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Your search keyword '"Stoltzfus, Dani M."' showing total 25 results
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25 results on '"Stoltzfus, Dani M."'

1. Perdeuteration of poly[2-methoxy-5-(2'-ethylhexyloxy)-1,4-phenylenevinylene] (d-MEHPPV): control of microscopic charge-carrier spin-spin coupling and of magnetic-field effects in optoelectronic devices

Author

Stoltzfus, Dani M., Joshi, Gajadhar, Popli, Henna, Jamali, Shirin, Kavand, Marzieh, Milster, Sebastian, Grünbaum, Tobias, Bange, Sebastian, Nahlawi, Adnan, Teferi, Mandefro Y., Atwood, Sabastian I., Leung, Anna E., Darwish, Tamim A., Malissa, Hans, Burn, Paul L., Lupton, John M., and Boehme, Christoph

Subjects
Condensed Matter - Materials Science
Abstract

Control of the effective local hyperfine fields in a conjugated polymer, poly[2-methoxy-5-(2'-ethylhexyloxy)-1,4-phenylenevinylene] (MEHPPV), by isotopic engineering is reported. These fields, evident as a frequency-independent line broadening mechanism in electrically detected magnetic resonance spectroscopy (EDMR), originate from the unresolved hyperfine coupling between the electronic spin of charge carrier pairs and the nuclear spins of surrounding hydrogen isotopes. The room temperature study of effects caused by complete deuteration of this polymer through magnetoresistance, magnetoelectroluminescence, coherent pulsed and multi-frequency EDMR, as well as inverse spin-Hall effect measurements, confirm the weak hyperfine broadening of charge carrier magnetic resonance lines. As a consequence, we can resolve coherent charge-carrier spin-beating, allowing for direct measurements of the magnitude of electronic spin-spin interactions. In addition, the weak hyperfine coupling allows us to resolve substantial spin-orbit coupling effects in EDMR spectra, even at low magnetic field strengths. These results illustrate the dramatic influence of hyperfine fields on the spin physics of organic light-emitting diode (OLED) materials at room temperature, and point to routes to reaching exotic ultra-strong resonant-drive regimes needed for the study of light-matter interactions., Comment: 22 pages (8 pages manuscript, 14 pages supplementary information)

Published
2019
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5. I06 Allele-selective inhibition of mutant htt transcription throughout the brain after subcutaneous administration of a patrol™-enabled investigational genetic therapy in the r6/2 Huntington’s disease transgenic mouse model

Author

Friedlander, Robert M, primary, Caro, Valentina Di, additional, Carlisle, Diane L, additional, Monks, Noel R, additional, Stoltzfus, Dani M, additional, Bennett, Natasha L, additional, Suofu, Yalikun, additional, Kim, Jinho, additional, Li, Fang, additional, Wang, Xiaomin, additional, Yeh, Stacy M, additional, Baranov, Oxana V, additional, Baranov, Sergei V, additional, Badeau, Barry A, additional, Gleaton, Jeremy W, additional, Cintrón-Rosado, Gabriel A, additional, Dyer, Ryan R, additional, Stephan, Dietrich A, additional, Mann, William R, additional, and Rojas-Caro, Sandra E, additional

Published
2022
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6. Pharmacokinetics, Biodistribution, and Exploration of the Mechanism of Central Nervous System Penetration of a PATrOL™-Enabled Investigational Genetic Therapy for Myotonic Dystrophy, Type 1 after a Single Subcutaneous or Intravenous Administration in the BALB/c Murine Model (P12-13.004)

Author

Hutabarat, Renta, primary, Badeau, Barry, additional, Stoltzfus, Dani M., additional, Mann, William, additional, Stephan, Dietrich A., additional, and Rojas-Caro, Sandra, additional

Published
2022
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7. Perdeuterated Conjugated Polymers for Ultralow-Frequency Magnetic Resonance of OLEDs

Author

Milster, Sebastian, Grünbaum, Tobias, Bange, Sebastian, Kurrmann, Simon, Kraus, Hermann, Stoltzfus, Dani M., Leung, Anna E., Darwish, Tamim A., Burn, Paul L., Boehme, Christoph, and Lupton, John M.

Subjects
conjugated polymers, deuteration, isotopes, magnetic resonance, organic light-emitting diodes, 530 Physik
Abstract

The formation of excitons in OLEDs is spin dependent and can be controlled by electron-paramagnetic resonance, affecting device resistance and electroluminescence yield. We explore electrically detected magnetic resonance in the regime of very low magnetic fields (

Published
2020
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8. Perdeuteration of poly[2-methoxy-5-(2'- ethylhexyloxy)-1,4-phenylenevinylene] (d-MEH-PPV): control of microscopic charge-carrier spin–spin coupling and of magnetic-field effects in optoelectronic devices

Author

Stoltzfus, Dani M., Joshi, Gajadhar, Popli, Henna, Jamali, Shirin, Kavand, Marzieh, Milster, Sebastian, Grünbaum, Tobias, Bange, Sebastian, Nahlawi, Adnan, Teferi, Mandefro Y., Atwood, Sabastian I., Leung, Anna E., Darwish, Tamim A., Malissa, Hans, Burn, Paul L., Lupton, John M., and Boehme, Christoph

Subjects
530 Physik
Abstract

Control of the effective local hyperfine fields in a conjugated polymer, poly[2-methoxy-5-(2'-ethylhexyloxy)-1,4-phenylenevinylene] (MEH-PPV), by isotopic engineering is reported. These fields, evident as a frequency- independent line broadening mechanism in electrically detected magnetic resonance (EDMR) spectroscopy, originate from the unresolved hyperfine coupling between the electronic spin of charge carrier pairs and the nuclear spins of surrounding hydrogen isotopes. The room temperature study of effects caused by complete deuteration of this polymer through magnetoresistance, magnetoelectroluminescence, coherent pulsed and multi-frequency EDMR, as well as inverse spin-Hall effect measurements, confirm the weak hyperfine broadening of charge-carrier magnetic resonance lines. As a consequence, we can resolve coherent charge-carrier spin-beating, allowing for direct measurements of the magnitude of electronic spin–spin interactions. In addition, the weak hyperfine coupling allows us to resolve sub- stantial spin–orbit coupling effects in the EDMR spectra, even at low magnetic field strengths. These results illustrate the dramatic influence of hyperfine fields on the spin physics of organic light-emitting diode (OLED) materials at room temperature, and point to routes to reaching exotic ultra-strong resonant-drive regimes in the study of light-matter interactions.

Published
2020
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13. Perdeuteration of poly[2-methoxy-5-(2′-ethylhexyloxy)-1,4-phenylenevinylene] (d-MEH-PPV): control of microscopic charge-carrier spin–spin coupling and of magnetic-field effects in optoelectronic devices

Author

Stoltzfus, Dani M., primary, Joshi, Gajadhar, additional, Popli, Henna, additional, Jamali, Shirin, additional, Kavand, Marzieh, additional, Milster, Sebastian, additional, Grünbaum, Tobias, additional, Bange, Sebastian, additional, Nahlawi, Adnan, additional, Teferi, Mandefro Y., additional, Atwood, Sabastian I., additional, Leung, Anna E., additional, Darwish, Tamim A., additional, Malissa, Hans, additional, Burn, Paul L., additional, Lupton, John M., additional, and Boehme, Christoph, additional

Published
2020
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20. Orange‐Red‐Light‐Emitting Field‐Effect Transistors Based on Phosphorescent Pt(II) Complexes with Area Emission

Author

Wawrzinek, Robert, primary, Muhieddine, Khalid, additional, Ullah, Mujeeb, additional, Koszo, Peter B., additional, Shaw, Paul E., additional, Grosjean, Arnaud, additional, Maasoumi, Fatemeh, additional, Stoltzfus, Dani M., additional, Clegg, Jack K., additional, Burn, Paul L., additional, Namdas, Ebinazar B., additional, and Lo, Shih‐Chun, additional

Published
2016
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25. An Hydrophilic Anode Interlayer for Solution Processed Organohalide Perovskite Solar Cells.

Author

Lin, Qianqian, Stoltzfus, Dani M., Armin, Ardalan, Burn, Paul L., and Meredith, Paul

Subjects
SOLAR cells, PEROVSKITE, TITANIUM dioxide, PHOTOCURRENTS, METAL fabrication, ANODES
Abstract

The article discusses study on hydrophilic anode interlayer for solution processed organohalide perovskite solar cells (PVSCs). Topics discussed include titanium dioxide (TiO2 ) as required insolubility for solution processed PVSCs, quantification of bimolecular recombination losses using the intensity-dependent photocurrent (IPC) technique and introduction of a polymer route that enables the fabrication of work function modifying interlayers for planar structure homojunction PVSCs.

Published
2016
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