M. Irfan
Chinese Academy of Sciences
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Featured researches published by M. Irfan.
Journal of Applied Physics | 2018
Ali Hassan; Yuhua Jin; Feng Chao; M. Irfan; Yijian Jiang
Theoretically and experimentally evaluated optoelectronic properties of GZO (Ga-doped zinc oxide) were correlated in the present article. Density functional theory and Hubbard U (DFT + Ud + Up) first-principle calculations were used for the theoretical study. The pulsed laser deposition technique was used to fabricate GZO thin films on p-GaN, Al2O3, and p-Si substrates. X-ray diffraction graphs show single crystal growth of GZO thin films with (002) preferred crystallographic orientation. The chemical composition was studied via energy dispersive X-ray spectroscopy, and no other unwanted impurity-related peaks were found, which indicated the impurity-free thin film growth of GZO. Field emission scanning electron microscopic micrographs revealed noodle-, seed-, and granular-like structures of GZO/GaN, GZO/Al2O3, and GZO/Si, respectively. Uniform growth of GZO/GaN was found due to fewer mismatches between ZnO and GaN (0.09%). Hall effect measurements in the van der Pauw configuration were used to check elec...
Nanotechnology | 2018
W.J. Li; C. J. Wang; Xuanwen Zhang; M. Irfan; U. Khan; Yangyang Liu; X.F. Han
Multiphase CoCr2O4/Ni core-shell nanowires (NWs) have been synthesized within anodic aluminum oxide membranes by the combination of the sol-gel method with electrodeposition techniques. X-ray diffraction and x-ray photoemission spectroscopy results confirmed the formation of a cubic spinel structure of CoCr2O4 shell with space group Fd-3m (227). The morphology and composition of the as-grown NWs were studied by field emission scanning electron microscopy, as well as transmission electron microscopy. The magnetic properties of the CoCr2O4 NT shell and hybrid CoCr2O4/Ni NWs were measured at low temperature using a physical property measurement system. The temperature dependence of the magnetization curves showed that CoCr2O4 NTs undergo a transition from a paramagnetic state to a ferrimagnetic state at about 90 K and a spiral ordering transition temperature near 22 K. An enhanced coercivity and saturation field were observed for the CoCr2O4/Ni core-shell NWs compared to the single-phase Ni NWs. Micromagnetic simulation results indicated that there is a strong coupling between the shell and core layers during the magnetization reversal process. The combination of hard CoCr2O4 and soft Ni in a single NW structure may have potential applications in future multifunctional devices.
AIP Advances | 2018
Ali Hassan; Yuhua Jin; M. Irfan; Yijian Jiang
Fermi-Dirac distribution for doped semiconductors and Burstein-Moss effect have been correlated first time to figure out the conductivity type of ZnO. Hall Effect in the Van der Pauw configuration has been applied to reconcile our theoretical estimations which evince our assumption. Band-gap narrowing has been found in all p-type samples, whereas blue Burstein-Moss shift has been recorded in the n-type films. Atomic Force Microscopic (AFM) analysis shows that both p-type and n-type films have almost same granular-like structure with minor change in average grain size (∼ 6 nm to 10 nm) and surface roughness rms value 3 nm for thickness ∼315 nm which points that grain size and surface roughness did not play any significant role in order to modulate the conductivity type of ZnO. X-ray diffraction (XRD), Energy Dispersive X-ray Spectroscopy (EDS) and X-ray Photoelectron Spectroscopy (XPS) have been employed to perform the structural, chemical and elemental analysis. Hexagonal wurtzite structure has been observed in all samples. The introduction of nitrogen reduces the crystallinity of host lattice. 97% transmittance in the visible range with 1.4 × 107 Ω-1cm-1 optical conductivity have been detected. High absorption value in the ultra-violet (UV) region reveals that NZOs thin films can be used to fabricate next-generation high-performance UV detectors.
Materials Characterization | 2015
Muhammad Rashad; Fusheng Pan; Wei Guo; Han Lin; Muhammad Asif; M. Irfan
Nanoscale | 2016
U. Khan; W.J. Li; N. Adeela; M. Irfan; K. Javed; Caihua Wan; Saira Riaz; Xiufeng Han
Journal of Alloys and Compounds | 2017
M. Irfan; U. Khan; Wenjing Li; W. J. Kong; K. Javed; X.F. Han
Journal of Materials Science: Materials in Electronics | 2016
M. Irfan; Muhammad Usman; Asmat Elahi; U. Khan; Tahira Khan; K. Javed; Syed Shahbaz Ali; Abdul Shakoor
Journal of Alloys and Compounds | 2016
N. Adeela; U. Khan; M.A. Iqbal; Saira Riaz; M. Irfan; Hassan Ali; K. Javed; I. Bukhtiar; K. Maaz; Shahzad Naseem
Materials Letters | 2016
M. Irfan; U. Khan; Wenjing Li; N. Adeela; K. Javed; Xiufeng Han
Materials Letters | 2018
Ali Hassan; M. Irfan; Yijian Jiang