Relevant bibliographies by topics / SnO₂

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'SnO₂'

Author: Grafiati
Published: 2 June 2025
Last updated: 31 July 2025

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Journal articles on the topic "SnO₂"

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Zhang, Yu-Xin, Chien-Hung Wu, Li-Wei Yeh, et al. "Effects of Microwave and Furnace Annealing for P-Type SnO Thin Film Material in Oxygen Ambient." Journal of Nanoscience and Nanotechnology 21, no. 9 (2021): 4763–67. http://dx.doi.org/10.1166/jnn.2021.19257.

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Transparent conductive oxide (TCO) semiconductors are attracted considerable attention due to a wide range of applications, such as flat panel display (FPD), touch panels, solar cells, and other optoelectronic devices. Owing to the different carrier conduction paths between n-type and P-type TCOs, the n-type TCO used in TFTs usually have high Ion/Ioff current ratio (>107) and high electron mobility (>10 cm2/V·s), P-type TCO TFTs are both lower than that of n-type one. For complementary circuits design and applications, however, both P-type and n-type semiconductor materials are equally i
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J.I., Omigie, and Alaminiokuma G.I. "PETROPHYSICAL EVALUATION OF RESERVOIRS FOR HYDROCARBON RESERVE ESTIMATION IN EASTERN CENTRAL SWAMP DEPOBELT, NIGER DELTA." Malaysian Journal of Geosciences 4, no. 2 (2020): 79–85. http://dx.doi.org/10.26480/mjg.02.2020.79.85.

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Petrophysical properties were evaluated in five wells in eastern Central Swamp Depobelt, Niger Delta using well logs. Analyses by Kingdom Suite software reveal that reservoirs’ thicknesses ranged between 24.5ft in SNG in Afam 16 to 200.5ft in SNB in Obeakpu 005. Volume of shale varies within and across all the wells with values <30% of the total thicknesses. Relative permeability to water (Krw) ranges from 0.00 to >1.00 across the wells. Reservoirs SNE and SNF in Afam 16 have average Krw of 0.00 implying 100% water-free hydrocarbon production. SNC reservoir in Afam 15 and Afam 16 has ave
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Padilla, Pamela A., Edwina K. Fuge, Matthew E. Crawford, Allison Errett, and Margaret Werner-Washburne. "The Highly Conserved, Coregulated SNOand SNZ Gene Families in Saccharomyces cerevisiaeRespond to Nutrient Limitation." Journal of Bacteriology 180, no. 21 (1998): 5718–26. http://dx.doi.org/10.1128/jb.180.21.5718-5726.1998.

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ABSTRACT SNZ1, a member of a highly conserved gene family, was first identified through studies of proteins synthesized in stationary-phase yeast cells. There are three SNZ genes inSaccharomyces cerevisiae, each of which has another highly conserved gene, named SNO (SNZ proximal open reading frame), upstream. The DNA sequences and relative positions ofSNZ and SNO genes have been phylogenetically conserved. This report details studies of the expression of theSNZ-SNO gene pairs under various conditions and phenotypic analysis of snz-sno mutants. An analysis of total RNA was used to determine tha
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Vázquez-López, Antonio, David Maestre, Julio Ramírez-Castellanos, and Ana Cremades. "In Situ Local Oxidation of SnO Induced by Laser Irradiation: A Stability Study." Nanomaterials 11, no. 4 (2021): 976. http://dx.doi.org/10.3390/nano11040976.

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In this work, semiconductor tin oxide (II) (SnO) nanoparticles and plates were synthesized at room conditions via a hydrolysis procedure. X-ray diffraction (XRD) and transmission electron microscopy (TEM) confirmed the high crystallinity of the as-synthesized romarchite SnO nanoparticles with dimensions ranging from 5 to 16 nm. The stability of the initial SnO and the controlled oxidation to SnO2 was studied based on either thermal treatments or controlled laser irradiation using a UV and a red laser in a confocal microscope. Thermal treatments induced the oxidation from SnO to SnO2 without fo
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Wang, Yajie, Yue Yu, Ya Zou, Liyan Zhang, Lili Hu, and Danping Chen. "Broadband visible luminescence in tin fluorophosphate glasses with ultra-low glass transition temperature." RSC Advances 8, no. 9 (2018): 4921–27. http://dx.doi.org/10.1039/c7ra13366a.

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Manseki, Kazuhiro, Saeid Vafaei, Loren Scott, et al. "1D Narrow-Bandgap Tin Oxide Materials: Systematic High-Resolution TEM and Raman Analysis." Materials 16, no. 13 (2023): 4539. http://dx.doi.org/10.3390/ma16134539.

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We demonstrate for the first time the structure identification and narrow-bandgap property of 1D hybridized SnO/SnO2 nanoparticles derived from the calcination of a single-source precursor, i.e., tin(II) oxalate. Systematic Raman analysis together with high-resolution TEM (HR-TEM) measurements of the tin oxide samples were carried out by changing the calcination temperatures. These data revealed the simultaneous formation of 1D SnO/SnO2 in the rod particles that grew in air. It was also found that Sn(II) can be introduced by changing the concentration of Sn(II) salt in the precursor synthesis
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Zhang, Wei, Lili Feng, Haiyun Chen, and Yinyin Zhang. "Hydrothermal Synthesis of SnO2 Nanorod as Anode Materials for Lithium-Ion Battery." Nano 14, no. 09 (2019): 1950109. http://dx.doi.org/10.1142/s1793292019501091.

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In this study, SnO2 nanorods are successfully prepared by simple template-free hydrothermal method without surfactant. SnO intermediate with lamellar morphology is first formatted by hydrothermal method and SnO2 nanorods are obtained after calcinations. The results of XRD characterization show that lamellar structured SnO intermediate has preferred orientation in 0 0 1 direction. According to supposed mechanism during formation process of SnO2 nanorods, tiny crystal nucleus of Sn(OH)2 and a bit of SnCO3 are generated from SnCl2 and urea. Then the crystal nucleus gather together to form a nanor
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Narzary, Ringshar, Tani Chekke, Soni Ngadong, Biswarup Satpati, Sayan Bayan, and Upamanyu Das. "SnO-SnO<sub>2</sub> Nanocomposites Based pn Diode: <i>In Situ</i> Synthesis, Characterization and Fabrication of Device for pn Diode Applicability." Advanced Materials Research 1179 (January 31, 2024): 123–32. http://dx.doi.org/10.4028/p-6v9m01.

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We report on an approach for the in-situ synthesis (chemical method based) of SnO-SnO2 nanocomposites followed by characterisation (including morphological, chemical, structural and optical) and investigation of the electrical properties of the nanocomposites with reference to the as-synthesized SnO2 nanoparticles. Compared to spherical SnO2 particles, the SnO phase is found existing in the form of sheet like morphology. It has been found that through controlling of the Sn:OH precursor ratio is effective for the achievement of SnO phase. Compared to the pristine SnO2 nanoparticles, the current
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Egbo, Kingsley, Esperanza Luna, Jonas Lähnemann, et al. "Epitaxial synthesis of unintentionally doped p-type SnO (001) via suboxide molecular beam epitaxy." Journal of Applied Physics 133, no. 4 (2023): 045701. http://dx.doi.org/10.1063/5.0131138.

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By employing a mixed SnO2 + Sn source, we demonstrate suboxide molecular beam epitaxy (S-MBE) growth of phase-pure single-crystalline metastable SnO (001) thin films on Y-stabilized ZrO2 (001) substrates at a growth rate of ∼1.0 nm/min without the need for additional oxygen. These films grow epitaxially across a wide substrate temperature range from 150 to 450 °C. Hence, we present an alternative pathway to overcome the limitations of high Sn or SnO2 cell temperatures and narrow growth windows encountered in previous MBE growth of metastable SnO. In situ laser reflectometry and line-of-sight q
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Koren, Ofir, Dante Antonelli, Ranya Khamaise, Scott Ehrenberg, Ehud Rozner, and Yoav Turgeman. "Sinus Node Dysfunction due to Occlusion of the Sinus Node Artery during Percutaneous Coronary Intervention." Journal of Interventional Cardiology 2021 (March 30, 2021): 1–7. http://dx.doi.org/10.1155/2021/8810484.

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Background. Sinus node artery occlusion (SNO) is a rare complication of percutaneous coronary intervention (PCI). We analyze both the short- and long-term consequences of SNO. Methods. We retrospectively reviewed 1379 consecutive PCI’s involving RCA and Cx arteries performed in our heart institute from 2016 to 2019. Median follow-up was 44 ± 5 months. Results. Among the 4844 PCIs performed during the study period, 284 involved the RCA and the circumflex’s proximal segment. Periprocedural SNO was estimated by angiography observed in 15 patients (5.3%), all originated from RCA. The majority of S
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Dissertations / Theses on the topic "SnO₂"

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Sinner-Hettenbach, Martin. "SnO 2 (110) and Nano-SnO 2 characterization by surface analytical techniques /." [S.l. : s.n.], 2000. http://www.bsz-bw.de/cgi-bin/xvms.cgi?SWB8884756.

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Canestraro, Carla Daniele. "Electrical and optical properties of thin film SnO₂ and SnO₂:F : transparent electrodes in organic photovoltiaics /." Stockholm : Materials Science and Engineering (Materialvetenskap), Kungliga Tekniskan högskolan, 2008. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-4832.

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Sinclair, James R. "Positioning and timing calibration of SNO+." Thesis, University of Sussex, 2015. http://sro.sussex.ac.uk/id/eprint/57182/.

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The Sudbury Neutrino Observatory solved the solar neutrino problem, confirming neutri- nos have non-zero masses. Massive neutrinos raise questions about the nature of neutrinos, implying physics beyond the standard model and potentially a solution to the observed matter-antimatter asymmetry in the universe. The Sudbury Neutrino Observatory is be- ing upgraded, with the goal of probing the nature of neutrino masses. The experiment will also study reactor, geo, supernovae and solar neutrinos. The upgrade is characterised by changing the target mass from heavy water to scintillator. Using scintil
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Stringer, Mark. "Sensitivity of SNO+ to supernova neutrinos." Thesis, University of Sussex, 2019. http://sro.sussex.ac.uk/id/eprint/81233/.

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The Super-K experiment determined that neutrinos are massive particles by observing the oscillation of atmospheric neutrinos. The SNO experiment confirmed this measurement by observing neutrinos from the Sun. The SNO+ experiment is intended to study the nature of neutrino masses by replacing the heavy water used in SNO with scintillator. The main goal of the experiment is to search for neutrinoless double-beta decay within 130Te. The SNO+ detector is much more sensitive to radioactive contamination than the SNO experiment. For this reason an external LED calibration system has been developed s
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Бересток, Таїсія Олександрівна, Таисия Александровна Бересток, Taisiia Oleksandrivna Berestok та ін. "Отримання плівок SnO[2] хімічним методом". Thesis, Сумський державний університет, 2013. http://essuir.sumdu.edu.ua/handle/123456789/43926.

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Cowan, John Howard Mark. "A surface leach test facility for SNO." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 2000. http://www.collectionscanada.ca/obj/s4/f2/dsk2/ftp01/MQ61255.pdf.

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Alsubaie, MONA. "Measurements of the Trace Level of Radioactivity in Materials for Use in the SNO+ and nEXO Experiments at SNO Lab." Thesis, Université d'Ottawa / University of Ottawa, 2018. http://hdl.handle.net/10393/38236.

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Radioactive isotopes are present at some level in all materials in our environment. Detection of these isotopes by conventional means can be difficult if they decay very slowly (have a long half-life). Accelerator Mass Spectrometry (AMS) systems are actually designed to measure extremely low levels or such isotopes. Such measurements are often useful for dating geological processes and archaeological artifacts or tracing chemical pathways through complex systems. In the search for very rare processes such as neutrinoless double beta decay, the presence of very low levels of radioactive materia
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Correa, Lozano Boris. "Développement d'une anode électrocatalytique du type substrat/SnO₂ /." Lausanne, 1994. http://library.epfl.ch/theses/?nr=1297.

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Toman, Elizabeth. "ZnO & Zn₂SnO₄ dye sensitized solar cells." Connect to resource, 2007. http://hdl.handle.net/1811/25204.

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Thesis (Honors)--Ohio State University, 2007.<br>Title from first page of PDF file. Document formatted into pages: contains 22 p.; also includes graphics. Includes bibliographical references (p. 22). Available online via Ohio State University's Knowledge Bank.
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Stainforth, R. "Characterising the optical response of the SNO+ detector." Thesis, University of Liverpool, 2016. http://livrepository.liverpool.ac.uk/3002005/.

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SNO+ is a liquid scintillator based neutrino experiment located 2039 m underground in VALE's Creighton mine, Lively, Ontario, CA. It is a re-purposing of the original Cherenkov detector used in the SNO experiment to study neutrino oscillations. The advent of neutrino oscillations has revealed that neutrinos have a small yet non-zero mass. However, the nature of this mass has yet to be determined. It is possible that the neutrino is its own anti-particle, a Majorana fermion. If so, such particles necessitate lepton number violating processes such as neutrinoless double beta decay. SNO+ intends
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Books on the topic "SnO₂"

1

ill, Wolff Jason, ed. Sno-vember! Magic Wagon, 2010.

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Sabatke, Donald D. Sno-birds exposed: The life of a sno-bird. D.D. Sabatake, 2007.

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Canada, Atomic Energy of. Shielding Calculation For the Sno Detector. s.n, 1987.

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Schwendener, Michael H. Supernova monitoring in the SNO detector. Laurentian University, Faculty of Graduate Studies, 2002.

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Ẓiyāʼ, Muḥammad ʻAbbās. Ṭreking kahānī: Sno laik : Barf kī jhīl. Fikshan Hāʼūs, 2016.

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Cowan, John Howard Mark. A surface leach test facility for SNO. Laurentian University, Department of Physics and Astronomy, 2000.

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Bend/Fort Rock Ranger District (Or.). Draft environmental impact statement: Kapka Butte Sno-park. United States Department of Agriculture, Forest Service, 2011.

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1946-, Ḵẖayāla Priyadarśī Ṭhākura, ред. Sno: [vaiśvika rājanīti ko eka prema kahānī meṃ sameṭatā adbhuta upanyāsa]. Peṅguina Buksa, 2012.

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Earle, E. D. Measurements of Th and U in acrylic for the Sudbury Neutrino Observatory (SNO). Chalk River Laboratories, 1993.

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Dyall, Kenneth G. All-electron molecular Dirac-Hartree-Fock calculations: Properties of the Group IV monoxides GeO, SnO and Pbo. National Aeronautics and Space Administration, 1991.

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Book chapters on the topic "SnO₂"

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Dunger, Jack. "The SNO+ Experiment." In Springer Theses. Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-31616-7_2.

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Øveraas, Morten. "Krokann, Inge: I dovre sno." In Kindlers Literatur Lexikon (KLL). J.B. Metzler, 2024. http://dx.doi.org/10.1007/978-3-476-05728-0_23382-2.

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Øveraas, Morton. "Krokann, Inge: I dovre sno." In Kindlers Literatur Lexikon (KLL). J.B. Metzler, 2023. http://dx.doi.org/10.1007/978-3-476-05728-0_23382-1.

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Muñoz, E. L., A. W. Carbonari, L. A. Errico, A. G. Bibiloni, H. M. Petrilli, and M. Rentería. "TDPAC study of Cd-doped SnO." In HFI/NQI 2007. Springer Berlin Heidelberg, 2008. http://dx.doi.org/10.1007/978-3-540-85320-6_43.

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Hime, A. "Results and Implications of First SNO." In Dark Matter in Astro- and Particle Physics. Springer Berlin Heidelberg, 2002. http://dx.doi.org/10.1007/978-3-642-55739-2_52.

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Peltier, Jean-Benoît, Abasse Fares, and Michel Rossignol. "Identification of Nitrosylated Proteins (SNO) and Applications in Plants." In Nitric Oxide in Plants: Metabolism and Role in Stress Physiology. Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-06710-0_6.

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Fiorentini, Giovanni, and Barbara Ricci. "Nuclear Reactions in the Sun after SNO and KamLAND." In Beyond the Desert 2003. Springer Berlin Heidelberg, 2004. http://dx.doi.org/10.1007/978-3-642-18534-2_49.

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Kim, Hyoun Woo, S. H. Shim, Hae Jin Hwang, et al. "SnO2 Nanostructures Synthesized on Co Substrates." In Solid State Phenomena. Trans Tech Publications Ltd., 2007. http://dx.doi.org/10.4028/3-908451-31-0.1289.

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Herzler, J., M. Kennedy, F. E. Kruis, and P. Roth. "Kinetics of the gas phase reaction of SnO with O2." In Shock Waves. Springer Berlin Heidelberg, 2005. http://dx.doi.org/10.1007/978-3-540-27009-6_88.

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Taib, H., and Charles C. Sorrell. "Synthesis of Tin Oxide (SnO2) by Precipitation." In Materials Science Forum. Trans Tech Publications Ltd., 2007. http://dx.doi.org/10.4028/0-87849-462-6.969.

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Conference papers on the topic "SnO₂"

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Wang, C. C., C. C. Kuo, C. H. Wu, et al. "P-type SnO Semiconductor Transistor and Application." In 2024 IEEE Symposium on VLSI Technology and Circuits (VLSI Technology and Circuits). IEEE, 2024. http://dx.doi.org/10.1109/vlsitechnologyandcir46783.2024.10631371.

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Kobayashi, Tsubasa, Kanta Kibishi, and Shinya Aikawa. "Optimization of post-deposition annealing conditions for p-type SnO fabrication by low-concentration hydrogen sputtering using SnO2 sputtering target." In 2024 International Symposium on Semiconductor Manufacturing (ISSM). IEEE, 2024. https://doi.org/10.1109/issm64832.2024.10875022.

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Chen, M. C., and Jeffrey R. Wilkes. "SNO and SNO+." In NEXT GENERATION NUCLEON DECAY AND NEUTRINO DETECTORS. AIP, 2007. http://dx.doi.org/10.1063/1.2818544.

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Dunford, Jeffrey L., Jim J. Tunney, and Xiaomei Du. "SnO." In 2010 Ninth IEEE Sensors Conference (SENSORS 2010). IEEE, 2010. http://dx.doi.org/10.1109/icsens.2010.5690349.

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MOTTRAM, Matthew. "SNO+." In The European Physical Society Conference on High Energy Physics. Sissa Medialab, 2014. http://dx.doi.org/10.22323/1.180.0524.

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Maneira, Jose. "SNO." In XVII International Workshop on Neutrino Telescopes. Sissa Medialab, 2018. http://dx.doi.org/10.22323/1.307.0002.

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Lawson, C., Shen Qianhong, Zhu Shenmin, et al. "Ag/(SnO." In 26th International Conference on Electrical Contacts (ICEC 2012). IET, 2012. http://dx.doi.org/10.1049/cp.2012.0673.

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Von Krosigk, Belina. "SNO+ status." In The XIth International Conference on Heavy Quarks and Leptons. Sissa Medialab, 2012. http://dx.doi.org/10.22323/1.166.0025.

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Van de Water, R. G. "SNO detector status." In Second tropical workshop on particle physics and cosmology. AIP, 2000. http://dx.doi.org/10.1063/1.1328884.

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Skensved, Peter. "Results from SNO." In COSMOLOGY AND ELEMENTARY PARTICLE PHYSICS: Coral Gables Conference on Cosmology and Elementary Particle Physics. AIP, 2002. http://dx.doi.org/10.1063/1.1492180.

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Reports on the topic "SnO₂"

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Orebi Gann, Gabriel. Underground Physics at Berkeley: SNO, SNO+ and Detector R\&D. Office of Scientific and Technical Information (OSTI), 2024. http://dx.doi.org/10.2172/2290369.

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Orebi Gann, Gabriel D. Neutrino Physics with SNO+. Office of Scientific and Technical Information (OSTI), 2018. http://dx.doi.org/10.2172/1469401.

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Lee, Seung Min, Carolyn AM Burns, Jaehun Chun, et al. Physical and Flow Properties of Glass Forming Chemicals (V2O5, SnO, SnO2, Cr2O3, FeCr2O4, and ZrSiO4) and Mixtures. Office of Scientific and Technical Information (OSTI), 2022. http://dx.doi.org/10.2172/1880070.

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Lee, Seung Min, Carolyn AM Burns, Jaehun Chun, et al. Physical and Flow Properties of Glass-Forming Chemicals (V2O5, SnO, SnO2, Cr2O3, FeCr2O4, and ZrSiO4) and Mixtures. Office of Scientific and Technical Information (OSTI), 2023. http://dx.doi.org/10.2172/2332885.

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Xi, Jianping. Development of optimal SnO{sub 2} contacts for CdTe photovoltaic applications. [Final technical report of Phase II]. Office of Scientific and Technical Information (OSTI), 1999. http://dx.doi.org/10.2172/770856.

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YEH, M., J. BOGER, and R. L. HAHN. PERFORMANCE OF LIQUI-CEL EXTRA-FLOW MEMBRANE CONTRACTOR IN A PURE WATER AND IN A 0.2% SODIUM CHLORIDE SOLUTION (SNO-STR-2001-11). Office of Scientific and Technical Information (OSTI), 2001. http://dx.doi.org/10.2172/789651.

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Bryan, Charles R., and Eric John Schindelholz. FY18 Status Report: SNL Research into Stress Corrosion Cracking of SNF Interim Storage Canisters. Office of Scientific and Technical Information (OSTI), 2018. http://dx.doi.org/10.2172/1481507.

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Schaller, Rebecca, Andrew William Knight, Charles R. Bryan, and Eric John Schindelholz. FY19 Status Report: SNL Research into Stress Corrosion Cracking of SNF Dry Storage Canisters. Office of Scientific and Technical Information (OSTI), 2019. http://dx.doi.org/10.2172/1569157.

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Diaz, Aaron A., David L. Baldwin, Anthony D. Cinson, et al. Identify and Quantify the Mechanistic Sources of Sensor Performance Variation Between Individual Sensors SN1 and SN2. Office of Scientific and Technical Information (OSTI), 2014. http://dx.doi.org/10.2172/1339935.

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นิลไพรัช, สิริพรรณ, สรินทร ลิ่มปนาท, ปริญญา พวงนาค та มงคล อุมา. การศึกษาเบื้องต้นของ Ceramic sensor สำหรับเป็นตัวตรวจสอบการรั่วของแก๊ส. กองส่งเสริมประสานงานวิจัย ฝ่ายวิจัย จุฬาลงกรณ์มหาวิทยาลัย, 1998. https://doi.org/10.58837/chula.res.1998.90.

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การศึกษาเบื้องต้นของ Ceramic sensor สำหรับเป็นตัวตรวจสอบการรั่วของแก๊สได้ดำเนินการทั้งสำรวจด้านการตลาด การศึกษาเทคโนโลยีการผลิต และศึกษาสมบัติของตัวตรวจสอบแก๊สรั่วในห้องทดลอง ผลการสำรวจการตลาดปรากฏว่า ตัวตรวจสอบแก๊สประเภทที่นิยมใช้กันมากที่สุดคือ Catalytic combustion sensor 74% รองลงมาได้แก่ Electrochemical sensor 15% และ Semiconductor sensor 4% ส่วนประเภทกิจการที่มีการใช้ตัวตรวจสอบแก๊สมาก 2 อันดับแรกคือ อุตสาหกรรมปิโตรเลียมและปิโตรเคมี 88% และกิจการอื่นๆ 11% ซึ่งมูลค่าของตัวตรวจสอบแก๊สที่ใช้รวมกันในทุกกิจการที่สำรวจอยู่ระหว่าง 8-43 ล้านบาท (864 เครื่อง) ซึ่งจากการคาดการณ์ความต้องการตัวตรวจสอบ
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