Your search keyword '"Tawfik, Wael Z"' showing total 2 results

1. High Performance of Nanostructured Cu 2 O-Based Photodetectors Grown on a Ti/Mo Metallic Substrate.

Author

Abdelmoneim, Alhoda, Abdel-wahab, Mohamed Sh., Lee, June Key, Abdul Hameed, Meera Moydeen, Thamer, Badr M., Al-Enizi, Abdullah M., Alkhalifah, Rayana Ibrahim, and Tawfik, Wael Z.

Subjects

COPPER, PHOTODETECTORS, QUANTUM efficiency, LIGHT transmission, THIN films, METALLIC films

Abstract

In this work, cuprous oxide (Cu2O) thin films were prepared using a simplistic sputtering technique. The films were grown on both traditional fluorine-doped tin oxide (FTO) and Ti-metallic substrates. X-ray diffraction applied for investigation of the crystal structure proved that the Cu2O layer acquires the cubic structure with a (111) main peak at 2θ of 36.46°. The optical absorption and transmission were detected through the utilization of a UV-Vis spectrophotometer, and the optical bandgap for the Cu2O layer was determined to be ~2.15 eV using Tauc's equation. XPS and scanning electron microscopy were also performed for chemical structure and morphological investigation, respectively. The optoelectronic behaviors for the prepared samples were carried out using a Keithley source meter; the photocurrent density was measured in a range of applied voltage between −1 and 1 volt under the illumination of a xenon lamp with a power density of 100 mWcm−2. External quantum efficiency, sensitivity, responsivity, and detectivity were computed using proprietary models based on the experimental data. [ABSTRACT FROM AUTHOR]

Published

2023

2. Enhanced performance of GaN-based LEDs via electroplating of a patterned copper layer on the backside.

Author

Tawfik, Wael Z., Hyun, Gil Yong, Lee, Seong Jea, Ryu, Sang-Wan, Ha, Jun-Seok, and Lee, June Key

Subjects

*LIGHT emitting diodes, *ELECTROPLATING, *TENSILE strength, *STRAINS & stresses (Mechanics), *COPPER

Abstract

InGaN/GaN multi-quantum well light-emitting diodes (LEDs) are conventionally grown on a sapphire substrate due to a lack of compatible substrates with a high compressive strain. This is a result of the relatively large lattice, and thermal expansion coefficient mismatches between GaN and sapphire. The compressive strain is considered to be a major obstacle to further improve next-generation high-performance GaN-based LEDs. In this paper, we have designed, electroplated, and tested an efficient substrate using a patterned copper (Cu) layer on the backside of sapphire to relax the compressive strain in a GaN epilayer. The patterned Cu layer has a significant function in that it supports the GaN/sapphire LEDs with an external tensile stress. The external tensile stress is capable of compensating for the compressive strain in the GaN/sapphire LEDs by controlling the curvature of the wafer bowing. This patterned Cu layer, when applied to the GaN/sapphire LEDs, suppresses the compressive strain by up to 0.28 GPa. The GaN-based LEDs on this innovative and effective sapphire/Cu substrate offer improved optical and electrical performance. [ABSTRACT FROM AUTHOR]

Published

2018