Your search keyword '"Polarz, Sebastian"' showing total 6 results

1. Design of Active Defects in Semiconductors: 3D Electron Diffraction Revealed Novel Organometallic Lead Bromide Phases Containing Ferrocene as Redox Switches.

Author

Fillafer, Nicole, Kuper, Henning, Schaate, Andreas, Locmelis, Sonja, Becker, Joerg August, Krysiak, Yaşar, and Polarz, Sebastian

Subjects

SEMICONDUCTOR defects, ELECTRON diffraction, FERROCENE, ORGANIC semiconductors, BROMIDES, CRYSTAL structure, SMART structures

Abstract

Once the optical, electronic, or photocatalytic properties of a semiconductor are set by adjusting composition, crystal phase, and morphology, one cannot change them anymore, respectively, on demand. Materials enabling postsynthetic and reversible switching of features such as absorption coefficient, bandgap, or charge carrier dynamics are highly desired. Hybrid perovskites facilitate exceptional possibilities for progress in the field of smart semiconductors because active organic molecules become an integral constituent of the crystalline structure. This paper reports the integration of ferrocene ligands into semiconducting 2D phases based on lead bromide. The complex crystal structures of the resulting, novel ferrovskite (≃ ferrocene perovskite) phases are determined by 3D electron diffraction. The ferrocene ligands exhibit strong structure‐directing effects on the 2D hybrid phases, which is why the formation of exotic types of face‐ and edge‐sharing lead bromide octahedra is observed. The bandgap of the materials ranges from 3.06 up to 3.51 eV, depending on the connectivity of the octahedra. By deploying the redox features of ferrocene, one can create defect states or even a defect band leading to control over the direction of exciton migration and energy transport in the semiconductor, enabling fluorescence via indirect to direct gap transition. [ABSTRACT FROM AUTHOR]

Published

2022

2. Molecular Semiconductor Surfactants with Fullerenol Heads and Colored Tails for Carbon Dioxide Photoconversion.

Author

Kunkel, Marius, Sutter, Sebastian, and Polarz, Sebastian

Subjects

CARBON dioxide, SURFACE active agents, CHARGE exchange, SEMICONDUCTORS, CHARGE carriers, FULLERENES

Abstract

The leaf is a prime example of a material converting waste (CO2) into value with maximum sustainability. As the most important constituent, it contains the coupled photosystems II and I, which are imbedded in the cellular membrane of the chloroplasts. Can key functions of the leaf be packed into soap? We present next‐generation surfactants that self‐assemble into bilayer vesicles (similar to the cellular membrane), are able to absorb photons of two different visible wavelengths, and exchange excited charge carriers (similar to the photosystems), followed by conversion of CO2 (in analogy to the leaf). The amphiphiles contain five dye molecules as the hydrophobic entity attached exclusively to one hemisphere of a polyhydroxylated fullerene (Janus‐type). We herein report on their surfactant, optical, electronic, and catalytic properties. Photons absorbed by the dyes are transferred to the fullerenol head, where they can react with different species such as CO2 to give formic acid. [ABSTRACT FROM AUTHOR]

Published

2019

3. Catalytically Doped Semiconductors for Chemical Gas Sensing: Aerogel-Like Aluminum-Containing Zinc Oxide Materials Prepared in the Gas Phase.

Author

Hagedorn, Kay, Li, Wenyu, Liang, Qijun, Dilger, Stefan, Noebels, Matthias, Wagner, Markus. R., Reparaz, Juan S., Dollinger, Andreas, Schmedt auf der Günne, Jörn, Dekorsy, Thomas, Schmidt‐Mende, Lukas, and Polarz, Sebastian

Subjects

AIR pollution, ORGANIC compounds, SEMICONDUCTORS, METALLIC oxides, AEROGELS, ZINC oxide

Abstract

Atmospheric contamination with organic compounds is undesired in industry and in society because of odor nuisance or potential toxicity. Resistive gas sensors made of semiconducting metal oxides are effective in the detection of gases even at low concentration. Major drawbacks are low selectivity and missing sensitivity toward a targeted compound. Acetaldehyde is selected due to its high relevance in chemical industry and its toxic character. Considering the similarity between gas-sensing and heterogeneous catalysis (surface reactions, activity, selectivity), it is tempting to transfer concepts. A question of importance is how doping and the resulting change in electronic properties of a metal-oxide support with semiconducting properties alters reactivity of the surfaces and the functionality in gas-sensing and in heterogeneous catalysis. A gas-phase synthesis method is employed for aerogel-like zinc oxide materials with a defined content of aluminum (n-doping), which were then used for the assembly of gas sensors. It is shown that only Al-doped ZnO represents an effective sensor material that is sensitive down to very low concentrations (<350 ppb). The advance in properties relates to a catalytic effect for the doped semiconductor nanomaterial. [ABSTRACT FROM AUTHOR]

Published

2016

4. Porous and Shape-Anisotropic Single Crystals of the Semiconductor Perovskite CH3NH3PbI3 from a Single-Source Precursor.

Author

Kollek, Tom, Gruber, Dominik, Gehring, Julia, Zimmermann, Eugen, Schmidt‐Mende, Lukas, and Polarz, Sebastian

Subjects

SEMICONDUCTORS, PEROVSKITE, ORGANOMETALLIC compounds, NANOSTRUCTURED materials, CHEMICAL research

Abstract

Significant progress in solar-cell research is currently made by the development of metal-organic perovskites (MOPs) owing to their superior properties, such as high absorption coefficients and effective transport of photogenerated charges. As for other semiconductors, it is expected that the properties of MOPs may be significantly improved by a defined nanostructure. However, their chemical sensitivity (e.g., towards hydrolysis) prohibits the application of methods already known for the synthesis of other nanomaterials. A new and general method for the synthesis of various (CH3NH3)PbI3 nanostructures from a novel single-source precursor is presented. Nanoporous MOP single crystals are obtained by a crystal-to-crystal transformation that is accompanied by spinodal demixing of the triethylene glycol containing precursor structure. Selective binding of a capping agent can be used to tune the particle shape of the MOP nanocrystals. [ABSTRACT FROM AUTHOR]

Published

2015

5. One‐Step Aerosol Synthesis of Thiocyanate Passivated Hybrid Perovskite Microcrystals: Impact of (Pseudo‐)Halide Additives on Crystallization and Access to a Novel Binary Model.

Author

Bahnmüller, Ulrich J., Krysiak, Yaşar, Seewald, Tobias, Yalçinkaya, Yenal, Pluta, Denis, Schmidt‐Mende, Lukas, Weber, Stefan A. L., and Polarz, Sebastian

Subjects

*CHARGE carrier lifetime, *SURFACE passivation, *SURFACE photovoltage, *SEMICONDUCTORS, *CRYSTALLIZATION kinetics

Abstract

Hybrid Perovskite materials have gone through an astonishing development due to their unique optoelectronic behavior, leading to the creation of a wide range of synthetic strategies. As the materials’ surface is found to play a crucial role with respect to the properties, e.g. hydration, stability and carrier mobilities, considerable efforts have been made to optimize the surface through various approaches. Especially the passivation of the perovskite surface attracted a lot of attention in this field, often resulting in more complex, multi‐step synthetic processes. In this study, a simple one‐step aerosol‐assisted synthetic approach is presented to obtain thiocyanate (SCN) passivated single‐crystal MAPbBr3 microcrystals. To elucidate the role of the additive in the crystallization process, mixed (pseudo‐)halide precursors are systematically investigated. The as processed, passivated microcrystals exhibit enhanced stability and charge carrier lifetimes. Additionally, a decrease in surface photovoltage, attributed to the presence of the SCN additive, is observed. Furthermore, the aerosol process is further developed resulting in a novel binary system containing MAPbBr3‐SCN perovskite microcrystals and Au nanostructures. This system serves as a promising model for further investigations into potential interactions between plasmonic and semiconducting materials, with initial results indicating prolonged charge carrier lifetimes. [ABSTRACT FROM AUTHOR]

Published

2024

6. Frontispiece: Molecular Semiconductor Surfactants with Fullerenol Heads and Colored Tails for Carbon Dioxide Photoconversion.

Author

Kunkel, Marius, Sutter, Sebastian, and Polarz, Sebastian

Subjects

CARBON dioxide, SURFACE active agents, SEMICONDUCTORS, TAILS, FULLERENES

Published

2019