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 - JOUR A1 - Kiermasch, David A1 - Rieder, Philipp A1 - Tvingstedt, Kristofer A1 - Baumann, Andreas A1 - Dyakonov, Vladimir T1 - Improved charge carrier lifetime in planar perovskite solar cells by bromine doping JF - Scientific Reports N2 - The charge carrier lifetime is an important parameter in solar cells as it defines, together with the mobility, the diffusion length of the charge carriers, thus directly determining the optimal active layer thickness of a device. Herein, we report on charge carrier lifetime values in bromine doped planar methylammonium lead iodide (MAPbI\(_3\)) solar cells determined by transient photovoltage. The corresponding charge carrier density has been derived from charge carrier extraction. We found increased lifetime values in solar cells incorporating bromine compared to pure MAPbI\(_3\) by a factor of ~2.75 at an illumination intensity corresponding to 1 sun. In the bromine containing solar cells we additionally observe an anomalously high value of extracted charge, which we deduce to originate from mobile ions. KW - devices for energy harvesting KW - solar cells Y1 - 2016 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-147976 VL - 6 ER - TY - JOUR A1 - Zusan, Andreas A1 - Gieseking, Björn A1 - Zerson, Mario A1 - Dyakonov, Vladimir A1 - Magerle, Robert A1 - Deibel, Carsten T1 - The Effect of Diiodooctane on the Charge Carrier Generation in Organic Solar Cells Based on the Copolymer PBDTTT-C JF - Scientific Reports N2 - Microstructural changes and the understanding of their effect on photocurrent generation are key aspects for improving the efficiency of organic photovoltaic devices. We analyze the impact of a systematically increased amount of the solvent additive diiodooctane (DIO) on the morphology of PBDTTT-C:PC71BM blends and related changes in free carrier formation and recombination by combining surface imaging, photophysical and charge extraction techniques. We identify agglomerates visible in AFM images of the 0% DIO blend as PC71BM domains embedded in an intermixed matrix phase. With the addition of DIO, a decrease in the size of fullerene domains along with a demixing of the matrix phase appears for 0.6% and 1% DIO. Surprisingly, transient absorption spectroscopy reveals an efficient photogeneration already for the smallest amount of DIO, although the largest efficiency is found for 3% DIO. It is ascribed to a fine-tuning of the blend morphology in terms of the formation of interpenetrating donor and acceptor phases minimizing geminate and nongeminate recombination as indicated by charge extraction experiments. An increase in the DIO content to 10% adversely affects the photovoltaic performance, most probably due to an inefficient free carrier formation and trapping in a less interconnected donor-acceptor network. KW - electronic properties and materials KW - photonic devices Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-125022 VL - 5 ER - TY - JOUR A1 - Tvingstedt, Kristofer A1 - Malinkiewicz, Olga A1 - Baumann, Andreas A1 - Deibel, Carsten A1 - Snaith, Henry J. A1 - Dyakonov, Vladimir A1 - Bolink, Henk J. T1 - Radiative efficiency of lead iodide based perovskite solar cells JF - Scientific Reports N2 - The maximum efficiency of any solar cell can be evaluated in terms of its corresponding ability to emit light. We herein determine the important figure of merit of radiative efficiency for Methylammonium Lead Iodide perovskite solar cells and, to put in context, relate it to an organic photovoltaic (OPV) model device. We evaluate the reciprocity relation between electroluminescence and photovoltaic quantum efficiency and conclude that the emission from the perovskite devices is dominated by a sharp band-to-band transition that has a radiative efficiency much higher than that of an average OPV device. As a consequence, the perovskite have the benefit of retaining an open circuit voltage ~0.14 V closer to its radiative limit than the OPV cell. Additionally, and in contrast to OPVs, we show that the photoluminescence of the perovskite solar cell is substantially quenched under short circuit conditions in accordance with how an ideal photovoltaic cell should operate. KW - solar cells KW - optical spectroscopy Y1 - 2014 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-119360 VL - 4 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 - Weissenseel, Sebastian A1 - Gottscholl, Andreas A1 - Bönnighausen, Rebecca A1 - Dyakonov, Vladimir A1 - Sperlich, Andreas T1 - Long-lived spin-polarized intermolecular exciplex states in thermally activated delayed fluorescence-based organic light-emitting diodes JF - Science Advances N2 - Spin-spin interactions in organic light-emitting diodes (OLEDs) based on thermally activated delayed fluorescence (TADF) are pivotal because radiative recombination is largely determined by triplet-to-singlet conversion, also called reverse intersystem crossing (RISC). To explore the underlying process, we apply a spin-resonance spectral hole-burning technique to probe electroluminescence. We find that the triplet exciplex states in OLEDs are highly spin-polarized and show that these states can be decoupled from the heterogeneous nuclear environment as a source of spin dephasing and can even be coherently manipulated on a spin-spin relaxation time scale T-2* of 30 ns. Crucially, we obtain the characteristic triplet exciplex spin-lattice relaxation time T-1 in the range of 50 mu s, which far exceeds the RISC time. We conclude that slow spin relaxation rather than RISC is an efficiency-limiting step for intermolecular donor:acceptor systems. Finding TADF emitters with faster spin relaxation will benefit this type of TADF OLEDs. KW - detected magnetic-resonance KW - population oscillations KW - polaron delocalization KW - charge separation KW - hole KW - phosphorescence KW - singlet KW - absorption KW - tryptophan KW - emission Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-265508 VL - 7 IS - 47 ER - TY - JOUR A1 - Grüne, Jeannine A1 - Londi, Giacomo A1 - Gillett, Alexander J. A1 - Stähly, Basil A1 - Lulei, Sebastian A1 - Kotova, Maria A1 - Olivier, Yoann A1 - Dyakonov, Vladimir A1 - Sperlich, Andreas T1 - Triplet Excitons and Associated Efficiency‐Limiting Pathways in Organic Solar Cell Blends Based on (Non‐) Halogenated PBDB‐T and Y‐Series JF - Advanced Functional Materials N2 - The great progress in organic photovoltaics (OPV) over the past few years has been largely achieved by the development of non‐fullerene acceptors (NFAs), with power conversion efficiencies now approaching 20%. To further improve device performance, loss mechanisms must be identified and minimized. Triplet states are known to adversely affect device performance, since they can form energetically trapped excitons on low‐lying states that are responsible for non‐radiative losses or even device degradation. Halogenation of OPV materials has long been employed to tailor energy levels and to enhance open circuit voltage. Yet, the influence on recombination to triplet excitons has been largely unexplored. Using the complementary spin‐sensitive methods of photoluminescence detected magnetic resonance and transient electron paramagnetic resonance corroborated by transient absorption and quantum‐chemical calculations, exciton pathways in OPV blends are unravelled employing the polymer donors PBDB‐T, PM6, and PM7 together with NFAs Y6 and Y7. All blends reveal triplet excitons on the NFA populated via non‐geminate hole back transfer and, in blends with halogenated donors, also by spin‐orbit coupling driven intersystem crossing. Identifying these triplet formation pathways in all tested solar cell absorber films highlights the untapped potential for improved charge generation to further increase plateauing OPV efficiencies. KW - halogenation KW - non‐fullerene acceptors KW - organic photovoltaics KW - spin physics KW - triplet excitons Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-312164 VL - 33 IS - 12 ER - TY - JOUR A1 - Gottscholl, Andreas A1 - Wagenhöfer, Maximilian A1 - Klimmer, Manuel A1 - Scherbel, Selina A1 - Kasper, Christian A1 - Baianov, Valentin A1 - Astakhov, Georgy V. A1 - Dyakonov, Vladimir A1 - Sperlich, Andreas T1 - Superradiance of spin defects in silicon carbide for maser applications JF - Frontiers in Photonics N2 - Masers as telecommunication amplifiers have been known for decades, yet their application is strongly limited due to extreme operating conditions requiring vacuum techniques and cryogenic temperatures. Recently, a new generation of masers has been invented based on optically pumped spin states in pentacene and diamond. In this study, we pave the way for masers based on spin S = 3/2 silicon vacancy (V\(_{Si}\)) defects in silicon carbide (SiC) to overcome the microwave generation threshold and discuss the advantages of this highly developed spin hosting material. To achieve population inversion, we optically pump the V\(_{Si}\) into their m\(_S\) = ±1/2 spin sub-states and additionally tune the Zeeman energy splitting by applying an external magnetic field. In this way, the prerequisites for stimulated emission by means of resonant microwaves in the 10 GHz range are fulfilled. On the way to realising a maser, we were able to systematically solve a series of subtasks that improved the underlying relevant physical parameters of the SiC samples. Among others, we investigated the pump efficiency as a function of the optical excitation wavelength and the angle between the magnetic field and the defect symmetry axis in order to boost the population inversion factor, a key figure of merit for the targeted microwave oscillator. Furthermore, we developed a high-Q sapphire microwave resonator (Q ≈ 10\(^4\)–10\(^5\)) with which we find superradiant stimulated microwave emission. In summary, SiC with optimized spin defect density and thus spin relaxation rates is well on its way of becoming a suitable maser gain material with wide-ranging applications. KW - stimulated emission KW - maser KW - population inversion KW - silicon vacancy KW - spin polarization KW - superradiance Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-284698 SN - 2673-6853 VL - 3 ER - TY - JOUR A1 - Sperlich, Andreas A1 - Auth, Michael A1 - Dyakonov, Vladimir T1 - Charge transfer in ternary solar cells employing two fullerene derivatives: where do electrons go? BT - Dedicated to Prof. Sariciftci on the occasion of his 60th birthday JF - Israel Journal of Chemistry N2 - Earlier reports demonstrated that ternary organic solar cells (OSC) made of donor polymers (D) blended with different mixtures of fullerene acceptors (A : A) performed very similarly. This finding is surprising, as the corresponding fullerene LUMO levels are slightly different, which might result in decisive differences in the charge transfer step. We investigate ternary OSC (D : A : A) made of the donor polymer P3HT with stoichiometric mixtures of different fullerene derivatives, PC\(_{60}\)BM : PC\(_{70}\)BM and PC\(_{70}\)BM : IC\(_{60}\)BA, respectively. Using quantitative electron paramagnetic resonance (EPR) we can distinguish between positive and negative polarons, localized on the specific molecules. We found that after the initial charge transfer step, the electrons are re-distributed over two nearby acceptors in agreement with their stoichiometry and their relative LUMO energy difference. Remarkably, the measured ΔLUMO differences in fullerene mixtures are reduced by an order of magnitude compared to that of the pristine materials, i. e., below 1 meV for PC\(_{60}\)BM : PC\(_{70}\)BM and (20±5) meV for PC\(_{70}\)BM : IC\(_{60}\)BA. Furthermore, we found that this reduced ΔLUMO explains the shift in open circuit voltage for D : A : A organic solar cells. We attribute these findings to hybridization, leading to an effective fullerene LUMO. Consequently, multi-acceptor blends are indeed a viable option for photodetectors and solar cells, as they combine the best electron acceptor and light absorbing properties. KW - ternary organic solar cells Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-257506 VL - 62 IS - 7-8 ER - TY - JOUR A1 - Kiermasch, David A1 - Fischer, Mathias A1 - Gil-Escrig, Lidón A1 - Baumann, Andreas A1 - Bolink, Henk J. A1 - Dyakonov, Vladimir A1 - Tvingstedt, Kristofer T1 - Reduced Recombination Losses in Evaporated Perovskite Solar Cells by Postfabrication Treatment JF - Solar RRL N2 - The photovoltaic perovskite research community has now developed a large set of tools and techniques to improve the power conversion efficiency (PCE). One such arcane trick is to allow the finished devices to dwell in time, and the PCE often improves. Herein, a mild postannealing procedure is implemented on coevaporated perovskite solar cells confirming a substantial PCE improvement, mainly attributed to an increased open-circuit voltage (V\(_{OC}\)). From a V\(_{OC}\) of around 1.11 V directly after preparation, the voltage improves to more than 1.18 V by temporal and thermal annealing. To clarify the origin of this annealing effect, an in-depth device experimental and simulation characterization is conducted. A simultaneous reduction of the dark saturation current, the ideality factor (n\(_{id}\)), and the leakage current is revealed, signifying a substantial impact of the postannealing procedure on recombination losses. To investigate the carrier dynamics in more detail, a set of transient optoelectrical methods is first evaluated, ascertaining that the bulk carrier lifetime is increased with device annealing. Second, a drift-diffusion simulation is used, confirming that the beneficial effect of the annealing has its origin in effective bulk trap passivation that accordingly leads to a reduction of Shockley–Read–Hall recombination rates. KW - defects KW - heating KW - lifetimes KW - passivation KW - perovskite solar cells KW - recombination KW - Shockley–Read–Hall Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-258003 VL - 5 IS - 11 ER - TY - JOUR A1 - Bunzmann, Nikolai A1 - Krugmann, Benjamin A1 - Weissenseel, Sebastian A1 - Kudriashova, Liudmila A1 - Ivaniuk, Khrystyna A1 - Stakhira, Pavlo A1 - Cherpak, Vladyslav A1 - Chapran, Marian A1 - Grybauskaite‐Kaminskiene, Gintare A1 - Grazulevicius, Juozas Vidas A1 - Dyakonov, Vladimir A1 - Sperlich, Andreas T1 - Spin‐ and Voltage‐Dependent Emission from Intra‐ and Intermolecular TADF OLEDs JF - Advanced Electronic Materials N2 - Organic light emitting diodes (OLEDs) based on thermally activated delayed fluorescence (TADF) utilize molecular systems with a small energy splitting between singlet and triplet states. This can either be realized in intramolecular charge transfer states of molecules with near‐orthogonal donor and acceptor moieties or in intermolecular exciplex states formed between a suitable combination of individual donor and acceptor materials. Here, 4,4′‐(9H,9′H‐[3,3′‐bicarbazole]‐9,9′‐diyl)bis(3‐(trifluoromethyl) benzonitrile) (pCNBCzoCF\(_{3}\)) is investigated, which shows intramolecular TADF but can also form exciplex states in combination with 4,4′,4′′‐tris[phenyl(m‐tolyl)amino]triphenylamine (m‐MTDATA). Orange emitting exciplex‐based OLEDs additionally generate a sky‐blue emission from the intramolecular emitter with an intensity that can be voltage‐controlled. Electroluminescence detected magnetic resonance (ELDMR) is applied to study the thermally activated spin‐dependent triplet to singlet up‐conversion in operating devices. Thereby, intermediate excited states involved in OLED operation can be investigated and the corresponding activation energy for both, intra‐ and intermolecular based TADF can be derived. Furthermore, a lower estimate is given for the extent of the triplet wavefunction to be ≥ 1.2 nm. Photoluminescence detected magnetic resonance (PLDMR) reveals the population of molecular triplets in optically excited thin films. Overall, the findings allow to draw a comprehensive picture of the spin‐dependent emission from intra‐ and intermolecular TADF OLEDs. KW - color tuning KW - exciplexes KW - organic light emitting diodes KW - spin KW - triplets Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-224434 VL - 7 IS - 3 ER - TY - JOUR A1 - Schmidt‐Mende, Lukas A1 - Olthof, Selina A1 - Dyakonov, Vladimir T1 - Eine Halbleiter‐Tinte für die Zukunft JF - Physik in unserer Zeit N2 - Das Forschungsgebiet der Perowskit‐Halbleiter entwickelt sich rasant. Ein Vorteil besteht darin, dass sich damit Solarzellen und optoelektronische Bauelemente von der Fotodiode bis zum Laser einfach aus einer Lösung herstellen lassen. Damit ist zum Beispiel die Herstellung durch Drucken einer „Solarzellentinte“ möglich. Der geringe Energiebedarf durch niedrige Prozesstemperaturen verkürzt zudem die Energierückgewinnungszeit drastisch im Vergleich zu konventionellen Solarzellen. Obwohl noch eine junge Technologie, erreichen Perowskit‐Solarzellen bereits heute Wirkungsgrade bis etwa 25 % und sind damit auf Augenhöhe mit konventionellen Dünnschichttechnologien. Ein weiterer Vorteil besteht darin, dass sich die Bandlücke durch chemische Modifikation einfach an Anwendungen anpassen lässt. Zu den Herausforderungen der Forschung zählen noch die geringe Lebensdauer und chemische Langzeitstabilität sowie die Suche nach ungiftigen Ersatzstoffen für das Blei. Kommerzielle Anwendungen sind bereits absehbar. KW - Perowskit‐Halbleiter KW - Perowskit‐Solarzellen KW - aufdruckbare Solarzellenfarbe KW - Energierückgewinnungszeit KW - Fotodetektoren KW - Halbleiter‐Laser Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-213562 VL - 50 IS - 6 SP - 298 EP - 304 ER - TY - JOUR A1 - Gottscholl, Andreas A1 - Diez, Matthias A1 - Soltamov, Victor A1 - Kasper, Christian A1 - Krauße, Dominik A1 - Sperlich, Andreas A1 - Kianinia, Mehran A1 - Bradac, Carlo A1 - Aharonovich, Igor A1 - Dyakonov, Vladimir T1 - Spin defects in hBN as promising temperature, pressure and magnetic field quantum sensors JF - Nature Communications N2 - Spin defects in solid-state materials are strong candidate systems for quantum information technology and sensing applications. Here we explore in details the recently discovered negatively charged boron vacancies (V\(_B\)\(^−\)) in hexagonal boron nitride (hBN) and demonstrate their use as atomic scale sensors for temperature, magnetic fields and externally applied pressure. These applications are possible due to the high-spin triplet ground state and bright spin-dependent photoluminescence of the V\(_B\)\(^−\). Specifically, we find that the frequency shift in optically detected magnetic resonance measurements is not only sensitive to static magnetic fields, but also to temperature and pressure changes which we relate to crystal lattice parameters. We show that spin-rich hBN films are potentially applicable as intrinsic sensors in heterostructures made of functionalized 2D materials. KW - electronic properties and materials KW - qubits Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-261581 VL - 12 IS - 1 ER -