Your search keyword '"Chou, Kang Wei"' showing total 39 results

1. Time-Resolved X-ray Microscopy of Spin-Torque-Induced Magnetic Vortex Gyration

Author

Bolte, Markus, Meier, Guido, Krueger, Benjamin, Drews, Andre, Eiselt, Rene, Bocklage, Lars, Bohlens, Stellan, Tyliszczak, Tolek, Vansteenkiste, Arne, Van Waeyenberge, Bartel, Chou, Kang Wei, Puzic, Aleksandar, and Stoll, Hermann

Subjects

Condensed Matter - Other Condensed Matter, Condensed Matter - Materials Science

Abstract

Time-resolved X-ray microscopy is used to image the influence of alternating high-density currents on the magnetization dynamics of ferromagnetic vortices. Spin-torque induced vortex gyration is observed in micrometer-sized permalloy squares. The phases of the gyration in structures with different chirality are compared to an analytical model and micromagnetic simulations, considering both alternating spinpolarized currents and the current's Oersted field. In our case the driving force due to spin-transfer torque is about 70% of the total excitation while the remainder originates from the current's Oersted field. This finding has implications to magnetic storage devices using spin-torque driven magnetization switching and domain-wall motion., Comment: 10 pages, 3 figures

Published

2008

2. Unraveling the Mechanism of Electrically Induced Adhesive Debonding: A Spectro‐Microscopic Study

Author

Anduix‐Canto, Clara, primary, Peral, Daniel, additional, Pérez‐Padilla, Víctor, additional, Diaz‐Rovira, Anna Maria, additional, Belmez Lledó, Alejandro, additional, Orme, Christine A., additional, Petrash, Stanislas, additional, Engels, Thomas, additional, and Chou, Kang Wei, additional

Published

2021

3. Use of Full-Field X- ray Imaging and Ptychographic X-ray Computed Tomography for the Investigation of 3D Morphology of Micro-Nano Silver Materials for Advanced Electronics Packaging Applications

Author

Lin, Yu-Chung, primary, Liu, Xiaoyang, additional, Chou, Kang-wei, additional, Tsai, Esther H. R., additional, Zhao, Chonghang, additional, Holler, Mirko, additional, Diaz, Ana, additional, Petrash, Stanislas, additional, Chen-Wiegart, Yu-chen Karen, additional, and Lee, Wah-Keat, additional

Published

2021

4. Advances in Magnetization Dynamics Using Scanning Transmission X-Ray Microscopy

Author

Tyliszczak, Tolek, primary and Chou, Kang Wei, additional

Published

2010

5. Unraveling the Mechanism of Electrically Induced Adhesive Debonding: A Spectro‐Microscopic Study.

Author

Anduix‐Canto, Clara, Peral, Daniel, Pérez‐Padilla, Víctor, Diaz‐Rovira, Anna Maria, Belmez Lledó, Alejandro, Orme, Christine A., Petrash, Stanislas, Engels, Thomas, and Chou, Kang Wei

Subjects

DEBONDING, CHEMICAL reactions, IONIC liquids, ADHESIVES

Abstract

The design of new electrically debondable adhesives has been an area of enormous interest for the recycling, repair, and reuse of electrical components for the last decade. However, the complexity of analyzing the debonding process under real conditions is a major obstacle for elucidating the mechanism. Here, a general mechanism for the electrical debonding of ionic acrylic adhesives based on imidazolium ionic liquids is reported. Using synchrotron‐based characterization techniques, in situ experiments mimicking real debonding conditions allowed for the first time the recording of ionic diffusion and chemical reactions during the debonding process. Diffusion of ionic species toward the electrodes triggers the debonding via electrochemical reactions at the adhesive–substrate interfaces. The selection of ionic adhesive chemistry and electrodelamination conditions will eventually determine the type of adhesive failure. A detailed understanding of the mechanism allows the development of new electrically debondable adhesives, which is crucial to promote circular economy and a more sustainable environment. [ABSTRACT FROM AUTHOR]

Published

2022

6. Unveiling 3D Morphology of Multiscale Micro‐Nanosilver Sintering for Advanced Electronics Manufacturing by Ptychographic X‐ray Nanotomography

Author

Lin, Yu-Chung, primary, Liu, Xiaoyang, additional, Chou, Kang Wei, additional, Tsai, Esther H. R., additional, Zhao, Chonghang, additional, Holler, Mirko, additional, Diaz, Ana, additional, Petrash, Stanislas, additional, and Chen-Wiegart, Yu-chen Karen, additional

Published

2020

7. Environmentally induced chemical and morphological heterogeneity of zinc oxide thin films

Author

Jiang, Hua, primary, Chou, Kang Wei, additional, Petrash, Stanislas, additional, Williams, Garth, additional, Thieme, Juergen, additional, Nykypanchuk, Dmytro, additional, Li, Li, additional, Muto, Atsushi, additional, and Chen-Wiegart, Yu-chen Karen, additional

Published

2016

8. Early science commissioning results of the sub-micron resolution X-ray spectroscopy beamline (SRX) in the field of materials science and engineering

Author

Chen-Wiegart, Yu-chen Karen, primary, Williams, Garth, additional, Zhao, Chonghang, additional, Jiang, Hua, additional, Li, Li, additional, Demkowicz, Michael, additional, Seita, Matteo, additional, Short, Mike, additional, Ferry, Sara, additional, Wada, Takeshi, additional, Kato, Hidemi, additional, Chou, Kang Wei, additional, Petrash, Stanislas, additional, Catalano, Jaclyn, additional, Yao, Yao, additional, Murphy, Anna, additional, Zumbulyadis, Nicholas, additional, Centeno, Silvia A., additional, Dybowski, Cecil, additional, and Thieme, Juergen, additional

Published

2016

9. Impact of Molecular Orientation and Spontaneous Interfacial Mixing on the Performance of Organic Solar Cells

Author

Ngongang Ndjawa, Guy O., primary, Graham, Kenneth R., additional, Li, Ruipeng, additional, Conron, Sarah M., additional, Erwin, Patrick, additional, Chou, Kang Wei, additional, Burkhard, George F., additional, Zhao, Kui, additional, Hoke, Eric T., additional, Thompson, Mark E., additional, McGehee, Michael D., additional, and Amassian, Aram, additional

Published

2015

10. Vortex dynamics studied by time-resolved X-ray microscopy

Author

Chou, Kang Wei and Schütz, Gisela (Prof. Dr.)

Subjects

Magnetism , X-ray Microscopy , Vortex Dynamics, Magnetismus , Röntgenmikroskopie , Spindynamik, Vortexstrukturen

Abstract

The main topic of this work is the study of the magnetization dynamics in thin film, confined magnetic structures with a lateral size in the micron and submicron range, more specifically in structures with a single vortex. The change of the magnetization distribution was investigated under the influence of a time varying magnetic field. Time-resolved measurements, based on a stroboscopic measuring scheme, were therefore implemented into a scanning transmission x-ray microscope (STXM). A time and lateral resolution of about 70 – 100 ps and 30 – 40 nm can be achieved respectively. Initially, a brief introduction is given to the physics of magnetism and the basic concepts of magnetization dynamics, with special emphasis on the dynamic behaviour of magnetic vortex structures. The employed experimental technique is described next. Special attention goes to the experimental setup for time-resolved STXM measurements, where three different excitation types were developed: pulsed, sine and burst excitation. Finally, the experimental results are presented. The static configuration of micron-sized vortex structures was imaged. The in-plane as well as the out-of-plane magnetic contrast were recorded. The in-plane curling magnetization can clearly be observed thanks to the XMCD effect. Beside single layers, stacks of two different ferromagnetic layers (Permalloy & Co) with an insulating Cu layer in between, were also probed separately by taking advantage of the element specificity of the XMCD effect. Complex domain patterns appear due to a coupling between the magnetic layers. The gyrotropic mode in ferromagnetic structures with a single vortex, was investigated intensively. Not only was the gyrotropic motion imaged, providing qualitative information, but quantitative results were derived as well. In the first instance, a differential imaging technique was introduced reducing drastically the signal-to-noise-ratio. The gyrotropic motion was then observed by recording images of the relaxation process after a fast in-plane field pulse excitation. The resonance frequency of the gyrotropic mode was determined as a function of the aspect ratio of the patterns. The excitation of a vortex structure with single bursts, showed that the vortex core was gyrating with a constantly increasing phase shift. Furthermore, the gyrotropic motion was observed using a resonant sine excitation with a frequency close to the gyrotropic resonance frequency. At very low field amplitudes, a linear response was observed for the extent of the gyrotropic motion (~ velocity) as a function of the field amplitude. Non-linear effects occur at slightly higher field amplitudes of the exciting field. The reversal of the out-of-plane vortex core magnetization was performed by changing the amplitude of the alternating magnetic field. The reversal was observed indirectly by investigating the sense of gyration, but also directly by imaging the out-of-plane magnetic contrast. Different field amplitude levels were observed with a fixed vortex core polarization, but both states can appear at lower field amplitudes, showing a complex hysteresis behaviour. A different reversal scheme was introduced as well where the out-of-plane vortex core magnetization could be reversed by applying short in-plane bursts of an alternating magnetic field. Two dimensional micromagnetic simulations indicated that the reversal process is the result of the consecutive creation and annihilation of a vortex-antivortex pair. Finally, the vortex core velocity was determined as a function of the field amplitude of the alternating magnetic field. Clear jumps occur at the corresponding switching thresholds. Additionally, in a specific field amplitude range, a clear discrepancy can be distinguished in the vortex core speed for a core pointing up and down, respectively. The gyrotropic motion was also imaged for a trilayer system composed of two different ferromagnetic layers (Permalloy & Co) with an insulating Cu layer in between. The stack was excited with an alternating magnetic field and due to the coupling between the ferromagnetic layers, different dynamic motions appear in the two layers. The motion in the Co layer deviates from a gyrotropic motion. In conclusion, a short overview is given with the perspectives for future measurements and how it can possibly be improved., Im Rahmen der vorliegenden Arbeit wurde die Magnetisierungsdynamik an nanostrukturierten ferromagnetischen Schichten mit Hilfe eines zeitaufgelösten magnetischen Raster-Transmissions-Röntgenmikroskops (STXM: scanning transmission x-ray microscope) untersucht. Nach einer kurzen Einführung zur Motivation der Arbeit, wird zuerst ein Überblick über die physikalisch-theoretischen Grundlagen des Mikromagnetismus gegeben, die durch die mikromagnetische Kontinuumstheorie beschrieben werden. Dabei wird sowohl auf die statische Theorie eingegangen als auch auf die dynamischen Gleichungen, die zur Lösung zeitabhängiger magnetischer Probleme benötigt werden. Danach wird die Spindynamik in magnetischen Wirbelstrukturen (Vortexstrukturen) behandelt. Die wichtigsten Methoden zur zeitaufgelösten Abbildung magnetischer Domänen werden im nächsten Abschnitt der Arbeit vorgestellt, darunter insbesondere die magnetische Raster-Transmissions-Röntgenmikroskopie. Die Implementierung zeitlich aufgelöster stroboskopischer Messungen an einem magnetischen Raster-Transmissions-Röntgenmikroskop wird dargestellt und verschiedene Anregungsarten bei stroboskopischen Messungen werden erörtert. Im nächsten Abschnitt werden die experimentellen Messergebnisse vorgestellt und anschließend diskutiert. Die statische Magnetisierungsverteilung von Vortexstrukturen wird als erstes beschrieben. Untersucht wurden Strukturen mit einem einzelnen Vortexkern. Dabei wurde der magnetische Kontrast sowohl in der Schichtebene als auch senkrecht dazu beobachtet. Auch Mehrschichtsysteme, bestehend aus zwei ferromagnetische Schichten (Permalloy & Co) mit einer nichtferromagnetischen Cu Zwischenschicht, wurden untersucht. Hier treten durch die magnetische Kopplung zwischen den ferromagnetischen Schichten komplizierte Magnetisierungsverteilungen auf. In einem weiteren Abschnitt der Arbeit werden die Ergebnisse dynamischer Messungen vorgestellt. Als erstes wird eine differenzielle Abbildungsmethode beschrieben, mit deren Hilfe die gyrotrope Bewegung in den Vortexstrukturen mit verbessertem Signal-Rausch-Verhältnis untersucht werden können. Der magnetische Kontrast sowohl in der Schichtebene als auch senkrecht dazu wurde gemessen. Vortexstrukturen in verschiedenen Geometrien wurden mit schnellen Magnetfeldpulsen angeregt. Aus dem Relaxationsprozess konnte dabei die Resonanzfrequenz abgeleitet werden. Es ergab sich ein linearer Zusammenhang zwischen der Resonanzfrequenz und der Dicke sowie dem Kehrwert des Durchmessers der Probe. Die Resonanzfrequenz verläuft auch linear mit der Dicke der Probe. Daraufhin wurde die gyrotrope Mode durch ein magnetisches Wechselfeld mit einer Frequenz in der Nähe der Resonanzfrequenz angeregt. Hierbei konnte eine Veränderung des magnetischen Kontrasts senkrecht zur Strukturebene beobachtet werden, die eine Verformung des Vortexkerns anzeigt. Nichtlineare Effekte treten bei einer leichten Erhöhung der Amplitude auf und bewirken ein Umschalten der Magnetisierungsrichtung des Vortexkerns. Dieses Umschalten konnte nachgewiesen werden sowohl über die Änderung des Drehsinns der gyrotropen Bewegung als auch direkt über die Änderung des magnetisches Kontrasts senkrecht zur Strukturebene. Die Schwellen für dieses Schalten wurden ausführlich untersucht. Bei schneller Änderung der Amplitude des Wechselfeldes konnten Hysterese-Effekte festgestellt werden. Ein Umschalten des Vortexkerns konnte auch beobachtet werden bei Anregung durch eine einzelne Periode eines Hochfrequenzfeldes. Die Erklärung für das in dieser Arbeit beschriebene Schalten der Polarisation des Vortexkerns besteht in einer Erzeugung und Vernichtung eines Vortex-Antivortex-Paars, wie durch mikromagnetische Simulationen gezeigt werden konnte. Die Geschwindigkeit des Vortexkerns wurde als Funktion der Amplitude des Wechselfeldes bestimmt. Bei der Schaltschwellen werden Sprünge in der Geschwindigkeit beobachtet. In einem bestimmten Amplituden-Bereich stellt man auch einen großen Unterschied in der Geschwindigkeit fest, je nachdem ob der Vortexkern nach oben oder unten orientiert ist. Die gyrotrope Bewegung bei Anregung mit einem Wechselfeld wurde ebenfalls in Mehrschichtsystemen, bestehend aus zwei ferromagnetischen Schichten (Permalloy & Co) und einer nichtferromagnetischen Cu Zwischenlage, untersucht. Durch die Kopplung der beiden magnetischen Schichten wird die gyrotrope Bewegung in diesen Schichten vollständig verändert. Verschiedene dynamische Effekte konnten beobachtet werden zwischen beiden ferromagnetischen Schichten, aber es handelt sich nicht mehr um eine einfache Gyrationsbewegung. Abschließend wird ein Ausblick auf zukünftige Messungen gegeben und mögliche Verbesserungen der Messanordnung erörtert.

Published

2008

11. Efficient Spray-Coated Colloidal Quantum Dot Solar Cells

Author

Kramer, Illan J., primary, Minor, James C., additional, Moreno-Bautista, Gabriel, additional, Rollny, Lisa, additional, Kanjanaboos, Pongsakorn, additional, Kopilovic, Damir, additional, Thon, Susanna M., additional, Carey, Graham H., additional, Chou, Kang Wei, additional, Zhitomirsky, David, additional, Amassian, Aram, additional, and Sargent, Edward H., additional

Published

2014

12. In Situ Morphology Studies of the Mechanism for Solution Additive Effects on the Formation of Bulk Heterojunction Films

Author

Richter, Lee J., primary, DeLongchamp, Dean M., additional, Bokel, Felicia A., additional, Engmann, Sebastian, additional, Chou, Kang Wei, additional, Amassian, Aram, additional, Schaible, Eric, additional, and Hexemer, Alexander, additional

Published

2014

13. The roles of bulk and interfacial molecular orientations in determining the performance of organic bilayer solar cells (presentation video)

Author

Ngongang Ndjawa, Guy O., additional, Graham, Kenneth R., additional, Conron, Sarah, additional, Erwin, Patrick, additional, Li, Ruipeng, additional, Chou, Kang Wei, additional, Burkhard, George, additional, Krishnan Jagadamma, Lethy, additional, Hoke, Eric T., additional, McGehee, Michael D., additional, Thompson, Mark E., additional, and Amassian, Aram, additional

Published

2014

14. High‐Performance Quantum‐Dot Solids via Elemental Sulfur Synthesis

Author

Yuan, Mingjian, primary, Kemp, Kyle W., additional, Thon, Susanna M., additional, Kim, Jin Young, additional, Chou, Kang Wei, additional, Amassian, Aram, additional, and Sargent, Edward H., additional

Published

2014

15. Photovoltaics: The Complete In-Gap Electronic Structure of Colloidal Quantum Dot Solids and Its Correlation with Electronic Transport and Photovoltaic Performance (Adv. Mater. 6/2014)

Author

Katsiev, Khabiboulakh, primary, Ip, Alexander H., additional, Fischer, Armin, additional, Tanabe, Iori, additional, Zhang, Xin, additional, Kirmani, Ahmad R., additional, Voznyy, Oleksandr, additional, Rollny, Lisa R., additional, Chou, Kang Wei, additional, Thon, Susanna M., additional, Carey, Graham H., additional, Cui, Xiaoyu, additional, Amassian, Aram, additional, Dowben, Peter, additional, Sargent, Edward H., additional, and Bakr, Osman M., additional

Published

2014

16. The Complete In-Gap Electronic Structure of Colloidal Quantum Dot Solids and Its Correlation with Electronic Transport and Photovoltaic Performance

Author

Katsiev, Khabiboulakh, primary, Ip, Alexander H., additional, Fischer, Armin, additional, Tanabe, Iori, additional, Zhang, Xin, additional, Kirmani, Ahmad R., additional, Voznyy, Oleksandr, additional, Rollny, Lisa R., additional, Chou, Kang Wei, additional, Thon, Susanna M., additional, Carey, Graham H., additional, Cui, Xiaoyu, additional, Amassian, Aram, additional, Dowben, Peter, additional, Sargent, Edward H., additional, and Bakr, Osman M., additional

Published

2013

17. Solar Cells: Solvent Additive Effects on Small Molecule Crystallization in Bulk Heterojunction Solar Cells Probed During Spin Casting (Adv. Mater. 44/2013)

Author

Perez, Louis A., primary, Chou, Kang Wei, additional, Love, John A., additional, van der Poll, Thomas S., additional, Smilgies, Detlef-M., additional, Nguyen, Thuc-Quyen, additional, Kramer, Edward J., additional, Amassian, Aram, additional, and Bazan, Guillermo C., additional

Published

2013

18. Solvent Additive Effects on Small Molecule Crystallization in Bulk Heterojunction Solar Cells Probed During Spin Casting

Author

Perez, Louis A., primary, Chou, Kang Wei, additional, Love, John A., additional, van der Poll, Thomas S., additional, Smilgies, Detlef‐M., additional, Nguyen, Thuc‐Quyen, additional, Kramer, Edward J., additional, Amassian, Aram, additional, and Bazan, Guillermo C., additional

Published

2013

19. Solar Cells: Spin-Cast Bulk Heterojunction Solar Cells: A Dynamical Investigation (Adv. Mater. 13/2013)

Author

Chou, Kang Wei, primary, Yan, Buyi, additional, Li, Ruipeng, additional, Li, Er Qiang, additional, Zhao, Kui, additional, Anjum, Dalaver H., additional, Alvarez, Steven, additional, Gassaway, Robert, additional, Biocca, Alan, additional, Thoroddsen, Sigurdur T., additional, Hexemer, Alexander, additional, and Amassian, Aram, additional

Published

2013

20. Cover Picture: Look fast: Crystallization of conjugated molecules during solution shearing probed in‐situ and in real time by X‐ray scattering (Phys. Status Solidi RRL 3/2013)

Author

Smilgies, Detlef‐M., primary, Li, Ruipeng, additional, Giri, Gaurav, additional, Chou, Kang Wei, additional, Diao, Ying, additional, Bao, Zhenan, additional, and Amassian, Aram, additional

Published

2013

21. Spin‐Cast Bulk Heterojunction Solar Cells: A Dynamical Investigation

Author

Chou, Kang Wei, primary, Yan, Buyi, additional, Li, Ruipeng, additional, Li, Er Qiang, additional, Zhao, Kui, additional, Anjum, Dalaver H., additional, Alvarez, Steven, additional, Gassaway, Robert, additional, Biocca, Alan, additional, Thoroddsen, Sigurdur T., additional, Hexemer, Alexander, additional, and Amassian, Aram, additional

Published

2013

22. Electric field-induced hole transport in copper(i) thiocyanate (CuSCN) thin-films processed from solution at room temperature

Author

Pattanasattayavong, Pichaya, primary, Ndjawa, Guy Olivier Ngongang, additional, Zhao, Kui, additional, Chou, Kang Wei, additional, Yaacobi-Gross, Nir, additional, O'Regan, Brian C., additional, Amassian, Aram, additional, and Anthopoulos, Thomas D., additional

Published

2013

23. Look fast: Crystallization of conjugated molecules during solution shearing probed in-situ and in real time by X-ray scattering

Author

Smilgies, Detlef-M., primary, Li, Ruipeng, additional, Giri, Gaurav, additional, Chou, Kang Wei, additional, Diao, Ying, additional, Bao, Zhenan, additional, and Amassian, Aram, additional

Published

2012

24. Diketopyrrolopyrrole–Diketopyrrolopyrrole-Based Conjugated Copolymer for High-Mobility Organic Field-Effect Transistors

Author

Kanimozhi, Catherine, primary, Yaacobi-Gross, Nir, additional, Chou, Kang Wei, additional, Amassian, Aram, additional, Anthopoulos, Thomas D., additional, and Patil, Satish, additional

Published

2012

25. Hybrid passivated colloidal quantum dot solids

Author

Ip, Alexander H., primary, Thon, Susanna M., additional, Hoogland, Sjoerd, additional, Voznyy, Oleksandr, additional, Zhitomirsky, David, additional, Debnath, Ratan, additional, Levina, Larissa, additional, Rollny, Lisa R., additional, Carey, Graham H., additional, Fischer, Armin, additional, Kemp, Kyle W., additional, Kramer, Illan J., additional, Ning, Zhijun, additional, Labelle, André J., additional, Chou, Kang Wei, additional, Amassian, Aram, additional, and Sargent, Edward H., additional

Published

2012

26. Inorganic passivation and doping control in colloidal quantum dot photovoltaics

Author

Hoogland, Sjoerd, primary, Ip, Alex, additional, Thon, Susanna, additional, Voznyy, Olexandr, additional, Tang, Jiang, additional, Liu, Huan, additional, Zhitomirsky, David, additional, Debnath, Ratan, additional, Levina, Larissa, additional, Rollny, Lisa R., additional, Fischer, Armin, additional, Kemp, Kyle W., additional, Kramer, Illan J., additional, Ning, Zhijun, additional, Labelle, Andre J., additional, Chou, Kang Wei, additional, Amassian, Aram, additional, and Sargent, Edward H., additional

Published

2012

27. Colloidal-quantum-dot photovoltaics using atomic-ligand passivation

Author

Tang, Jiang, primary, Kemp, Kyle W., additional, Hoogland, Sjoerd, additional, Jeong, Kwang S., additional, Liu, Huan, additional, Levina, Larissa, additional, Furukawa, Melissa, additional, Wang, Xihua, additional, Debnath, Ratan, additional, Cha, Dongkyu, additional, Chou, Kang Wei, additional, Fischer, Armin, additional, Amassian, Aram, additional, Asbury, John B., additional, and Sargent, Edward H., additional

Published

2011

28. Magnetic antivortex-core reversal by rotating magnetic fields

Author

Kamionka, Thomas, primary, Martens, Michael, additional, Chou, Kang Wei, additional, Drews, André, additional, Tyliszczak, Tolek, additional, Stoll, Hermann, additional, Van Waeyenberge, Bartel, additional, and Meier, Guido, additional

Published

2011

29. Coupled Vortex Oscillations in Spatially Separated Permalloy Squares

Author

Vogel, Andreas, primary, Kamionka, Thomas, additional, Martens, Michael, additional, Drews, André, additional, Chou, Kang Wei, additional, Tyliszczak, Tolek, additional, Stoll, Hermann, additional, Van Waeyenberge, Bartel, additional, and Meier, Guido, additional

Published

2011

30. Magnetic Antivortex-Core Reversal by Circular-Rotational Spin Currents

Author

Kamionka, Thomas, primary, Martens, Michael, additional, Chou, Kang Wei, additional, Curcic, Michael, additional, Drews, André, additional, Schütz, Gisela, additional, Tyliszczak, Tolek, additional, Stoll, Hermann, additional, Van Waeyenberge, Bartel, additional, and Meier, Guido, additional

Published

2010

31. X-ray Microscopy Imaging of the Grain Orientation in a Pentacene Field-Effect Transistor

Author

Bräuer, Björn, primary, Virkar, Ajay, additional, Mannsfeld, Stefan C. B., additional, Bernstein, David P., additional, Kukreja, Roopali, additional, Chou, Kang Wei, additional, Tyliszczak, Tolek, additional, Bao, Zhenan, additional, and Acremann, Yves, additional

Published

2010

32. Direct imaging of current induced magnetic vortex gyration in an asymmetric potential well

Author

Bisig, Andre, primary, Rhensius, Jan, additional, Kammerer, Matthias, additional, Curcic, Michael, additional, Stoll, Hermann, additional, Schütz, Gisela, additional, Van Waeyenberge, Bartel, additional, Chou, Kang Wei, additional, Tyliszczak, Tolek, additional, Heyderman, Laura J., additional, Krzyk, Stephen, additional, von Bieren, Arndt, additional, and Kläui, Mathias, additional

Published

2010

33. Time-Resolved X-Ray Microscopy of Spin-Torque-Induced Magnetic Vortex Gyration

Author

Bolte, Markus, primary, Meier, Guido, additional, Krüger, Benjamin, additional, Drews, André, additional, Eiselt, René, additional, Bocklage, Lars, additional, Bohlens, Stellan, additional, Tyliszczak, Tolek, additional, Vansteenkiste, Arne, additional, Van Waeyenberge, Bartel, additional, Chou, Kang Wei, additional, Puzic, Aleksandar, additional, and Stoll, Hermann, additional

Published

2008

34. Vortex dynamics in coupled ferromagnetic multilayer structures

Author

Chou, Kang Wei, primary, Puzic, Aleksandar, additional, Stoll, Hermann, additional, Schütz, Gisela, additional, Van Waeyenberge, Bartel, additional, Tyliszczak, Tolek, additional, Rott, Karsten, additional, Reiss, Günter, additional, Brückl, Hubert, additional, Neudecker, Ingo, additional, Weiss, Dieter, additional, and Back, Christian H., additional

Published

2006

35. Spatially resolved ferromagnetic resonance: Imaging of ferromagnetic eigenmodes

Author

Puzic, Aleksandar, primary, Van Waeyenberge, Bartel, additional, Chou, Kang Wei, additional, Fischer, Peter, additional, Stoll, Hermann, additional, Schütz, Gisela, additional, Tyliszczak, Tolek, additional, Rott, Karsten, additional, Brückl, Hubert, additional, Reiss, Günter, additional, Neudecker, Ingo, additional, Haug, Thomas, additional, Buess, Matthias, additional, and Back, Christian H., additional

Published

2005

36. In Situ Morphology Studies of the Mechanism for Solution Additive Effects on the Formation of Bulk Heterojunction Films.

Author

Richter, Lee J., DeLongchamp, Dean M., Bokel, Felicia A., Engmann, Sebastian, Chou, Kang Wei, Amassian, Aram, Schaible, Eric, and Hexemer, Alexander

Subjects

PHOTOVOLTAIC power generation, HETEROJUNCTIONS, SEMICONDUCTOR junctions, X-ray diffraction, X-ray scattering, BUTYRIC acid

Abstract

The most successful active film morphology in organic photovoltaics is the bulk heterojunction (BHJ). The performance of a BHJ arises from a complex interplay of the spatial organization of the segregated donor and acceptor phases and the local order/quality of the respective phases. These critical morphological features develop dynamically during film formation, and it has become common practice to control them by the introduction of processing additives. Here, in situ grazing incidence X-ray diffraction (GIXD) and grazing incidence small angle X-ray scattering (GISAXS) studies of the development of order in BHJ films formed from the donor polymer poly(3-hexylthiophene) and acceptor phenyl-C61-butyric acid methyl ester under the influence of two common additives, 1,8-octanedithiol and 1-chloronaphthalene, are reported. By comparing optical aggregation to crystallization and using GISAXS to determine the number and nature of phases present during drying, two common mechanisms by which the additives increase P3HT crystallinity are identified. Additives accelerate the appearance of pre-crystalline nuclei by controlling solvent quality and allow for extended crystal growth by delaying the onset of PCBM-induced vitrification. The glass transition effects vary system-to-system and may be correlated to the number and composition of phases present during drying. [ABSTRACT FROM AUTHOR]

Published

2015

37. Efficient Spray-Coated Colloidal Quantum Dot Solar Cells.

Author

Kramer, Illan J., Minor, James C., Moreno-Bautista, Gabriel, Rollny, Lisa, Kanjanaboos, Pongsakorn, Kopilovic, Damir, Thon, Susanna M., Carey, Graham H., Chou, Kang Wei, Zhitomirsky, David, Amassian, Aram, and Sargent, Edward H.

Published

2015

38. The Complete In-Gap Electronic Structure of Colloidal Quantum Dot Solids and Its Correlation with Electronic Transport and Photovoltaic Performance.

Author

Katsiev, Khabiboulakh, Ip, Alexander H., Fischer, Armin, Tanabe, Iori, Zhang, Xin, Kirmani, Ahmad R., Voznyy, Oleksandr, Rollny, Lisa R., Chou, Kang Wei, Thon, Susanna M., Carey, Graham H., Cui, Xiaoyu, Amassian, Aram, Dowben, Peter, Sargent, Edward H., and Bakr, Osman M.

Published

2014

39. Look fast: Crystallization of conjugated molecules during solution shearing probed in-situ and in real time by X-ray scattering.

Author

Smilgies, Detlef‐M., Li, Ruipeng, Giri, Gaurav, Chou, Kang Wei, Diao, Ying, Bao, Zhenan, and Amassian, Aram

Abstract

High-speed solution shearing, in which a drop of dissolved material is spread by a coating knife onto the substrate, has emerged as a versatile, yet simple coating technique to prepare high-mobility organic thin film transistors. Solution shearing and subsequent drying and crystallization of a thin film of conjugated molecules is probed in situ using microbeam grazing incidence wide-angle X-ray scattering (μGIWAXS). We demonstrate the advantages of this approach to study solution based crystal nucleation and growth, and identify casting parameter combinations to cast highly ordered and laterally aligned molecular thin films. [ABSTRACT FROM AUTHOR]

Published

2013