Your search keyword '"Witt, Christina"' showing total 6 results

1. Implementing a mandatory geriatrics clerkship

Author

Powers, Cathey S., Savidge, Mildred A., Allen, Ruth M., and Cooper-Witt, Christina M.

Subjects

Hospice care -- Study and teaching, Geriatrics -- Study and teaching, Aging -- Physiological aspects, Aged -- Care and treatment, Clinical medicine -- Curricula, Hormone therapy -- Study and teaching, Osteoporosis -- Study and teaching, Medical students -- Beliefs, opinions and attitudes, Medical colleges -- Curricula, Health, Seniors

Abstract

This article discusses the development and assessment of a geriatric clerkship for medical students. An evaluation of lessons on cognitive dysfunction, hospice care, hormone replacement therapy, osteoporosis, and cardiovascular disease is presented.

Published

2002

2. Understanding Method-Dependent Differences in Urbach Energies in Halide Perovskites

Author

Witt, Christina, Schötz, Konstantin, Köhler, Anna, and Panzer, Fabian

Abstract

The Urbach energy as a measure of energetic disorder is an important characteristic of semiconductors to evaluate their optoelectronic functionality. However, discrepancies occur in Urbach energy values EUdetermined via different measurement and analysis methods, whose origin of a profound understanding is still missing. To reliably analyze the origin of such discrepancies, we recorded quasi-simultaneously temperature-dependent absorption and photoluminescence (PL) spectra of halide perovskite (MAPbI3) thin-film and single-crystal samples. Performing profound Urbach analyses in an extended energy range down to 0.2 eV below the bandgap, we find energy-range-dependent exaggeration effects on Urbach energy values to be only present in the near bandgap region (∼0.02 eV below the bandgap), where non-Urbach absorption states start to contribute. Besides that, generally lower EUvalues and a lower temperature-dependence of EUare obtained from PL than from absorption, which originates from the sensitivity of PL for sites with lower energetic disorder and/or higher phonon energies in the excited-state geometry. Thus, our work is sensitized to proper interpretation and comparison of EUvalues and contributes to developing a more fundamental understanding of semiconductor materials.

Published

2024

3. Orientation and Grain Size in MAPbI3Thin Films: Influence on Phase Transition, Disorder, and Defects

Author

Witt, Christina, Schötz, Konstantin, Kuhn, Meike, Leupold, Nico, Biberger, Simon, Ramming, Philipp, Kahle, Frank-Julian, Köhler, Anna, Moos, Ralf, Herzig, Eva M., and Panzer, Fabian

Abstract

In recent years, record efficiencies of halide perovskite-based devices have been achieved by processing high-quality thin films, where small morphology differences seem to be relevant for optimized optoelectronic functionality. However, a detailed understanding on how small morphological changes in perovskite films affect their structural and optoelectronic properties is still missing. Here, we investigate the influence of small morphology differences (i.e., increased grain size and crystallographic orientation), which are induced by hot-pressing methylammonium lead iodide (MAPbI3) thin films, on the structural properties, phase transition behavior, energetic disorder, and defects. To this end, detailed temperature-dependent photoluminescence (PL) and absorption analyses from 300 K down to 5 K are performed. The morphology differences, confirmed by scanning electron microscopy and X-ray diffractometry analyses, result in an increased phase transition temperature for hot-pressed (HP) films, which we attribute to less strain. Moreover, fluence-dependent and transient PL measurements reveal a lower defect density in HP films. Here, besides grain size, also the degree of orientation appears to enhance the charge carrier lifetimes. The identified interdependence of strain and defect properties with film morphology suggests small differences in the perovskite’s energetic disorder. Our work thus emphasizes the importance that even small structural differences in halide perovskites have on their optoelectronic functionality, spurring their further optimization.

Published

2023

4. Mercury Data Group Inc

Author

Witt, Christina

Subjects

Online services -- Management, Mercury Data Group Inc. -- Management

Abstract

Whether the need is to communicate within the office, across town, or around the world, networking and Internet services have become vital tools for business today. Mercury Data Group, a […]

Published

1999

5. How the Microstructure of MAPbI3Powder Impacts Pressure-Induced Compaction and Optoelectronic Thick-Film Properties

Author

Witt, Christina, Leupold, Nico, Ramming, Philipp, Schötz, Konstantin, Moos, Ralf, and Panzer, Fabian

Abstract

Within the last few years, applying pressure to improve and alter the structural and optoelectronic properties of halide perovskite thin films and powder-based thick-film pellets has emerged as a promising processing method. However, a detailed understanding of the relationship between perovskite microstructure, pressing process, and final film properties is still missing. Here, we investigate the impact of powder microstructure on the compaction processes during pressure treatment and on the final properties of powder-pressed thick films, using the model halide perovskite methylammonium lead iodide (MAPbI3). Analyzing pressure relaxations together with XRD and SEM characterizations, we find that larger powder particles result in less compact thick films with higher surface roughness. Furthermore, larger particles exhibit stronger sintered connections between individual powder particles, resulting in less crushing and particle rearrangement but in more pronounced plastic deformation during pressure treatment. Moreover, plastic deformation of the powder particles leads to a reduction of crystallite size in the final film. This reduction results in increased nonradiative, defect-associated excited state recombination, as confirmed by photoluminescence investigations. More plastic deformation also deteriorates the grain boundary quality and consequently facilitates ion migration, which is reflected in higher electrical dark conductivities of the thick films. Thus, our work elucidates how important the design of the perovskite powder microstructure is for the pressure-induced compaction behavior and for the resulting structural, optical, and electrical thick-film properties. These insights will pave the way for tailored pressure processing of halide perovskite films with improved optoelectronic properties.

Published

2022

6. Identification and Biochemical Characterization ofArabidopsis thalianaSulfite Oxidase

Author

Eilers, Thomas, Schwarz, Günter, Brinkmann, Henner, Witt, Christina, Richter, Tim, Nieder, Jörg, Koch, Bettina, Hille, Russ, Hänsch, Robert, and Mendel, Ralf R.

Abstract

In mammals and birds, sulfite oxidase (SO) is a homodimeric molybdenum enzyme consisting of an N-terminal heme domain and a C-terminal molybdenum domain (EC 1.8.3.1). In plants, the existence of SO has not yet been demonstrated, while sulfite reductase as part of sulfur assimilation is well characterized. Here we report the cloning of a plant sulfite oxidase gene from Arabidopsis thalianaand the biochemical characterization of the encoded protein (At-SO). At-SO is a molybdenum enzyme with molybdopterin as an organic component of the molybdenum cofactor. In contrast to homologous animal enzymes, At-SO lacks the heme domain, which is evident both from the amino acid sequence and from its enzymological and spectral properties. Thus, among eukaryotes, At-SO is the only molybdenum enzyme yet described possessing no redox-active centers other than the molybdenum. UV-visible and EPR spectra as well as apparent Kmvalues are presented and compared with the hepatic enzyme. Subcellular analysis of crude cell extracts showed that SO was mostly found in the peroxisomal fraction. In molybdenum cofactor mutants, the activity of SO was strongly reduced. Using antibodies directed against At-SO, we show that a cross-reacting protein of similar size occurs in a wide range of plant species, including both herbacious and woody plants.

Published

2001