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Artykuły w czasopismach na temat „Metal organic thin films”

Autor: Grafiati
Data publikacji: 3 czerwca 2025
Data aktualizacji: 31 lipca 2025

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1

Norian, K. H., and U. Rieck. "Metal-organic-compound-polymer thin films." Thin Solid Films 182, no. 1-2 (1989): L21—L24. http://dx.doi.org/10.1016/0040-6090(89)90275-7.

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2

Zacher, Denise, Osama Shekhah, Christof Wöll, and Roland A. Fischer. "Thin films of metal–organic frameworks." Chemical Society Reviews 38, no. 5 (2009): 1418. http://dx.doi.org/10.1039/b805038b.

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3

Rahmati, Zahra, Ruhollah Khajavian, and Masoud Mirzaei. "Anisotropy in metal–organic framework thin films." Inorganic Chemistry Frontiers 8, no. 14 (2021): 3581–86. http://dx.doi.org/10.1039/d1qi00300c.

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4

Zhang, Yujing, and Chih-Hung Chang. "Metal–Organic Framework Thin Films: Fabrication, Modification, and Patterning." Processes 8, no. 3 (2020): 377. http://dx.doi.org/10.3390/pr8030377.

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Metal–organic frameworks (MOFs) have been of great interest for their outstanding properties, such as large surface area, low density, tunable pore size and functionality, excellent structural flexibility, and good chemical stability. A significant advancement in the preparation of MOF thin films according to the needs of a variety of applications has been achieved in the past decades. Yet there is still high demand in advancing the understanding of the processes to realize more scalable, controllable, and greener synthesis. This review provides a summary of the current progress on the manufac
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5

Schulz, Douglas L., Robert A. Sailer, Scott Payne, James Leach, and Ronald J. Molz. "Thin films by metal-organic precursor plasma spray." Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films 27, no. 4 (2009): 962–69. http://dx.doi.org/10.1116/1.3148826.

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6

Liu, Xiaojing, Mariana Kozlowska, Timur Okkali, et al. "Photoconductivity in Metal–Organic Framework (MOF) Thin Films." Angewandte Chemie International Edition 58, no. 28 (2019): 9590–95. http://dx.doi.org/10.1002/anie.201904475.

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7

Baumgartner, Bettina, Ken Ikigaki, Kenji Okada, and Masahide Takahashi. "Infrared crystallography for framework and linker orientation in metal–organic framework films." Chemical Science 12, no. 27 (2021): 9298–308. http://dx.doi.org/10.1039/d1sc02370e.

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Polarization-dependent infrared spectroscopy of oriented metal organic framework films fills the information gap left by diffraction methods and gives access to the orientation of the aromatic linker and initial orientation of ultra-thin films.
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8

XUE, Z. Q., H. J. GAO, W. M. LIU, Y. W. LIU, Q. D. WU, and S. J. PANG. "STUDY OF METALLIC CLUSTERS IN ORGANIC THIN FILMS." Surface Review and Letters 03, no. 01 (1996): 1029–32. http://dx.doi.org/10.1142/s0218625x96001844.

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The polyethylene (PE) and the metallic materials are deposited alternatively on substrates in the chamber of the ICB-TOFMS deposition system. The metallic-cluster-polyethylene thin films are formed. The film thickness is about 30 nm. The structures of these samples including Au-PE, Ag-PE, In-PE, and Sn-PE thin films are studied. These special thin films with suspension metal clusters display many special properties.
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9

Gallagher, Dennis, Francis Scanlan, Raymond Houriet, Hans Jörg Mathieu, and Terry A. Ring. "Indium-tin oxide thin films by metal-organic decomposition." Journal of Materials Research 8, no. 12 (1993): 3135–44. http://dx.doi.org/10.1557/jmr.1993.3135.

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In2O3–SnO2 films were produced by thermal decomposition of a deposit which was dip coated on borosilicate glass substrates from an acetylacetone solution of indium and tin acetoacetonate. Thermal analysis showed complete pyrolysis of the organics by 400 °C. The thermal decomposition reaction generated acetylacetone gas and was found to be first order with an activation energy of 13.6 Kcal/mole. Differences in thermal decomposition between the film and bulk materials were noted. As measured by differential scanning calorimetry using a 40 °C/min temperature ramp, the glass transition temperature
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10

Luo, Qing Wei. "Preparation of YBCO Thin Films by Metal Organic Deposition Method." Materials Science Forum 809-810 (December 2014): 631–34. http://dx.doi.org/10.4028/www.scientific.net/msf.809-810.631.

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Due to its high in-field superconducting performance, high irreversible magnetic field, low AC loss and high transition temperature, YBa2Cu3O7-x(YBCO) has been taken as a hot research object. Well-oriented La0.4Sr0.6TiO3(LSTO) thin films were prepared on the biaxially textured Ni-W alloy substrates by metal-organic deposition (MOD) method which could used for YBCO coated conductor. The homogeneous and stable precursor solution was prepared by Y, Ba and Cu acetates and deposited on LSTO/Ni-W composite structure by spin-coating method. YBCO films were obtained after heat treatment. Effect of the
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11

Fritzsche, Ronny, Dietrich R. Zahn, and Michael Mehring. "Atmospheric pressure metal organic chemical vapor deposition of thin germanium films." Journal of Materials Science 56, no. 15 (2021): 9274–86. http://dx.doi.org/10.1007/s10853-021-05871-9.

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AbstractThe deposition of thin germanium films by atmospheric pressure metal organic chemical vapor deposition at temperatures below 400 °C on substrates such as silicon wafers, float glass, and polyimide (Kapton®) using the diorganogermanes GeH2Cp4M2 and GeH2Cp*2 as molecular precursors is described. The deposition rates and thus the layer thicknesses can be varied by temperature and time to give layers with a thickness in the nanometer range. The homogeneity and roughness of the deposited films were analyzed by means of atomic force microscopy measurements showing the formation of smooth and
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12

Song, Xiaoyu, Xinyue Wang, Yusen Li, et al. "2D Semiconducting Metal–Organic Framework Thin Films for Organic Spin Valves." Angewandte Chemie International Edition 59, no. 3 (2019): 1118–23. http://dx.doi.org/10.1002/anie.201911543.

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13

Song, Xiaoyu, Xinyue Wang, Yusen Li, et al. "2D Semiconducting Metal–Organic Framework Thin Films for Organic Spin Valves." Angewandte Chemie 132, no. 3 (2019): 1134–39. http://dx.doi.org/10.1002/ange.201911543.

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14

Su, Chun-Hao, Chung-Wei Kung, Ting-Hsiang Chang, Hsin-Che Lu, Kuo-Chuan Ho, and Ying-Chih Liao. "Inkjet-printed porphyrinic metal–organic framework thin films for electrocatalysis." Journal of Materials Chemistry A 4, no. 28 (2016): 11094–102. http://dx.doi.org/10.1039/c6ta03547g.

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15

Liao, Zhengluan, Tifeng Xia, Enyan Yu, and Yuanjing Cui. "Luminescent Metal–Organic Framework Thin Films: From Preparation to Biomedical Sensing Applications." Crystals 8, no. 9 (2018): 338. http://dx.doi.org/10.3390/cryst8090338.

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Metal-organic framework (MOF) thin films are receiving increasing attention in a number of different application fields, such as optoelectronics, gas separation, catalysis electronic devices, and biomedicine. In particular, their tunable composition and structure, accessible metal sites and potential for post-synthetic modification for molecular recognition make MOF thin films promising candidates for biosensing applications. Compared with solution-based powdery probes, film-based probes have distinct advantages of good stability and portability, tunable shape and size, real-time detection, no
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16

Scharnberg, M., J. Hu, Jörn Kanzow, et al. "Ag-Diffusion in the Organic Semiconductor Diindenoperylene." Defect and Diffusion Forum 237-240 (April 2005): 993–97. http://dx.doi.org/10.4028/www.scientific.net/ddf.237-240.993.

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The metallization of organic thin films is a crucial point in the development of organic electronic devices. There is no method established yet to detect trace amounts of metal atoms in the organic thin films after metal deposition. Radiotracer measurements are probably the most sensitive tool to study diffusion and to quantify even very small amounts of material penetrating into the bulk. So far, this has been shown for metals and polymers, but not for thin ordered molecular organic films. Here, the first application of this technique on a well-characterized organic thin film system, diindeno
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17

P., A. Praveen, Ramesh Babu R., Jothivenkatachalam K., and Ramamurthi K. "Spectral, morphological, linear and nonlinear optical properties of nanostructured benzimidazole metal complex thin films." Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 150 (May 29, 2015): 280–89. https://doi.org/10.1016/j.saa.2015.05.074.

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Metal organic materials are widely investigated to find their suitability for nonlinear optical applications due to the advantage of combined organic and inorganic properties. In this work benzimidazole based metal organic thin films of dichlorobis (1H-Benzimidazole) Co(II) and dichlorobis (1H-Benzimidazole) Cu(II) were deposited by chemical bath deposition method. The deposited films were annealed at 100, 150 and 200 °C to investigate the effect of annealing on the properties of thin films. Surface homogeneity of the films was increased with the annealing temperature due to the surface diffus
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18

Choi, Julius, Hyuk Taek Kwon, and Hae-Kwon Jeong. "Fabrication of Thin Metal-Organic Framework MOF Films on Metal-Ion-crosslinked GO-modified Supports." MRS Advances 2, no. 46 (2017): 2497–504. http://dx.doi.org/10.1557/adv.2017.466.

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ABSTRACTThin films of metal-organic frameworks (MOFs) have shown promising for applications such as gas separation, gas storage, optoelectronics or sensing. However, synthesis of polycrystalline MOF films and membranes depends largely on the surface properties of supports, limiting the availability of common supports. It is, therefore, highly desirable to develop ways to modify the surface properties of common supports for the preferred heterogeneous nucleation of the MOFs. Here, we demonstrated that graphene-oxide (GO) can be exploited to readily modify the surface properties of common suppor
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19

Nascimbeni, Giulia, Christof Wöll, and Egbert Zojer. "Electrostatic Design of Polar Metal–Organic Framework Thin Films." Nanomaterials 10, no. 12 (2020): 2420. http://dx.doi.org/10.3390/nano10122420.

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In recent years, optical and electronic properties of metal–organic frameworks (MOFs) have increasingly shifted into the focus of interest of the scientific community. Here, we discuss a strategy for conveniently tuning these properties through electrostatic design. More specifically, based on quantum-mechanical simulations, we suggest an approach for creating a gradient of the electrostatic potential within a MOF thin film, exploiting collective electrostatic effects. With a suitable orientation of polar apical linkers, the resulting non-centrosymmetric packing results in an energy staircase
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20

Nagy, Gabriella, and Amy V. Walker. "Dynamics of Reactive Metal Adsorption on Organic Thin Films." Journal of Physical Chemistry C 111, no. 24 (2007): 8543–56. http://dx.doi.org/10.1021/jp0678960.

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21

Nakamura, Tenshou, Shotaro Ueda, Kyota Uda, et al. "Electrodeposition of Zn-Terephthalate Metal-Organic Framework Thin Films." ECS Transactions 88, no. 1 (2018): 343–50. http://dx.doi.org/10.1149/08801.0343ecst.

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22

Wakamatsu, Takashi, Ryushi Fujimura, and Kotaro Kajikawa. "Emission waveguiding in organic thin films supported by metal." Applied Optics 56, no. 3 (2017): 482. http://dx.doi.org/10.1364/ao.56.000482.

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23

Bétard, Angélique, and Roland A. Fischer. "Metal–Organic Framework Thin Films: From Fundamentals to Applications." Chemical Reviews 112, no. 2 (2011): 1055–83. http://dx.doi.org/10.1021/cr200167v.

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24

Chung, J. W., Z. R. Dai, and F. S. Ohuchi. "WS2 thin films by metal organic chemical vapor deposition." Journal of Crystal Growth 186, no. 1-2 (1998): 137–50. http://dx.doi.org/10.1016/s0022-0248(97)00479-x.

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25

Nakamura, Shigeyuki, and Shizutoshi Ando. "Preparation of CuInS2 thin films by metal–organic decomposition." Journal of Physics and Chemistry of Solids 66, no. 11 (2005): 1944–46. http://dx.doi.org/10.1016/j.jpcs.2005.10.082.

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26

Liu, Bo, Min Tu, and Roland A. Fischer. "Metal-Organic Framework Thin Films: Crystallite Orientation Dependent Adsorption." Angewandte Chemie 125, no. 12 (2013): 3486–89. http://dx.doi.org/10.1002/ange.201207908.

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27

Liu, Bo, and Roland A. Fischer. "Liquid-phase epitaxy of metal organic framework thin films." Science China Chemistry 54, no. 12 (2011): 1851–66. http://dx.doi.org/10.1007/s11426-011-4406-8.

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28

Boerio, F. J., J. P. Boerio, and R. C. Bozian. "Infrared spectroscopy of thin organic films on metal surfaces." Applied Surface Science 31, no. 1 (1988): 42–58. http://dx.doi.org/10.1016/0169-4332(88)90023-2.

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29

Liu, Bo, Min Tu, and Roland A. Fischer. "Metal-Organic Framework Thin Films: Crystallite Orientation Dependent Adsorption." Angewandte Chemie International Edition 52, no. 12 (2013): 3402–5. http://dx.doi.org/10.1002/anie.201207908.

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30

Yue, Yanfeng, Nada Mehio, Andrew J. Binder, and Sheng Dai. "Synthesis of metal–organic framework particles and thin films via nanoscopic metal oxide precursors." CrystEngComm 17, no. 8 (2015): 1728–35. http://dx.doi.org/10.1039/c4ce02419b.

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31

Si, Jie, and Seshu B. Desu. "RuO2 films by metal-organic chemical vapor deposition." Journal of Materials Research 8, no. 10 (1993): 2644–48. http://dx.doi.org/10.1557/jmr.1993.2644.

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Pure and conducting RuO2 thin films were successfully deposited on Si, SiO2/Si, and quartz substrates at temperatures as low as 550 °C by a hot wall metal-organic chemical vapor deposition (MOCVD). Bis(cyclopentadienyl)ruthenium, Ru(C5H5)2, was used as the precursor. An optimized MOCVD process for conducting RuO2 thin films was established. Film structure was dependent on MOCVD process parameters such as bubbler temperature, dilute gas flow rates, deposition temperature, and total pressure. Either pure RuO2, pure Ru, or a RuO2 + Ru mixture was obtained under different deposition conditions. As
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32

Swider, Karen E., and Wayne L. Worrell. "Metal-organic deposition of thin-film yttria-stabilized zirconia-titania." Journal of Materials Research 11, no. 2 (1996): 381–86. http://dx.doi.org/10.1557/jmr.1996.0046.

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Mixed-conducting yttria-stabilized zirconia-titania (YZTi) has attractive applications in solid oxide fuel cells (SOFC's) and electrocatalysis, particularly when used as a thin film to reduce its electrical resistance. Thin films of yttria (12 mol %) stabilized zirconia-titania (8 mol %) have been prepared using metal-organic deposition (MOD) whereby metal-organic solutions of Zr-, Y-, and Ti-2-ethylhexanoates are spun onto suitable substrates. Variables affecting the film surface-morphology, chemistry, and crystal structure are examined using scanning electron microscopy (SEM), auger electron
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33

Gadea, C., Q. Hanniet, A. Lesch, D. Marani, S. H. Jensen, and V. Esposito. "Aqueous metal–organic solutions for YSZ thin film inkjet deposition." Journal of Materials Chemistry C 5, no. 24 (2017): 6021–29. http://dx.doi.org/10.1039/c7tc01879g.

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34

Huang, Yan, Cheng-an Tao, Rui Chen, Liping Sheng, and Jianfang Wang. "Comparison of Fabrication Methods of Metal-Organic Framework Optical Thin Films." Nanomaterials 8, no. 9 (2018): 676. http://dx.doi.org/10.3390/nano8090676.

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Homogeneous metal-organic frameworks (MOFs)-based optical thin films have attracted increasing attention, since they can potentially be used as active components in optical/opt-electrical devices, and how to fabricate MOF thin films with high quality is the premise of practically using them. Herein, five fabrication methods of MOF films are systematically investigated and compared from the aspects of appearance, reflectivity, micro-morphology, surface roughness, and optical properties of the films. The famous robust Zr-based MOF, UiO-66 (UiO = University of Oslo) is chosen as a model, and the
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35

Xiao, Yi-Hong, Zhi-Gang Gu, and Jian Zhang. "Surface-coordinated metal–organic framework thin films (SURMOFs) for electrocatalytic applications." Nanoscale 12, no. 24 (2020): 12712–30. http://dx.doi.org/10.1039/d0nr03115a.

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36

Alam, Mir Waqas, Sajid Ali Ansari, and Faheem Ahmed. "Editorial for the Special Issue “Organic/Metal Oxide Thin Films for Optoelectronic/Photovoltaic and Sensing Applications”." Crystals 13, no. 2 (2023): 173. http://dx.doi.org/10.3390/cryst13020173.

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The Special Issue entitled “Organic/Metal Oxide Thin Films for Optoelectronic/Photovoltaic and Sensing Applications” is comprised of thirteen original research articles devoted to the development and designing of new and novel organic/metal oxide thin film-based nanomaterials (NMs) for electrochemical and optoelectronic applications [...]
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37

Rose, Olivia L., Anca Bonciu, Valentina Marascu, et al. "Thin Films of Metal-Organic Framework Interfaces Obtained by Laser Evaporation." Nanomaterials 11, no. 6 (2021): 1367. http://dx.doi.org/10.3390/nano11061367.

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Properties such as large surface area, high pore volume, high chemical and thermal stability, and structural flexibility render zeolitic imidazolate frameworks (ZIFs) well-suited materials for gas separation, chemical sensors, and optical and electrical devices. For such applications, film processing is a prerequisite. Herein, matrix-assisted pulsed laser evaporation (MAPLE) was successfully used as a single-step deposition process to fabricate ZIF-8 films. By correlating laser fluency and controlling the specific transfer of lab-synthesized ZIF-8, films with user-controlled physical and chemi
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38

WANG, YUE, HAO GONG, and LING LIU. "CRYSTAL STRUCTURE AND PROPERTIES OF CU-AL-O THIN FILMS." International Journal of Modern Physics B 16, no. 01n02 (2002): 308–13. http://dx.doi.org/10.1142/s0217979202009809.

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P-type transparent conducting oxide thin films have attracted much attention due to their potential applications in novel transparent p-n junction devices. In this work, the transparent conducting Cu-Al-O thin films were prepared by the plasma enhanced chemical vapor deposition using metal organic precursors of Cu(acac) 2 and Al(acac) 3 (acac=acetylacetonate) while the substrate temperature was varied from 700 to 800°C. The x-ray diffraction and SEM results are analyzed to investigate the structure of the as-deposited and annealed films. The films contain metal copper and small grains of CuAlO
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39

Zhu, Yongfei, Seshu B. Desu, Tingkai Li, Sasangan Ramanathan, and Masaya Nagata. "SrBi2Ta2O9 thin films made by liquid source metal-organic chemical vapor deposition." Journal of Materials Research 12, no. 3 (1997): 783–92. http://dx.doi.org/10.1557/jmr.1997.0114.

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A liquid source metal-organic chemical vapor deposition system was installed to deposit SrBi2Ta2O9 (SBT) thin films on sapphire and Pt/Ti/SiO2/Si substrates. The process parameters such as deposition temperature and pressure, and ratio of Sr: Bi: Ta in the precursor solutions were optimized to achieve stoichiometric films with good reproducible ferroelectric properties. It was found that the nucleation of SBT started at a deposition temperature close to 500 °C and grain growth dominated at 700 °C and higher temperatures. With increasing deposition temperatures, the grain size of SBT thin films
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40

Thompson, Avery. "Building metal-organic framework thin films for advanced optic, electronic applications." Scilight 2023, no. 6 (2023): 061110. http://dx.doi.org/10.1063/10.0017337.

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Nishimoto, Naoki, Katsumi Yoshino, and Junko Fujihara. "Growth of TiO2–Nb2O5 mixed thin films by metal–organic decomposition." International Journal of Modern Physics B 29, no. 30 (2015): 1550215. http://dx.doi.org/10.1142/s021797921550215x.

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The influence of mixed metal–organic decomposition (MOD) coating materials has been studied based on the crystal growth of TiO2 and TiO2–Nb2O5 mixed thin films. These thin films were grown on quartz substrates using a dip-coating method. The crystal structures of TiO2 films are well known to depend on sintering temperature, whereas the surface morphologies are not significantly affected by sintering temperature. Nb2O5 was mixed with the TiO2 source material as a possible electron donor. The Nb content of the TiO2–Nb2O5 mixed thin film depended on the Nb mole ratio in the TiO2–Nb2O5 mixed MOD c
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42

Gougousi, Theodosia, Dipak Barua, Erin D. Young, and Gregory N. Parsons. "Metal Oxide Thin Films Deposited from Metal Organic Precursors in Supercritical CO2Solutions." Chemistry of Materials 17, no. 20 (2005): 5093–100. http://dx.doi.org/10.1021/cm0510965.

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43

Lessard, Benoit. "Engineering Thin Films of Silicon Phthalocyanines for Organic Thin Film Transistors." ECS Meeting Abstracts MA2024-01, no. 14 (2024): 1112. http://dx.doi.org/10.1149/ma2024-01141112mtgabs.

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Metal phthalocyanines (MPc) show great promise as semiconductors due to their exceptional optoelectronic properties, high thermal and photochemical stability, and ability to be easily synthesized and functionalized for specific applications. The metal/metalloid ion in the center of the MPc ring can significantly influence the electronic, optical, and magnetic properties of the compound, as well as its solubility and stability. The majority of MPc, such as copper phthalocyanine (CuPc) are used as hole-transport materials (p-type) in organic electronics. Silicon phthalocyanines (R2-SiPc) are eme
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44

Lebedev, M. S. "Thin-Film Compositions on Base of Hafnium Dioxide and Aluminum Oxide: Synthesis and Characterization." Key Engineering Materials 508 (March 2012): 7–10. http://dx.doi.org/10.4028/www.scientific.net/kem.508.7.

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Structures to Be Based on Hafnium Dioxide Are Regarded as the Most Perspective High-K Dielectric for Integration in MOS-Technology, Carbon Nanotubes Transistors. MOCVD (Metal-Organic Chemical Vapor Deposition) Techniques of HfO2, Al2O3 and (Al2O3)x(HfO2)1-X Thin Films Were Applied Using Metal-Organic Substances as the Precursors. Dependences of Growth Rates on Process Parameters Were Studied. The Chemical Structure and Properties of the Films and Electrophysical Characteristics of the Test Structures Were Investigated.
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45

Tarabasanu Mihaila, Cornel, Lavinia G. Hinescu, Cristian Boscornea, Carmen Moldovan, and Mihai E. Hinescu. "METAL COMPLEX TETRAIZOINDOLES AS SENSOR MATERIALS." SOUTHERN BRAZILIAN JOURNAL OF CHEMISTRY 10, no. 11 (2002): 79–87. http://dx.doi.org/10.48141/sbjchem.v10.n11.2002.81_2002.pdf.

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The paper presents the synthetic routes for obtaining some organic semiconductors and their characterization in order to use in thin film deposition for gas sensing devices. An original technique was used to control the molecular weight of polymeric phthalocyanine. We have fabricated devices consisting of evaporated thin films of copper, nickel, and iron phthalocyanines onto interdigital electrodes and estimated the electrical conductivity by in-situ measurements. The films were evaporated onto substrates (gold or aluminum) which were entirely integrated in the standard CMOS (capacitor metal o
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Dong, Xin, Jin Wang, Hui Wang, Zhi Feng Shi, and Long Zhao. "Research on the Properties of NiZnO Thin Films." Applied Mechanics and Materials 130-134 (October 2011): 1491–94. http://dx.doi.org/10.4028/www.scientific.net/amm.130-134.1491.

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NiZnO thin films had been fabricated on c-plane sapphire substrates using photo-assisted metal organic chemical vapour deposition system. The crystal quality of the films had been improved greatly comparing to the results in earlier reports. The crystal structure analysis indicated the NiZnO kept the basic wurtzite structure until the content of Ni attained 0.18. The crystal and electrical properties of the films showed the content of Ni had an important effect on the properties of NiZnO films.
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Stassin, Timothée, Sabina Rodríguez-Hermida, Benedikt Schrode, et al. "Vapour-phase deposition of oriented copper dicarboxylate metal–organic framework thin films." Chemical Communications 55, no. 68 (2019): 10056–59. http://dx.doi.org/10.1039/c9cc05161a.

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Zhang, Jiming, Gregory T. Stauf, Robin Gardiner, Peter Van Buskirk, and John Steinbeck. "Single molecular precursor metal-organic chemical vapor deposition of MgAl2O4 thin films." Journal of Materials Research 9, no. 6 (1994): 1333–36. http://dx.doi.org/10.1557/jmr.1994.1333.

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MgAl2O4 films have been grown epitaxially on both Si(100) and MgO(100) by a novel single source metal-organic chemical vapor deposition (MOCVD) process. A single molecular source reagent [magnesium dialuminum isopropoxide, MgAl2(OC3H7)8] having the desired Mg: Al ratio was dissolved in a liquid solution and flash-vaporized into the reactor. Both thermal and plasma-enhanced MOCVD were used to grow epitaxial MgAl2O4 thin films. The Mg: Al ratio in the deposited films was the same as that of the starting compound (Mg: Al = 1:2) over a wide range of deposition conditions. The deposition temperatur
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Gou, Xianhua, Qing Zhang, Yunling Wu, et al. "Preparation and engineering of oriented 2D covalent organic framework thin films." RSC Advances 6, no. 45 (2016): 39198–203. http://dx.doi.org/10.1039/c6ra07417k.

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Jiang, Ai Hua, Hao Yu Jiang, Hang Zhao, and Jian Rong Xiao. "Characterization of Defects in Gallium Nitride Thin Films by SEM." Applied Mechanics and Materials 275-277 (January 2013): 2023–26. http://dx.doi.org/10.4028/www.scientific.net/amm.275-277.2023.

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Gallium nitride (GaN) thin films samples were grown by metal-organic chemical vapor deposition (MOCVD) with ammonia and trimethyl-gallium, and the samples were annealed rapidly at different temperature. The scanning electron microscope (SEM) analysis was employed to study the surface morphology and lattice defects of the GaN thin films. The surface morphology of the thin films prepared at different condition was uniform and smoothly. The relationship of the films defects and the annealed temperature were summarized.
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