J
Jitendra Singh
Researcher at Central Electronics Engineering Research Institute
Publications - 43
Citations - 677
Jitendra Singh is an academic researcher from Central Electronics Engineering Research Institute. The author has contributed to research in topics: Thin film & Dielectric. The author has an hindex of 12, co-authored 42 publications receiving 482 citations. Previous affiliations of Jitendra Singh include Bharat Electronics & Council of Scientific and Industrial Research.
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Pd/ZnO nanorods based sensor for highly selective detection of extremely low concentration hydrogen
TL;DR: This highly hydrogen selective Pd contacted ZnO nanorods based sensor detecting low concentration even at low operating temperature of 50 °C is reported, which exhibits dual characteristics as metal contact and excellent catalyst to hydrogen molecules.
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Enhanced room temperature ferromagnetism and green photoluminescence in Cu doped ZnO thin film synthesised by neutral beam sputtering
Dinesh C. Agarwal,Udai B. Singh,Srashti Gupta,Rahul Singhal,Pawan K. Kulriya,Fouran Singh,Ambuj Tripathi,Jitendra Singh,Utpal S. Joshi,D.K. Avasthi +9 more
TL;DR: The enhancement in magnetic moment as well as green emission in photoluminescence response with increase in Cu doping indicates that generation of large defects in ZnO by Cu doping, which can be attributed to combined effect of the presence of oxygen vacancies and/or structural inhomogeneity aswell as formation of bound magnetic polarons.
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Growth of residual stress-free ZnO films on SiO2/Si substrate at room temperature for MEMS devices
TL;DR: In this paper, the residual stress of ZnO films was measured by measuring the curvature of wafer using laser scanning method and found in the range of 0.18 x 109 to 11.28 x 109 dyne/cm2 with compressive in nature.
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Absence of room temperature ferromagnetism in Fe stabilized ZrO2 nanostructures and effect of Fe doping on its structural, optical and luminescence properties
TL;DR: In this article, the authors showed that the Fe doping induces magnetic transition from ferromagnetic to paramagnetic in Fe doped tetragonal ZrO 2 nanostructures.
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Schottky-contacted vertically self-aligned ZnO nanorods for hydrogen gas nanosensor applications
TL;DR: In this article, the authors used RF magnetron sputtering technique to grow ZnO nanorods on Si(100) substrate using X-ray diffraction to obtain high crystalline and optical quality of ZnOs and very low defect density.