Investigations on TiO2-NiO@In2O3 Nanocomposite Thin Films (NCTFs) for Gas Sensing: Synthesis, Physical Characterization, and Detection of NO2 and H2S Gas Sensors

[1]. Azpiroz R., Carretero E., Cueva A., González A., Iglesias M., Pérez-Torrente J.J., In-flow photocatalytic oxidation of NO on glasses coated with nanocolumnar porous TiO2 thin films prepared by reactive sputtering, Applied Surface Science, 2022, 606:154968 [Crossref], [Google Scholar], [Publisher] [2]. A) Kaur M., Jain N., Sharma K., Bhattacharya S., Roy M., Tyagi A., Gupta S., Yakhmi J., Room-temperature H2S gas sensing at ppb level by single crystal In2O3 whiskers, Sensors and Actuators B: Chemical, 2008, 133:456 [Crossref], [Google Scholar], [Publisher] B) Mohajer F., Mohammadi Ziarani G., Badiei A., New advances on modulating nanomagnetic cores as the MRI-monitored drug release in cancer, Journal of Applied Organometallic Chemistry, 2021, 1:143 [Crossref], [Google Scholar], [Publisher] C) Vaeli N., Laboratory experiment of the extraction of active pharmaceutical ingredients of Oliveria decumbens plant by supercritical method using the ultrasound process, Eurasian Journal of Science and Technology, 2021, 1:242 [Crossref], [Publisher] [3]. Abegunde S. M., Idowu K. S., Enhanced Adsorption of Methylene Blue Dye from Water by Alkali-Treated Activated Carbon, Eurasian Journal of Science and Technology, 2023, 3:109 [Crossref], [Publisher] [4]. A) Rajeh S., Souissi R., Ihzaz N., Mhamdi A., Bouguila N., Labidi A., Amlouk M., Guermazi S., Physical investigations on Ni doping ZnO thin films along with ethanol response, Journal of Materials Science: Materials in Electronics, 2022, 33:17513 [Crossref], [Google Scholar], [Publisher] B) Zamani Esfahlani M., charsouei S., A Review on the Process of Neuromotor Rehabilitation of Patients with Brain and spine Lesions and Developing Skills in Healthy People by Plasticity Analysis: systematic Review, International Journal of Advanced Biological and Biomedical Research, 2023, 11:94 [Crossref], [Publisher] C) Roshanfekr H., A simple specific dopamine aptasensor based on partially reduced graphene oxide–Au NPs composite, Progress in Chemical and Biochemical Research, 2023, 6:61 [Crossref], [Google Scholar], [Publisher] [5]. Li Z., Yao Z., Haidry A.A., Plecenik T., Xie L., Sun L., Fatima Q., Resistive-type hydrogen gas sensor based on TiO2: A review, International journal of hydrogen energy, 2018, 43:21114 [Crossref], [Google Scholar], [Publisher] [6]. Feng W., Yang X., He Z., Liu M., Hydrogen sulfide gas sensor based on TiO2–ZnO composite sensing membrane-coated no-core fiber, Journal of Physics D: Applied Physics, 2021, 54:135105 [Crossref], [Google Scholar], [Publisher] [7]. Katti V., Debnath A., Muthe K., Kaur M., Dua A., Gadkari S., Gupta S., Sahni V., Mechanism of drifts in H2S sensing properties of SnO2: CuO composite thin film sensors prepared by thermal evaporation, Sensors and Actuators B: Chemical, 2003, 96:245 [Crossref], [Google Scholar], [Publisher] [8]. Ionescu R., Hoel A., Granqvist C., Llobet E., Heszler P., Low-level detection of ethanol and H2S with temperature-modulated WO3 nanoparticle gas sensors, Sensors and Actuators B: Chemical, 2005, 104:132 [Crossref], [Google Scholar], [Publisher] [9]. Ibupoto Z.H., Abbasi M.A., Liu X., AlSalhi M., Willander M., The synthesis of NiO/TiO2 heterostructures and their valence band offset determination, Journal of Nanomaterials, 2014, 2014:24 [Crossref], [Google Scholar], [Publisher] [10]. Saruhan B., Lontio Fomekong R., Nahirniak S., Influences of semiconductor metal oxide properties on gas sensing characteristics, Frontiers in Sensors, 2021, 2:657931 [Crossref], [Google Scholar], [Publisher] [11]. Kampitakis V., Gagaoudakis E., Zappa D., Comini E., Aperathitis E., Kostopoulos A., Kiriakidis G., Binas V., Highly sensitive and selective NO2 chemical sensors based on Al doped NiO thin films, Materials Science in Semiconductor Processing, 2020, 115:105149 [Crossref], [Google Scholar], [Publisher] [12]. Chaudhari G., Bambole D., Bodade A., Padole P., Characterization of nanosized TiO2 based H2S gas sensor, Journal of materials science, 2006, 41:4860 [Crossref], [Google Scholar], [Publisher] [13]. Eranna G., Joshi B., Runthala D., Gupta R., Oxide materials for development of integrated gas sensors—a comprehensive review, Critical Reviews in Solid State and Materials Sciences, 2004, 29:111 [Crossref], [Google Scholar], [Publisher] [14]. Petrov V.V., Ivanishcheva A.P., Volkova M.G., Storozhenko V.Y., Gulyaeva I.A., Pankov I.V., Volochaev V.A., Khubezhov S.A., Bayan E.M., High Gas Sensitivity to Nitrogen Dioxide of Nanocomposite ZnO-SnO2 Films Activated by a Surface Electric Field, Nanomaterials, 2022, 12:2025 [Crossref], [Google Scholar], [Publisher] [15]. Azpiroz R., Carretero, E., Cueva, A., González, A., Iglesias, M.,Pérez-Torrente, J.J., In-flow photocatalytic oxidation of NO on glasses coated with nanocolumnar porous TiO2 thin films prepared by reactive sputtering, Applied Surface Science, 2022, 606:154968 [Crossref], [Google Scholar], [Publisher] [16]. Milani Fard M., Milani Fard A. M., Evaluation of Psychosocial Factors in the Coping Strategies of Patients with Inflammation, Eurasian Journal of Science and Technology, 2022, 2:94  [Crossref], [Publisher] [17]. Leineweber A., Jacobs H., Hull S., Ordering of nitrogen in nickel nitride Ni3N determined by neutron diffraction, Inorganic chemistry, 2001, 40:5818 [Crossref], [Google Scholar], [Publisher] [18]. Haunsbhavi K., Kumar K.D.A., Mele P., Aldossary O.M., Ubaidullah M., Mahesh H., Murahari P., Angadi B., Pseudo n-type behaviour of nickel oxide thin film at room temperature towards ammonia sensing, Ceramics International, 2021, 47:13693 [Crossref], [Google Scholar], [Publisher] [19]. Zheng Z.Q., Zhu L.F., Wang B., In2O3 nanotower hydrogen gas sensors based on both schottky junction and thermoelectronic emission, Nanoscale research letters, 2015, 10:1 [Crossref], [Google Scholar], [Publisher] [20]. Malekkiani M., Heshmati Jannat Magham A., Ravari F., Dadmehr M., Facile fabrication of ternary MWCNTs/ZnO/Chitosan nanocomposite for enhanced photocatalytic degradation of methylene blue and antibacterial activity, Scientific Reports, 2022, 12:5927 [Crossref], [Google Scholar], [Publisher] [21]. Nasiri S., Rabiei M., Palevicius A., Janusas G., Vilkauskas A., Nutalapati V., Monshi A., Modified Scherrer equation to calculate crystal size by XRD with high accuracy, examples Fe2O3, TiO2 and V2O5, Nano Trends, 2023, 3:100015 [Crossref], [Google Scholar], [Publisher] [22]. Nurpeissova A., Choi M.H., Kim J.S., Myung S.T., Kim S.S., Sun Y.K., Effect of titanium addition as nickel oxide formation inhibitor in nickel-rich cathode material for lithium-ion batteries, Journal of Power Sources, 2015, 299:425 [Crossref], [Google Scholar], [Publisher] [23]. Shankar P., Rayappan J.B.B., Gas sensing mechanism of metal oxides: The role of ambient atmosphere, type of semiconductor and gases-A review, Science Letters Journal, 2015, 4:126 [Google Scholar], [Publisher] [24]. Salunkhe R., Shinde V., Lokhande C., Liquefied petroleum gas (LPG) sensing properties of nanocrystalline CdO thin films prepared by chemical route: effect of molarities of precursor solution, Sensors and Actuators B: Chemical, 2008, 133:296 [Crossref], [Google Scholar], [Publisher] [25]. Ansari Z., Ko T.G., Oh J.H., CO-sensing properties of In/sub2/O/sub3/-doped SnO/sub 2/thick-film sensors: effect of doping concentration and grain size, IEEE Sensors Journal, 2005, 5:817 [Crossref], [Google Scholar], [Publisher] [26]. Tahir M., Tahir B., Amin N.A.S., Muhammad A., Photocatalytic CO2 methanation over NiO/In2O3 promoted TiO2 nanocatalysts using H2O and/or H2 reductants, Energy Conversion and Management, 2016, 119:368 [Crossref], [Google Scholar], [Publisher] [27]. Essalhi Z., Hartiti B., Lfakir A., Siadat M., Thevenin P., Optical properties of TiO2 Thin films prepared by Sol Gel method, Journal of Materials and Environmental Science, 2016, 7:1328 [Google Scholar] [28]. Tahir M., Amin N.S., Performance analysis of nanostructured NiO–In2O3/TiO2 catalyst for CO2 photoreduction with H2 in a monolith photoreactor, Chemical Engineering Journal, 2016, 285:635 [Crossref], [Google Scholar], [Publisher] [29]. Uddin M.T., Nicolas Y., Olivier C., Jaegermann W., Rockstroh N., Junge H., Toupance, T., Band alignment investigations of heterostructure NiO/TiO2 nanomaterials used as efficient heterojunction earth-abundant metal oxide photocatalysts for hydrogen production, Physical Chemistry Chemical Physics, 2017, 19:19279 [Crossref], [Google Scholar], [Publisher] [30]. Yao N., Huang J., Fu K., Deng X., Ding M., Zhang S., Xu X., Li L., Reduced interfacial recombination in dye-sensitized solar cells assisted with NiO: Eu3+, Tb3+ coated TiO2 film, Scientific Reports, 2016, 6:31123 [Crossref], [Google Scholar], [Publisher]

留言 (0)

沒有登入
gif