Morphological and structural characterization of single-crystal ZnO nanorod arrays on flexible and non-flexible substrates

Scholarly Works

• Lekoui, F.; Amrani, R.; Hassani, S.; Garoudja, E.; Filali, W.; Oussalah, S.; Dergham, D.; Akkari, H.; Sengouga, N. Comparative study of structural, optical and electrical properties variation of pure, (Ag, Mg) doped and co-doped ZnO nanostructured thin films. Zeitschrift für Naturforschung A 2023, 78, 669–680. doi:10.1515/zna-2023-0046
• Rajamanickam, S.; Mohammad, S. M.; Razak, I. A.; Muhammad, A.; Abed, S. M. Enhanced sensitivity from Ag micro-flakes encapsulated Ag-doped ZnO nanorods-based UV photodetector. Materials Research Bulletin 2023, 161, 112148. doi:10.1016/j.materresbull.2023.112148
• Raypah, M. E.; Ahmed, N. M.; Al-Hardan, N. H.; Almessiere, M. A. Seedless and surfactant-free growth of flower-shaped ZnO nanostructures: Growth evolution mechanism. International Journal of Modern Physics B 2023, 38. doi:10.1142/s0217979224501248
• Ahmed, M.; Alshahrie, A.; Shaaban, E. R. Resulting Effect of the p-Type of ZnTe: Cu Thin Films of the Intermediate Layer in Heterojunction Solar Cells: Structural, Optical, and Electrical Characteristics. Materials (Basel, Switzerland) 2023, 16, 3082. doi:10.3390/ma16083082
• Ashour, A.; Assem, E. E.; Shaaban, E. R. Investigation of dilute aluminum doped zinc oxide thin films: structural and morphological properties for varies applicationss. Journal of Ovonic Research 2022, 18, 699–711. doi:10.15251/jor.2022.185.699
• Agrohiya, S.; Dahiya, S.; Goyal, P. K.; Rawal, I.; Ohlan, A.; Punia, R.; Maan, A. S. Nickel Doped Zinc Oxide Thin Films for Visible Blind Ultraviolet Photodetection Applications. ECS Sensors Plus 2022, 1, 43601–043601. doi:10.1149/2754-2726/ac973f
• Boufelgha, F.; Brihi, N.; Labreche, F.; Guendouz, H.; Barbadj, A. Enhanced of Blue and Green Emission by Ce–ZnO Thin Films Prepared by Sol–Gel Technique. Semiconductors 2022, 56, 275–280. doi:10.1134/s1063782621100067
• Abubakar, S.; Chyi, J. L. Y.; Tan, S. T.; Sagadevan, S.; Talib, Z. A.; Paiman, S. Nanoscale domain imaging and the electromechanical response of zinc oxide nanorod arrays synthesized on different substrates. Journal of Materials Research and Technology 2021, 14, 2451–2463. doi:10.1016/j.jmrt.2021.07.125
• Lekoui, F.; Amrani, R.; Filali, W.; Garoudja, E.; Sebih, L.; Bakouk, I. E.; Akkari, H.; Hassani, S.; Saoula, N.; Oussalah, S.; Albalawi, H.; Alwadai, N.; Henini, M. Investigation of the effects of thermal annealing on the structural, morphological and optical properties of nanostructured Mn doped ZnO thin films. Optical Materials 2021, 118, 111236. doi:10.1016/j.optmat.2021.111236
• Rahman, M. R.; Uddin, M. N.; Ashrafy, T.; Washif, M.; Uddin, M. R.; Hoq, M.; Jalal, A. H. Tuning of Optical Band Gap: Genesis of Thickness Regulated Al Doped ZnO Nano-Crystalline Thin Films Formulated by Sol–Gel Spin Coating Approach. Transactions on Electrical and Electronic Materials 2021, 1–14.
• Rahman, M. R.; Uddin, M. N.; Ashrafy, T.; Washif, M.; Uddin, M. R.; Hoq, M.; Jalal, A. H. Tuning of Optical Band Gap: Genesis of Thickness Regulated Al Doped ZnO Nano-Crystalline Thin Films Formulated by Sol–Gel Spin Coating Approach. Transactions on Electrical and Electronic Materials 2021, 23, 205–218. doi:10.1007/s42341-021-00341-0
• Abuelsamen, A.; Mahmud, S.; Kaus, N. H. M.; Farhat, O.; Mohammad, S. M.; Al-Suede, F. S. R.; Majid, A. M. S. A. Novel Pluronic F‐127‐coated ZnO nanoparticles: Synthesis, characterization, and their in‐vitro cytotoxicity evaluation. Polymers for Advanced Technologies 2021, 32, 2541–2551. doi:10.1002/pat.5285
• Al Farsi, B.; Al Marzouqi, F.; Al-Maashani, M.; Souier, M. T.; Myint, M. T. Z.; Al-Abri, M. Rapid microwave-assisted fabrication of Al-doped zinc oxide nanorods on a glass substrate for photocatalytic degradation of phenol under visible light irradiation. Materials Science and Engineering: B 2021, 264, 114977. doi:10.1016/j.mseb.2020.114977
• Soni, A.; Mulchandani, K.; Mavani, K. Effects of substrates on the crystalline growth and UV photosensitivity of glancing angle deposited porous ZnO nanostructures. Sensors and Actuators A: Physical 2020, 313, 112140. doi:10.1016/j.sna.2020.112140
• Rajamanickam, S.; Mohammad, S. M.; Hassan, Z. Effect of zinc acetate dihydrate concentration on morphology of ZnO seed layer and ZnO nanorods grown by hydrothermal method. Colloid and Interface Science Communications 2020, 38, 100312. doi:10.1016/j.colcom.2020.100312
• Mosalagae, K.; Murape, D.; Lepodise, L. M. Effects of growth conditions on properties of CBD synthesized ZnO nanorods grown on ultrasonic spray pyrolysis deposited ZnO seed layers. Heliyon 2020, 6, e04458. doi:10.1016/j.heliyon.2020.e04458
• Abdulrahman, A. F.; Ahmed, S. M.; Ahmed, N. M.; Almessiere, M. A. Enhancement of ZnO Nanorods Properties Using Modified Chemical Bath Deposition Method: Effect of Precursor Concentration. Crystals 2020, 10, 386. doi:10.3390/cryst10050386
• Dewi, A. S. P.; Mufti, N.; Fibriyanti, A. A.; Diantoro, M.; Taufiq, A.; Hidayat, A. M.; Sunaryono; Nur, H. The improvement of Triboelectric effect of ZnO Nanorods/PAN in flexible Nanogenerator by adding TiO2 nanoparticle. Journal of Polymer Research 2020, 27, 1–10. doi:10.1007/s10965-020-02121-5
• Li, Y.; Liu, X.; Wen, D.; Lv, K.; Zhou, G.; Zhao, Y.; Xu, C.; Wang, J. Growth of c-plane and m-plane aluminium-doped zinc oxide thin films: epitaxy on flexible substrates with cubic-structure seeds. Acta crystallographica Section B, Structural science, crystal engineering and materials 2020, 76, 233–240. doi:10.1107/s2052520620002668
• Dang, V. T.; Nguyen, T. T. O.; Truong, T. H.; Le, A. T.; Nguyen, T. D. Facile synthesis of different ZnO nanostructures for detecting sub-ppm NO2 gas. Materials Today Communications 2020, 22, 100826. doi:10.1016/j.mtcomm.2019.100826

Explore citations to this article at