - Escobar, Luis F. A1 - Estes, Caroline A1 - Fleischer, Julie A1 - Groepper, Daniel A1 - Haaxma, Charlotte A. A1 - Hempel, Maja A1 - Holler-Managan, Yolanda A1 - Houge, Gunnar A1 - Jackson, Adam A1 - Kellogg, Laura A1 - Keren, Boris A1 - Kiraly-Borri, Catherine A1 - Kraus, Cornelia A1 - Kubisch, Christian A1 - Le Guyader, Gwenael A1 - Ljungblad, Ulf W. A1 - Brenman, Leslie Manace A1 - Martinez-Agosto, Julian A. A1 - Might, Matthew A1 - Miller, David T. A1 - Minks, Kelly Q. A1 - Moghaddam, Billur A1 - Nava, Caroline A1 - Nelson, Stanley F. A1 - Parant, John M. A1 - Prescott, Trine A1 - Rajabi, Farrah A1 - Randrianaivo, Hanitra A1 - Reiter, Simone F. A1 - Schuurs-Hoeijmakers, Janneke A1 - Shieh, Perry B. A1 - Slavotinek, Anne A1 - Smithson, Sarah A1 - Stegmann, Alexander P. A. A1 - Tomczak, Kinga A1 - Tveten, Kristian A1 - Wang, Jun A1 - Whitlock, Jordan H. A1 - Zweier, Christiane A1 - McWalter, Kirsty A1 - Juusola, Jane A1 - Quintero-Rivera, Fabiola A1 - Fischer, Utz A1 - Yeo, Nan Cher A1 - Kreienkamp, Hans-Jürgen A1 - Lessel, Davor T1 - Genotype–phenotype correlations and novel molecular insights into the DHX30-associated neurodevelopmental disorders JF - Genome Medicine N2 - Background We aimed to define the clinical and variant spectrum and to provide novel molecular insights into the DHX30-associated neurodevelopmental disorder. Methods Clinical and genetic data from affected individuals were collected through Facebook-based family support group, GeneMatcher, and our network of collaborators. We investigated the impact of novel missense variants with respect to ATPase and helicase activity, stress granule (SG) formation, global translation, and their effect on embryonic development in zebrafish. SG formation was additionally analyzed in CRISPR/Cas9-mediated DHX30-deficient HEK293T and zebrafish models, along with in vivo behavioral assays. Results We identified 25 previously unreported individuals, ten of whom carry novel variants, two of which are recurrent, and provide evidence of gonadal mosaicism in one family. All 19 individuals harboring heterozygous missense variants within helicase core motifs (HCMs) have global developmental delay, intellectual disability, severe speech impairment, and gait abnormalities. These variants impair the ATPase and helicase activity of DHX30, trigger SG formation, interfere with global translation, and cause developmental defects in a zebrafish model. Notably, 4 individuals harboring heterozygous variants resulting either in haploinsufficiency or truncated proteins presented with a milder clinical course, similar to an individual harboring a de novo mosaic HCM missense variant. Functionally, we established DHX30 as an ATP-dependent RNA helicase and as an evolutionary conserved factor in SG assembly. Based on the clinical course, the variant location, and type we establish two distinct clinical subtypes. DHX30 loss-of-function variants cause a milder phenotype whereas a severe phenotype is caused by HCM missense variants that, in addition to the loss of ATPase and helicase activity, lead to a detrimental gain-of-function with respect to SG formation. Behavioral characterization of dhx30-deficient zebrafish revealed altered sleep-wake activity and social interaction, partially resembling the human phenotype. Conclusions Our study highlights the usefulness of social media to define novel Mendelian disorders and exemplifies how functional analyses accompanied by clinical and genetic findings can define clinically distinct subtypes for ultra-rare disorders. Such approaches require close interdisciplinary collaboration between families/legal representatives of the affected individuals, clinicians, molecular genetics diagnostic laboratories, and research laboratories. Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-306477 VL - 13 ER -