Your search keyword '"Sijie Zhang"' showing total 6 results

1. Hole-exciton interaction induced high field decay of magneto-electroluminescence in Alq3-based organic light-emitting diodes at room temperature

Author

Theo Kreouzis, William P. Gillin, Hang Gu, David F. Holford, Sijie Zhang, and Tingting Zhang

Subjects

Physics, Annihilation, Physics and Astronomy (miscellaneous), Condensed matter physics, Exciton, chemistry.chemical_element, 02 engineering and technology, Electron, Electroluminescence, 021001 nanoscience & nanotechnology, 01 natural sciences, Cathode, Magnetic field, law.invention, Condensed Matter::Materials Science, chemistry, Aluminium, law, 0103 physical sciences, OLED, 010306 general physics, 0210 nano-technology

Abstract

The magnetic field effects on the electroluminescence of aluminium tris-(8-hydroxyqinoline) (Alq3) based organic light emitting diodes have been investigated by varying the electron/hole ratio in the emissive layer. Experimental results reveal that a negative high field effect in the magneto-electroluminescence (MEL) can be found in devices with very low triplet exciton concentration at room temperature. This suggests triplet-triplet annihilation cannot be used to explain the negative high field MEL in the Alq3 system. Our results suggest that hole-exciton interaction may be the origin of the negative high field MEL and also, in parallel with this interaction, there is also the more common positive high field process occurring which has been tentatively attributed to electron-exciton interactions. The competition between these different processes decides the final shape of the MEL at high fields.

Published

2016

2. Controlling the quantity of α-Fe inside multiwall carbon nanotubes filled with Fe-based crystals: The key role of vapor flow-rate

Author

Jian Guo, Sijie Zhang, Gavin Mountjoy, Gang Xiang, Mark Baxendale, George Nevill, Serena Maugeri, Mu Lan, Yi He, Rory M. Wilson, Jiqiu Wen, Shanling Wang, and Filippo S. Boi

Subjects

Nanotube, Nanocomposite, Materials science, Physics and Astronomy (miscellaneous), Nanotechnology, Chemical vapor deposition, Carbon nanotube, Coercivity, Decomposition, law.invention, Nanolithography, Chemical engineering, law, X-ray crystallography

Abstract

The growth control of α-Fe inside multiwall carbon nanotubes has challenged researchers for more than a decade owing to the coexistence of this phase with Fe3C and γ-Fe. Previously, long heating treatments of 20 h have been used to decompose the encapsulated Fe-phases in C and Fe; however, these methods were limited by an unusual oxidation process leading to nanotube decomposition. In this letter, we report an alternative chemical vapour deposition approach that through an accurate control of the ferrocene-vapour flow-rate allows to achieve the direct encapsulation of 95% of α-Fe without additional heating treatments.

Published

2014

3. Ferromagnetic-organic interfacial states and their role on low voltage current injection in tris-8-hydroxyquinloline (Alq3) organic spin valves

Author

W. Li, William P. Gillin, Y. Q. Zhan, W. Si, K. Scott, Shuo Han, Theo Kreouzis, Alan J. Drew, Hongtao Zhang, Sijie Zhang, and P. Desai

Subjects

Organic semiconductor, Physics and Astronomy (miscellaneous), Ferromagnetism, Condensed matter physics, Chemistry, Electrode, Work function, Activation energy, Trapping, Spin (physics), Low voltage

Abstract

Organic Spin Valves (OSVs) operate at small bias (

Published

2014

4. Understanding the role of electron and hole trions on current transport in aluminium tris(8-hydroxyquinoline) using organic magnetoresistance

Author

Theo Kreouzis, R. Gotto, N. J. Rolfe, Sijie Zhang, William P. Gillin, K. A. Roy, and Maureen Willis

Subjects

Physics, Physics and Astronomy (miscellaneous), Magnetoresistance, Condensed matter physics, chemistry.chemical_element, Electron, Polaron, law.invention, Magnetic field, chemistry, Aluminium, law, OLED, Electric current, Light-emitting diode

Abstract

The change in current through an organic light emitting diode (OLED) when it is placed in a magnetic field has been dubbed organic magnetoresistance and provides a means to understand the spin interactions that are occurring in working devices. Whilst there are a wide range of interactions that have been proposed to be the cause of the measured effects, there is still a need to identify their individual roles and in particular how they respond to an applied magnetic field. In this work, we investigate the effect of changing the balance of electron and hole injection in a simple aluminium tris(8-hydroxyqinoline) based OLED and demonstrate that the triplet polaron interaction appears to be much stronger for electrons than for holes in this material.

Published

2014

5. Hole-exciton interaction induced high field decay of magneto-electroluminescence in Alq3-based organic light-emitting diodes at room temperature.

Author

Tingting Zhang, Holford, D. F., Hang Gu, Kreouzis, T., Sijie Zhang, and Gillin, W. P.

Subjects

EXCITON theory, PARTICLE interactions, ELECTROLUMINESCENCE, ALUMINUM compounds, ORGANIC light emitting diodes

Abstract

The magnetic field effects on the electroluminescence of aluminium tris-(8-hydroxyqinoline) (Alq3) based organic light emitting diodes have been investigated by varying the electron/hole ratio in the emissive layer. Experimental results reveal that a negative high field effect in the magnetoelectroluminescence (MEL) can be found in devices with very low triplet exciton concentration at room temperature. This suggests triplet-triplet annihilation cannot be used to explain the negative high field MEL in the Alq3 system. Our results suggest that hole-exciton interaction may be the origin of the negative high field MEL and also, in parallel with this interaction, there is also the more common positive high field process occurring which has been tentatively attributed to electronexciton interactions. The competition between these different processes decides the final shape of the MEL at high fields. [ABSTRACT FROM AUTHOR]

Published

2016

6. Understanding the role of electron and hole trions on current transport in aluminium tris(8-hydroxyquinoline) using organic magnetoresistance.

Author

Sijie Zhang, Willis, M., Gotto, R., Roy, K. A., Rolfe, N. J., Kreouzis, T., and Gillin, W. P.

Subjects

*HYDROXYQUINOLINE, *MAGNETORESISTANCE, *ELECTRON transport, *ORGANIC light emitting diodes, *MAGNETIC fields, *ELECTRONS

Abstract

The change in current through an organic light emitting diode (OLED) when it is placed in a magnetic field has been dubbed organic magnetoresistance and provides a means to understand the spin interactions that are occurring in working devices. Whilst there are a wide range of interactions that have been proposed to be the cause of the measured effects, there is still a need to identify their individual roles and in particular how they respond to an applied magnetic field. In this work, we investigate the effect of changing the balance of electron and hole injection in a simple aluminium tris(8-hydroxyqinoline) based OLED and demonstrate that the triplet polaron interaction appears to be much stronger for electrons than for holes in this material [ABSTRACT FROM AUTHOR]

Published

2014