M
Mahesh Kumar
Researcher at Indian Institute of Technology, Jodhpur
Publications - 266
Citations - 6760
Mahesh Kumar is an academic researcher from Indian Institute of Technology, Jodhpur. The author has contributed to research in topics: Molecular beam epitaxy & Heterojunction. The author has an hindex of 29, co-authored 204 publications receiving 4864 citations. Previous affiliations of Mahesh Kumar include Indian Institutes of Technology & Indian Institute of Technology Delhi.
Papers
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Correction: Corrigendum: A dual specificity kinase, DYRK1A, as a potential therapeutic target for head and neck squamous cell carcinoma
Aneesha Radhakrishnan,Vishalakshi Nanjappa,Remya Raja,Gajanan Sathe,Vinuth N Puttamallesh,Ankit P. Jain,Sneha M. Pinto,Sai A. Balaji,Sandip Chavan,Nandini A. Sahasrabuddhe,Premendu P. Mathur,Mahesh Kumar,T. S. Keshava Prasad,Vani Santosh,Geethanjali Sukumar,Joseph A. Califano,Annapoorni Rangarajan,David Sidransky,Akhilesh Pandey,Harsha Gowda,Aditi Chatterjee +20 more
TL;DR: This corrects the article DOI: 10.1038/srep36132 to indicate that the author of the paper is a doctor of medicine rather than a scientist, as previously reported.
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Ferroelectricity in a pure BiFeO3 ceramic
TL;DR: In this paper, the phase pure BiFeO3 was synthesized using the oxide mixing technique followed by leaching with dilute nitric acid, and X-ray diffraction pattern indicated that the sample is phase pure.
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Structure property relations in BiFeO3/BaTiO3 solid solutions
TL;DR: In this article, the relaxation time of BiFeO3 was estimated using the relaxation times of the intermediate compositions of the BaTiO3 mixture, and the authors showed that the capacitance observed is from the bulk of the sample.
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Enhanced sensing performance of ZnO nanostructures-based gas sensors: A review
TL;DR: In this paper, several techniques related to the synthesis of ZnO nanostructures and their efficient performance in sensing are reviewed, such as functionalization of noble metal nanoparticles, doping of metals, inclusion of carbonaceous nanomaterials, using nanocomposites of different MO x, UV activation, and post-treatment method of high-energy irradiation on ZnOs, with their possible sensing mechanisms.
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UV-activated MoS2 Based Fast and Reversible NO2 Sensor at Room Temperature
TL;DR: The demonstrated ultrafast detection and reversible MoS2 gas sensor at room temperature shows reliable selectivity toward NO2 against various other gases and reveals the potential of 2D MoS 2 to develop a low power portable gas sensor.