Your search keyword '"Rensmo, Håkan"' showing total 12 results

1. Vibrationally-resolved RIXS reveals OH-group formation in oxygen redox active Li-ion battery cathodes.

Author

Hirsbrunner, Moritz, Mikheenkova, Anastasiia, Törnblom, Pontus, House, Robert A., Zhang, Wenliang, Asmara, Teguh C., Wei, Yuan, Schmitt, Thorsten, Rensmo, Håkan, Mukherjee, Soham, Hahlin, Maria, and Duda, Laurent C.

Abstract

Vibrationally-resolved resonant inelastic X-ray scattering (VR-RIXS) at the O K-edge is emerging as a powerful tool for identifying embedded molecules in lithium-ion battery cathodes. Here, we investigate two known oxygen redox-active cathode materials: the commercial LixNi0.90Co0.05Al0.05O2 (NCA) used in electric vehicles and the high-capacity cathode material Li1.2Ni0.13Co0.13Mn0.54O2 (LRNMC) for next-generation Li-ion batteries. We report the detection of a novel vibrational RIXS signature for Li-ion battery cathodes appearing in the O K pre-peak above 533 eV that we attribute to OH-groups. We discuss likely locations and pathways for OH-group formation and accumulation throughout the active cathode material. Initial-cycle behaviour for LRNMC shows that OH-signal strength correlates with the cathodes state of charge, though reversibility is incomplete. The OH-group RIXS signal strength in long-term cycled NCA is retained. Thus, VR-RIXS offers a path for gaining new insights to oxygen reactions in battery materials. [ABSTRACT FROM AUTHOR]

Published

2024

2. Composition dependence of X-ray stability and degradation mechanisms at lead halide perovskite single crystal surfaces.

Author

García-Fernández, Alberto, Kammlander, Birgit, Riva, Stefania, Rensmo, Håkan, and Cappel, Ute B.

Abstract

The multiple applications of lead halide perovskite materials and the extensive use of X-ray based techniques to characterize them highlight a need to understand their stability under X-ray irradiation. Here, we present a study where the X-ray stability of five different lead halide perovskite compositions (MAPbI3, MAPbCl3, MAPbBr3, FAPbBr3, CsPbBr3) was investigated using photoelectron spectroscopy. To exclude effects of thin film formation on the observed degradation behaviors, we studied clean surfaces of single crystals. Different X-ray resistance and degradation mechanisms were observed depending on the crystal composition. Overall, perovskites based on the MA+ cation were found to be less stable than those based on FA+ or Cs+. Metallic lead formed most easily in the chloride perovskite, followed by bromide, and only very little metallic lead formation was observed for MAPbI3. MAPbI3 showed one main degradation process, which was the radiolysis of MAI. Multiple simultaneous degradation processes were identified for the bromide compositions. These processes include ion migration towards the perovskite surface and the formation of volatile and solid products in addition to metallic lead. Lastly, CsBr formed as a solid degradation product on the surface of CsPbBr3. [ABSTRACT FROM AUTHOR]

Published

2024

3. X-ray stability and degradation mechanism of lead halide perovskites and lead halides.

Author

Svanström, Sebastian, García Fernández, Alberto, Sloboda, Tamara, Jacobsson, T. Jesper, Rensmo, Håkan, and Cappel, Ute B.

Abstract

Lead halide perovskites have become a leading material in the field of emerging photovoltaics and optoelectronics. Significant progress has been achieved in improving the intrinsic properties and environmental stability of these materials. However, the stability of lead halide perovskites to ionising radiation has not been widely investigated. In this study, we investigated the radiolysis of lead halide perovskites with organic and inorganic cations under X-ray irradiation using synchrotron based hard X-ray photoelectron spectroscopy. We found that fully inorganic perovskites are significantly more stable than those containing organic cations. In general, the degradation occurs through two different, but not mutually exclusive, pathways/mechanisms. One pathway is induced by radiolysis of the lead halide cage into halide salts, halogen gas and metallic lead and appears to be catalysed by defects in the perovskite. The other pathway is induced by the radiolysis of the organic cation which leads to formation of organic degradation products and the collapse of the perovskite structure. In the case of Cs0.17FA0.83PbI3, these reactions result in products with a lead to halide ratio of 1 : 2 and no formation of metallic lead. The radiolysis of the organic cation was shown to be a first order reaction with regards to the FA+ concentration and proportional to the X-ray flux density with a radiolysis rate constant of 1.6 × 10−18 cm2 per photon at 3 keV or 3.3 cm2 mJ−1. These results provide valuable insight for the use of lead halide perovskite based devices in high radiation environments, such as in space environments and X-ray detectors, as well as for investigations of lead halide perovskites using X-ray based techniques. [ABSTRACT FROM AUTHOR]

Published

2021

4. Electronic structure dynamics in a low bandgap polymer studied by time-resolved photoelectron spectroscopy.

Author

Cappel, Ute B., Plogmaker, Stefan, Terschlüsen, Joachim A., Leitner, Torsten, Johansson, Erik M. J., Edvinsson, Tomas, Sandell, Anders, Karis, Olof, Siegbahn, Hans, Svensson, Svante, Mårtensson, Nils, Rensmo, Håkan, and Söderström, Johan

Abstract

Means to measure the temporal evolution following a photo-excitation in conjugated polymers are a key for the understanding and optimization of their function in applications such as organic solar cells. In this paper we study the electronic structure dynamics by direct pump–probe measurements of the excited electrons in such materials. Specifically, we carried out a time-resolved photoelectron spectroscopy (TRPES) study of the polymer PCPDTBT by combining an extreme ultraviolet (XUV) high harmonic generation source with a time-of-flight spectrometer. After excitation to either the 1st excited state or to a higher excited state, we follow how the electronic structure develops and relaxes on the electron binding energy scale. Specifically, we follow a less than 50 fs relaxation of the higher exited state and a 10 times slower relaxation of the 1st excited state. We corroborate the results using DFT calculations. Our study demonstrates the power of TRPES for studying photo-excited electron energetics and dynamics of solar cell materials. [ABSTRACT FROM AUTHOR]

Published

2016

5. Molecular degradation of D35 and K77 sensitizers when exposed to temperatures exceeding 100 °C investigated by photoelectron spectroscopy.

Author

Oscarsson, Johan, Fredin, Kristofer, Ahmadi, Sareh, Eriksson, Anna I. K., Johansson, Erik M. J., and Rensmo, Håkan

Abstract

Degradation of the materials in dye-sensitized solar cells at elevated temperatures is critical for use in real applications. Both during fabrication of the solar cell and under real working conditions the solar cells will be exposed to heat. In this work, mesoporous TiO2 electrodes sensitized with the dyes D35 and K77 were subject to heat-treatment and the effects of this were thereafter investigated by photoelectron spectroscopy. For D35 it was found that heat-treatment changes the binding configuration inducing an increased interaction between the sulfur of the linker unit and the TiO2 surface. The interaction resulting from the change in binding configuration also affects the position of the HOMO level, where a shift of +0.2 eV is observed when heated to 200 °C. For K77, parts of the thiocyanate units are detached and the nitrogen atom leaves the electrode whereas sulfur remains on the surface in various forms of sulfurous oxides. The total dye coverage of K77 gets reduced by heat-treatment. The HOMO level gets progressively less pronounced due to a loss of HOMO level electrons as a consequence of the lower dye coverage when heat-treated, which leads to a lower excitation rate and lower efficiency. The results are discussed in the context of performance for dye-sensitized solar cells. [ABSTRACT FROM AUTHOR]

Published

2016

6. Geometrical and energetical structural changes in organic dyes for dye-sensitized solar cells probed using photoelectron spectroscopy and DFT.

Author

Eriksson, Susanna K., Josefsson, Ida, Ellis, Hanna, Amat, Anna, Pastore, Mariachiara, Oscarsson, Johan, Lindblad, Rebecka, Eriksson, Anna I. K., Johansson, Erik M. J., Boschloo, Gerrit, Hagfeldt, Anders, Fantacci, Simona, Odelius, Michael, and Rensmo, Håkan

Abstract

The effects of alkoxy chain length in triarylamine based donor–acceptor organic dyes are investigated with respect to the electronic and molecular surface structures on the performance of solar cells and the electron lifetime. The dyes were investigated when adsorbed on TiO2 in a configuration that can be used for dye-sensitized solar cells (DSCs). Specifically, the two dyes D35 and D45 were compared using photoelectron spectroscopy (PES) and density functional theory (DFT) calculations. The differences in solar cell characteristics when longer alkoxy chains are introduced in the dye donor unit are attributed to geometrical changes in dye packing while only minor differences were observed in the electronic structure. A higher dye load was observed for D45 on TiO2. However, D35 based solar cells result in higher photocurrent although the dye load is lower. This is explained by different geometrical structures of the dyes on the surface. [ABSTRACT FROM AUTHOR]

Published

2016

7. Energy level alignment in TiO2/metal sulfide/polymer interfaces for solar cell applications.

Author

Lindblad, Rebecka, Cappel, Ute B., O'Mahony, Flannan T. F., Siegbahn, Hans, Johansson, Erik M. J., Haque, Saif A., and Rensmo, Håkan

Abstract

Semiconductor sensitized solar cell interfaces have been studied with photoelectron spectroscopy to understand the interfacial electronic structures. In particular, the experimental energy level alignment has been determined for complete TiO2/metal sulfide/polymer interfaces. For the metal sulfides CdS, Sb2S3 and Bi2S3 deposited from single source metal xanthate precursors, it was shown that both driving forces for electron injection into TiO2 and hole transfer to the polymer decrease for narrower bandgaps. The energy level alignment results were used in the discussion of the function of solar cells with the same metal sulfides as light absorbers. For example Sb2S3 showed the most favourable energy level alignment with 0.3 eV driving force for electron injection and 0.4 eV driving force for hole transfer and also the most efficient solar cells due to high photocurrent generation. The energy level alignment of the TiO2/Bi2S3 interface on the other hand showed no driving force for electron injection to TiO2, and the performance of the corresponding solar cell was very low. [ABSTRACT FROM AUTHOR]

Published

2014

8. Collective hydrogen-bond dynamics dictates the electronic structure of aqueous I3−.

Author

Josefsson, Ida, Eriksson, Susanna K., Ottosson, Niklas, Öhrwall, Gunnar, Siegbahn, Hans, Hagfeldt, Anders, Rensmo, Håkan, Björneholm, Olle, and Odelius, Michael

Abstract

The molecular and electronic structures of aqueous I3− and I− ions have been investigated through ab initio molecular dynamics (MD) simulations and photoelectron (PE) spectroscopy of the iodine 4d core levels. Against the background of the theoretical simulations, data from our I4d PE measurements are shown to contain evidence of coupled solute–solvent dynamics. The MD simulations reveal large amplitude fluctuations in the I–I distances, which couple to the collective rearrangement of the hydrogen bonding network around the I3− ion. Due to the high polarizability of the I3− ion, the asymmetric I–I vibration reaches partially dissociated configurations, for which the electronic structure resembles that of I2 + I−. The charge localization in the I3− ion is found to be moderated by hydrogen-bonding. As seen in the PE spectrum, these soft molecular vibrations are important for the electronic properties of the I3− ion in solution and may play an important role in its electrochemical function. [ABSTRACT FROM AUTHOR]

Published

2013

9. Energy alignment and surface dipoles of rylene dyes adsorbed to TiO2nanoparticles.

Author

Cappel, Ute B., Plogmaker, Stefan, Johansson, Erik M. J., Hagfeldt, Anders, Boschloo, Gerrit, and Rensmo, Håkan

Abstract

The energy loss in dye-sensitized solar cells calculated from the energy difference between the lowest electronic transition of the dye and the obtained open-circuit voltage is often 1 eV or even more. To minimize this loss, it is important to accurately determine the energy alignment at the TiO2/dye/redox-mediator interface. In this study, we compared the results from electrochemistry and photoelectron spectroscopy for determining the energy alignment of three rylene dyes, two of which absorb relatively far in the red. The trends observed with the methods were different, as in the former, the energy alignment is measured relative to an external reference and includes contributions from solvent reorganization energies, while in the latter, it is measured relative to the energetics of the TiO2and is lacking such contributions. The influence of the dyes' dipole moments on the energetics of the TiO2was also measured and explained some of the differences in trends. Finally, we compared the injection efficiencies of the two red-absorbing dyes and found that the differences in injection efficiencies can be better explained using the energy alignment determined from photoelectron spectroscopy. This shows that the method for measuring the energetics of a DSC should be chosen according to what process one intends to study. [ABSTRACT FROM AUTHOR]

Published

2011

10. Mapping the frontier electronic structures of triphenylamine based organic dyes at TiO2interfaces.

Author

Hahlin, Maria, Odelius, Michael, Magnuson, Martin, Johansson, Erik M. J., Plogmaker, Stefan, Hagberg, Daniel P., Sun, Licheng, Siegbahn, Hans, and Rensmo, Håkan

Abstract

The frontier electronic structures of a series of organic dye molecules containing a triphenylamine moiety, a thiophene moiety and a cyanoacrylic acid moiety have been investigated by photoelectron spectroscopy (PES), X-ray absorption spectroscopy (XAS), X-ray emission spectroscopy (XES) and resonant photoelectron spectroscopy (RPES). The experimental results were compared to electronic structure calculations on the molecules, which are used to confirm and enrich the assignment of the spectra. The approach allows us to experimentally measure and interpret the basic valence energy level structure in the dye, including the highest occupied energy level and how it depends on the interaction between the different units. Based on N 1s X-ray absorption and emission spectra we also obtain insight into the structure of the excited states, the molecular orbital composition and dynamics. Together the results provide an experimentally determined energy level map useful in the design of these types of materials. Included are also results indicating femtosecond charge redistribution at the dye/TiO2interface. [ABSTRACT FROM AUTHOR]

Published

2011

11. Electronic and molecular structures of organic dye/TiO2interfaces for solar cell applications: a core level photoelectron spectroscopy study.

Author

Hahlin, Maria, Johansson, Erik M. J., Plogmaker, Stefan, Odelius, Michael, Hagberg, Daniel P., Sun, Licheng, Siegbahn, Hans, and Rensmo, Håkan

Abstract

The electronic and molecular properties of three organic dye molecules with the general structure donor–linker–anchor have been investigated using core level photoelectron spectroscopy (PES). The molecules contain a diphenylaniline donor unit, a thiophene linker unit, and cyanoacrylic acid or rhodanine-3-acetic acid anchor units. They have been investigated both in the form of a multilayer and adsorbed onto nanoporous TiO2and the experimental results were also compared with DFT calculations. The changes at the dye-sensitized TiO2surface due to the modification of either the donor unit or the anchor unit was investigated and the results showed important differences in coverage as well as in electronic and molecular surface properties. By measuring the core level binding energies, the sub-molecular properties were characterized and the result showed that the adsorption to the TiO2influences the energy levels of the sub-molecular units differently. [ABSTRACT FROM AUTHOR]

Published

2010

12. Rhodanine dyes for dye-sensitized solar cells :  spectroscopy, energy levels and photovoltaic performanceElectronic supplementary information (ESI) available :  Detailed synthetic procedures; preparation and characterization methods of dye-sensitized solar cells and additional experimental results; details of quantum chemical calculations; photoelectron spectroscopy details and additional results. See DOI: 10.1039/b812154k

Author

Marinado, Tannia, Hagberg, Daniel P., Hedlund, Maria, Edvinsson, Tomas, Johansson, Erik M. J., Boschloo, Gerrit, Rensmo, Håkan, Brinck, Tore, Sun, Licheng, and Hagfeldt, Anders

Abstract

Three new sensitizers for photoelectrochemical solar cells were synthesized consisting of a triphenylamine donor, a rhodanine-3-acetic acid acceptor and a polyene connection. The conjugation length was systematically increased, which resulted in two effects: first, it led to a red-shift of the optical absorption of the dyes, resulting in an improved spectral overlap with the solar spectrum. Secondly, the oxidation potential decreased systematically. The excited state levels were, however, calculated to be nearly stationary. The experimental trends were in excellent agreement with density functional theory (DFT) computations. The photovoltaic performance of this set of dyes as sensitizers in mesoporous TiO2solar cells was investigated using electrolytes containing the iodide/triiodide redox couple. The dye with the best absorption characteristics showed the poorest solar cell efficiency, due to losses by recombination of electrons in TiO2with triiodide. Addition of 4-tertbutylpyridine to the electrolyte led to a strongly reduced photocurrent for all dyes due to a reduced electron injection efficiency, caused by a 0.15 V negative shift of the TiO2conduction band potential. [ABSTRACT FROM AUTHOR]

Published

2008