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Published: 4 June 2021
Last updated: 11 March 2023

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1

Wise, Patricia S. Yoder. "Good Sams." Journal of Continuing Education in Nursing 25, no. 5 (September 1994): 195. http://dx.doi.org/10.3928/0022-0124-19940901-03.

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2

Zimmerman, Dwight J. "Operation Sams." Journal of Special Operations Medicine 09, no. 4 (2009): 80. http://dx.doi.org/10.55460/b2rr-aeew.

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3

Fröhlich, Dr Andreas. "SAMs Rettung aus China." return 6, no. 2 (April 2019): 10–11. http://dx.doi.org/10.1007/s41964-019-0052-1.

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4

Stock, Jane K. "SAMSON, SAMS and nocebo effects." Atherosclerosis 321 (March 2021): 45–46. http://dx.doi.org/10.1016/j.atherosclerosis.2021.02.005.

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5

Champness, Neil R. "SAMs are better by design." Nature Nanotechnology 3, no. 6 (June 2008): 324–25. http://dx.doi.org/10.1038/nnano.2008.144.

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6

Kim, Chongwoo A., and Nicole J. Francis. "Chromatin: Polycomb Group SAMs Unite." Current Biology 26, no. 15 (August 2016): R710—R712. http://dx.doi.org/10.1016/j.cub.2016.06.001.

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7

Chen, Chia-Chang, Chiao Yin Lim, Pin-Jung Lee, Ao-Lin Hsu, and Tsui-Ting Ching. "S-adenosyl methionine synthetase SAMS-5 mediates dietary restriction-induced longevity in Caenorhabditis elegans." PLOS ONE 15, no. 11 (November 11, 2020): e0241455. http://dx.doi.org/10.1371/journal.pone.0241455.

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S-adenosyl methionine synthetase (SAMS) catalyzes the biosynthesis of S-adenosyl methionine (SAM), which serves as a universal methyl group donor for numerous biochemical reactions. Previous studies have clearly demonstrated that SAMS-1, a C. elegans homolog of mammalian SAMS, is critical for dietary restriction (DR)-induced longevity in Caenorhabditis elegans. In addition to SAMS-1, three other SAMS paralogs have been identified in C. elegans. However, their roles in longevity regulation have never been explored. Here, we show that depletion of sams-5, but not sams-3 or sams-4, can extend lifespan in worms. However, the phenotypes and expression pattern of sams-5 are distinct from sams-1, suggesting that these two SAMSs might regulate DR-induced longevity via different mechanisms. Through the genetic epistasis analysis, we have identified that sams-5 is required for DR-induced longevity in a pha-4/FOXA dependent manner.
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8

Chen, Jia, Zhimin Li, Yi Cheng, Chunsheng Gao, Litao Guo, Tuhong Wang, and Jianping Xu. "Sphinganine-Analog Mycotoxins (SAMs): Chemical Structures, Bioactivities, and Genetic Controls." Journal of Fungi 6, no. 4 (November 24, 2020): 312. http://dx.doi.org/10.3390/jof6040312.

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Sphinganine-analog mycotoxins (SAMs) including fumonisins and A. alternata f. sp. Lycopersici (AAL) toxins are a group of related mycotoxins produced by plant pathogenic fungi in the Fusarium genus and in Alternaria alternata f. sp. Lycopersici, respectively. SAMs have shown diverse cytotoxicity and phytotoxicity, causing adverse impacts on plants, animals, and humans, and are a destructive force to crop production worldwide. This review summarizes the structural diversity of SAMs and encapsulates the relationships between their structures and biological activities. The toxicity of SAMs on plants and animals is mainly attributed to their inhibitory activity against the ceramide biosynthesis enzyme, influencing the sphingolipid metabolism and causing programmed cell death. We also reviewed the detoxification methods against SAMs and how plants develop resistance to SAMs. Genetic and evolutionary analyses revealed that the FUM (fumonisins biosynthetic) gene cluster was responsible for fumonisin biosynthesis in Fusarium spp. Sequence comparisons among species within the genus Fusarium suggested that mutations and multiple horizontal gene transfers involving the FUM gene cluster were responsible for the interspecific difference in fumonisin synthesis. We finish by describing methods for monitoring and quantifying SAMs in food and agricultural products.
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9

Ren, Yuxi, Zhen Chen, Riyao Chen, Xi Zheng, and Yamin Geng. "Preparation of SAMS-CMC-CS bipolar membrane and its application in electro-generating FeO42−." Open Chemistry 5, no. 1 (March 1, 2007): 177–90. http://dx.doi.org/10.2478/s11532-006-0065-6.

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AbstractThe preparation of SAMS-CMC-CS bipolar membrane grafted onto CMC by SAMS was reported. The cross-section view of SAMS-CMC-CS BM were studied by SEM. FT-IR spectrum indicated that SAMS-CMC-CS BM contained-SO 3−,-COO− and −N=CHR functional groups. Compared with CMC-CS BM, SAMS-CMC-CS BM appears to have better mechanical strength and chemical stability in alkali solution at [OH−]≥9.5 mol/L, with a swelling of 55 %. The electrochemical properties of SAMS-CMC-CS BM were also studied. SAMS-CS-CMC BM not only effectively prevented FeO 42− from diffusing into the cathode chamber, but also played an important role in the supply of OH− consumed during the electro-generated FeO 42− process.
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10

Morris, Carleen J., Alexander A. Shestopalov, Brian H. Gold, Robert L. Clark, and Eric J. Toone. "Patterning NHS-Terminated SAMs on Germanium." Langmuir 27, no. 10 (May 17, 2011): 6486–89. http://dx.doi.org/10.1021/la200374k.

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11

Salas, J. D., O. G. Sveinsson, W. L. Lane, and D. K. Frevert. "Stochastic Streamflow Simulation Using SAMS-2003." Journal of Irrigation and Drainage Engineering 132, no. 2 (April 2006): 112–22. http://dx.doi.org/10.1061/(asce)0733-9437(2006)132:2(112).

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12

Cheng, Xianhua. "Tribological investigation of MPTS‐MPTES SAMs." Industrial Lubrication and Tribology 61, no. 1 (February 6, 2009): 27–32. http://dx.doi.org/10.1108/00368790910929502.

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13

Rospigliosi, Alessandro, Rudolf Ehlich, Heinrich Hoerber, Anton Middelberg, and Geoff Moggridge. "Electron Transfer of Plurimodified DNA SAMs." Langmuir 23, no. 15 (July 2007): 8264–71. http://dx.doi.org/10.1021/la063704g.

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14

Bowers, Carleen M., Dmitrij Rappoport, Mostafa Baghbanzadeh, Felice C. Simeone, Kung-Ching Liao, Sergey N. Semenov, Tomasz Żaba, Piotr Cyganik, Alan Aspuru-Guzik, and George M. Whitesides. "Tunneling across SAMs Containing Oligophenyl Groups." Journal of Physical Chemistry C 120, no. 21 (May 18, 2016): 11331–37. http://dx.doi.org/10.1021/acs.jpcc.6b01253.

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15

Kwok, Lam-for, Chi-kuen Lau, and Sun-wai Fung. "Evaluating SAMS in Hong Kong schools." Computers & Education 32, no. 3 (April 1999): 249–67. http://dx.doi.org/10.1016/s0360-1315(99)00007-x.

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16

Colonna, Barbara, and Luis Echegoyen. "Templated SAMs for metal ion recognition." Chemical Communications, no. 12 (2001): 1104–5. http://dx.doi.org/10.1039/b102144n.

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17

Hakola, Hanna, Essi Sariola-Leikas, Paavo Jäntti, Thomas Mokus, Kati Stranius, Alexander Efimov, and Nikolai V. Tkachenko. "Formation and stability of porphyrin and phthalocyanine self-assembled monolayers on ZnO surfaces." Journal of Porphyrins and Phthalocyanines 20, no. 08n11 (August 2016): 1264–71. http://dx.doi.org/10.1142/s1088424616501029.

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Formation of self-assembled monolayers (SAMs) of three porphyrin and one phthalocyanine derivatives on thin ZnO film was studied by monitoring absorption spectra of the samples. The compounds were equipped with carboxylic or phosphate groups to bind to the surface. The SAM formation was found to be fast. The layer was formed in less than 15 min for all studied porphyrins, and 30 min was sufficient to form phthalocyanine layer. For porphyrins with different anchor groups the SAM formation was too fast to see any difference between the anchoring groups. The stability of SAMs was tested then by immersing the samples into neat solvents. Upon immersion the SAMs were gradually losing the absorbance for all the compounds with degradation trends being in line with p[Formula: see text] values of the binding groups of the same type. However, even for the weakest binding group the SAM was relatively stable after a few tens of minutes of washing, which was sufficient to remove physisorbed compounds but the SAM was essentially not destroyed. Comparison of SAMs on thin films with SAMs on ZnO nanorods and TiO2 nanoparticle films indicated the same fast layer formation but relatively weaker SAMs stability, showing 20–40% faster absorption losses during the washing.
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18

Rudenko, Gabby. "Dynamic Control of Synaptic Adhesion and Organizing Molecules in Synaptic Plasticity." Neural Plasticity 2017 (2017): 1–14. http://dx.doi.org/10.1155/2017/6526151.

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Synapses play a critical role in establishing and maintaining neural circuits, permitting targeted information transfer throughout the brain. A large portfolio of synaptic adhesion/organizing molecules (SAMs) exists in the mammalian brain involved in synapse development and maintenance. SAMs bind protein partners, forming trans-complexes spanning the synaptic cleft or cis-complexes attached to the same synaptic membrane. SAMs play key roles in cell adhesion and in organizing protein interaction networks; they can also provide mechanisms of recognition, generate scaffolds onto which partners can dock, and likely take part in signaling processes as well. SAMs are regulated through a portfolio of different mechanisms that affect their protein levels, precise localization, stability, and the availability of their partners at synapses. Interaction of SAMs with their partners can further be strengthened or weakened through alternative splicing, competing protein partners, ectodomain shedding, or astrocytically secreted factors. Given that numerous SAMs appear altered by synaptic activity, in vivo, these molecules may be used to dynamically scale up or scale down synaptic communication. Many SAMs, including neurexins, neuroligins, cadherins, and contactins, are now implicated in neuropsychiatric and neurodevelopmental diseases, such as autism spectrum disorder, schizophrenia, and bipolar disorder and studying their molecular mechanisms holds promise for developing novel therapeutics.
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19

Laaksonen, Timo, Outi Pelliniemi, and Bernadette M. Quinn. "Ion Permeability of SAMs on Nanoparticle Surfaces." Journal of the American Chemical Society 128, no. 44 (November 2006): 14341–46. http://dx.doi.org/10.1021/ja064701t.

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20

Singh, Chetana, Ying Hu, Bishnu P. Khanal, Eugene R. Zubarev, Francesco Stellacci, and Sharon C. Glotzer. "Striped nanowires and nanorods from mixed SAMS." Nanoscale 3, no. 8 (2011): 3244. http://dx.doi.org/10.1039/c1nr10215j.

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21

Lüssem, B., L. Müller-Meskamp, S. Karthäuser, M. Homberger, U. Simon, and R. Waser. "Electrical and Structural Characterization of Biphenylethanethiol SAMs." Journal of Physical Chemistry C 111, no. 17 (May 2007): 6392–97. http://dx.doi.org/10.1021/jp067459l.

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22

Eross, Eric, David Dodick, and Michael Eross. "The Sinus, Allergy and Migraine Study (SAMS)." Headache: The Journal of Head and Face Pain 47, no. 2 (February 2007): 213–24. http://dx.doi.org/10.1111/j.1526-4610.2006.00688.x.

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23

Pyatt, Graham. "SAMs, THE SNA AND NATIONAL ACCOUNTING CAPABILITIES." Review of Income and Wealth 37, no. 2 (June 1991): 177–98. http://dx.doi.org/10.1111/j.1475-4991.1991.tb00353.x.

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24

KONDO, T., and K. UOSAKI. "Self-assembled monolayers (SAMs) with photo-functionalities." Journal of Photochemistry and Photobiology C: Photochemistry Reviews 8, no. 1 (March 2007): 1–17. http://dx.doi.org/10.1016/j.jphotochemrev.2007.02.001.

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25

Berron, Brad, and G. Kane Jennings. "Loosely Packed Hydroxyl-Terminated SAMs on Gold." Langmuir 22, no. 17 (August 2006): 7235–40. http://dx.doi.org/10.1021/la0531650.

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26

Stock, Jane K. "Update on SAMS: Statin-associated muscle symptoms." Atherosclerosis 269 (February 2018): 260–61. http://dx.doi.org/10.1016/j.atherosclerosis.2017.12.032.

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27

Hiatt, J. "TU-SAM-BRB-03: CE - Therapy SAMs." Medical Physics 37, no. 6Part14 (June 2010): 3380. http://dx.doi.org/10.1118/1.3469206.

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28

Kairys, Antanas, Audronė Liniauskaitė, Liana Brazdeikienė, Laimis Bakševičius, Ramutė Čepienė, Žieda Mažeikaitė-Gylienė, Mindaugas Rugevičius, Aldona Žakaitienė, and Povilas Žakaitis. "STUDENTŲ AKADEMINĖS MOTYVACIJOS SKALĖS (SAMS-21) STRUKTŪRA." Psichologija 55, no. 55 (July 5, 2017): 41. http://dx.doi.org/10.15388/psichol.2017.55.10735.

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Straipsnyje pristatoma Studentų akademinės motyvacijos skalė (SAMS-21), rengta remiantis svarbiausiomis hierarchinio savideterminacijos teorijos modelio prielaidomis ir siekiant išlaikyti jos siūlomą motyvacijos tipų struktūrą. Tyrimo tikslas – sukurti trumpą akademinės motyvacijos vertinimo skalę ir ištirti jos struktūrą bei psichometrines charakteristikas studentų imtyje. Tyrimas vyko dviem etapais, iš viso jame dalyvavo 621 dviejų universitetų įvairias studijų programas studijuojantis studentas. Akademinė motyvacija tirta SAMS-21 skale, siekiant įvertinti konvergentinį ir divergentinį skalės validumą, naudota Bendrosios motyvacijos skalė (GMS-28; Guay, Mageau, & Vallerand, 2003; Urbanaviciute, Kairys, Juodkune, & Liniauskaite, 2013), taip pat studentų klausta apie jų semestro pažymių vidurkį ir pasitenkinimą studijų programa. Gauti rezultatai leidžia išskirti septynis motyvacijos tipus, minimus hierarchiniame motyvacijos modelyje. Atlikta analizė rodo, kad skalė patikima, taip pat surinkta jos validumo įrodymų.
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29

Pyatt, Graham, and Jeffery I. Round. "DISTRIBUTIONAL INVARIANCE AND THE DESIGN OF SAMS." Economic Systems Research 24, no. 3 (September 2012): 251–73. http://dx.doi.org/10.1080/09535314.2012.665359.

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30

Mandler, Daniel, and Shlomit Kraus-Ophir. "Self-assembled monolayers (SAMs) for electrochemical sensing." Journal of Solid State Electrochemistry 15, no. 7-8 (July 2011): 1535–58. http://dx.doi.org/10.1007/s10008-011-1493-6.

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31

Barriet, David, Chi Ming Yam, Olga E. Shmakova, Andrew C. Jamison, and T. Randall Lee. "4-Mercaptophenylboronic Acid SAMs on Gold: Comparison with SAMs Derived from Thiophenol, 4-Mercaptophenol, and 4-Mercaptobenzoic Acid." Langmuir 23, no. 17 (August 2007): 8866–75. http://dx.doi.org/10.1021/la7007733.

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32

Tung, Wenny. "SAMS Teach Yourself Microsoft PowerPoint 2000 in 24 Hours20001Alexandra Haddad. SAMS Teach Yourself Microsoft PowerPoint 2000 in 24 Hours . Indianapolis: Sams Publishing 1999. , ISBN: ISBN 0‐672‐31432‐0." Campus-Wide Information Systems 17, no. 4 (October 2000): 133. http://dx.doi.org/10.1108/cwis.2000.17.4.133.1.

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33

Saeed, M. K., J. Shah, R. Damani, F. Rahman, P. Patel, and P. Gupta. "Risk Factors Associated with Statin-Associated Muscle Symptoms in Patients Attending a Specialized Regional Lipid Clinic." Journal of Lipids 2021 (March 19, 2021): 1–5. http://dx.doi.org/10.1155/2021/8882706.

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Background. Statin-associated muscle symptoms (SAMS) are the major side effects reported for statins. Data from previous studies suggest that 7–29% of patients on statin had associated muscle symptoms. In the UK, there is a lack of corresponding data on SAMS and factors associated with the development of SAMS. Objective. This analysis is aimed at establishing the prevalence of SAMS and identifying major contributory risk factors in patients attending a lipid clinic. Methods. Clinical records of 535 consecutive patients, who visited the lipid clinic in the University Hospitals of Leicester, were studied retrospectively between 2009 and 2012. SAMS were defined by the presence of muscle symptoms with two or more different statins. Patients who reported muscle symptoms to statin with one or no rechallenge were excluded. The association of SAMS with clinical characteristics such as age and BMI, sex, smoking, excess alcohol, comorbidities, and medications was tested for statistical significance. A binomial logistic regression model was applied to adjust for risk factors significantly associated with SAMS. Results. The prevalence of SAMS was found to be 11%. On unadjusted analysis, the mean age of patients who had SAMS was significantly higher than those without SAMS ( 59.4 ± 10.5 years vs. 50.3 ± 13.4 years, respectively, P < 0.001 ). Nonsmokers were more likely to develop SAMS in comparison to active smokers ( P = 0.037 ). Patients taking antihypertensive medications were more likely to develop SAMS ( P = 0.010 ). In binomial logistic regression analysis, only age was positively and significantly associated with SAMS after adjusting for other risk factors ( β = 0.054 , P = 0.001 ). Conclusion. To the best of our knowledge, this study is the largest cohort of patients with SAMS in the United Kingdom. Our data suggest that the prevalence of SAMS is 11% and increased age is a risk factor associated with the development of SAMS in our cohort of patients.
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34

Sun, C. G., and Hui Chen Zhang. "Preparation and Characterization of γ-Aminopropyltrimethoxysilane and Octadecyltrichlorosilane Self-Assembled Monolayers on Titanium Films." Key Engineering Materials 373-374 (March 2008): 472–75. http://dx.doi.org/10.4028/www.scientific.net/kem.373-374.472.

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In this work, the self-assembled monolayers of γ-aminopropyltrimethoxysilane and octadecyltrichlorosilane were prepared on titanium films, radiated and solidified by ultraviolet radiation/ozone photochemical process. The characterization and friction properties of titanium film, APS SAMs, OTS SAMs and the radiated APS SAMs, OTS SAMs were explored by atomic force microscopy and friction force microscopy. The effects of functional groups, sliding velocity, load and ultraviolet radiation/ozone photochemical process on friction properties of SAMs were analyzed. The experimental results show that the titanium film coated with SAMs, especially under ultraviolet radiation/ozone, is exhibited with a good friction property. The friction property of APS SAMs is better than OTS SAMs under or no ultraviolet radiation/ozone. The friction force increases with the increasing of sliding velocity and decreases with the increasing of load.
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35

Yu, Tianlang, Maria D. Marquez, Hung-Vu Tran, and T. Randall Lee. "Crosslinked organosulfur-based self-assembled monolayers: formation and applications." Soft Science 2, no. 2 (2022): 5. http://dx.doi.org/10.20517/ss.2022.04.

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Self-assembled monolayers (SAMs) have found use in diverse applications that range from corrosion prevention to biosensing. However, for all of these applications, stability remains a key challenge for the utilization of SAMs. Over the last decade, intermolecular crosslinking as a method to enhance the thermal and chemical stability of SAMs has attracted increased attention from scientists and engineers. As such, this review introduces a variety of crosslinked SAMs: (1) aromatic thiol-based SAMs; (2) olefinic- and acetylenic-based alkanethiols; (3) other aliphatic alkanethiols; (4) silane-based alkanethiols; (5) boronic acid-based alkanethiols; and (6) crosslinked SAMs realized by hydrogen bonding. By offering insight into the structure-application relationships of the aforementioned SAMs, this review seeks to inspire researchers toward the development of new classes of SAMs with enhanced stabilities and working lifetimes.
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36

Lukyanchuk, V. V., B. M. Lanetskii, I. V. Koval, Pavlo Open’ko, V. V. Tуurin, and V. V. Khoma. "Model of the Surface-to-Air Missile System Reliability during Long-Term Operation." Advances in Military Technology 16, no. 2 (December 14, 2021): 277–88. http://dx.doi.org/10.3849/aimt.01506.

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During the long-term operation, anti-aircraft missile weapons are characterized by the technical condition and level of reliability change influeincing the efficiency on the intended use. The article presents a model of surface-to-air missile system (SAMS) reliability during long-term operation, which contains a set of models, namely: a model of operation of ground combat assets (GCA) of SAMS according to the typical cyclogram of intended use (TCIU); a reliability dynamics model of SAMS GCA in the established system of maintenance and repair (SMR) and a reliability dynamics model of surface-to-air missiles (SAM) during extended usage. It is expedient to use the developed model at substantiation of requirements to the indicators of SAMS and SAM reliability for their development or modernization; when developing SAMS repair plans in terms of determining the time of SAMS GCA and (or) SAM repairing time and when developing methods for assessing the effectiveness of SAMS taking into account the duration of SAMS GCA and SAMS usage.
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37

Costelle, Leila, Liina Lind, Pasi Jalkanen, Minna T. Räisänen, Roman Nowak, and Jyrki Räisänen. "Conventional Nanoindentation in Self-Assembled Monolayers Deposited on Gold and Silver Substrates." Journal of Nanomaterials 2012 (2012): 1–5. http://dx.doi.org/10.1155/2012/585123.

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Self-assembled monolayers (SAMs) are promising materials for micromechanical applications. However, characterization of mechanical properties of monolayers is challenging for standard nanoindentation, and new efficient analysis techniques are needed. Hereby, a conventional nanoindentation method has been combined in a unique way with efficient data analysis based on consumed energy calculation and load-displacement data. The procedure has been applied on SAMs of 4,4′-biphenyldithiol (BPDT) on Au, 1-tetradecanethiol (TDT), and 1-hexadecanethiol (HDT) on Au and Ag substrates being the first study where SAMs of the same thiols on different substrates are analyzed by nanoindentation providing a new insight into the substrate effects. Unlike TDT and HDT SAMs, which are found to strongly enhance the homogeneity and stiffness of the underlying substrate, the BPDT covered Au substrate appears softer in mechanical response. In the case of TDT and HDT SAMs on Ag the structures are softer showing also faster relaxation than the corresponding structures on Au substrate. The proposed procedure enables a fast and efficient way of assessing the complex behaviour of SAM modified substrates. As a consequence, the results are relevant to practical issues dependent on layer activity and toughness.
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38

Wen, Yu Qing, Hui Min Meng, and Wei Shang. "Electrochemical Characteristics of the Self-Assembly Film on 6061 Aluminum Alloy." Advanced Materials Research 739 (August 2013): 76–79. http://dx.doi.org/10.4028/www.scientific.net/amr.739.76.

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The SAMs was prepared on aluminum alloy by self-assembly membrane technology. The surface morphology of the SAMs was analyzed by scanning electron microscopy (SEM). The electrochemical properties of the SAMs and bare Al alloy samples were researched by Potentiodynamic polarisation and electrochemical impedance spectroscopy in a 3.5-wt.% NaCl solution. The results showed that corrosion current density of the sample with the SAMs was 3.033×10-9Acm-2. The impedance of SAMs was three times than the bare Al alloy. The SAMs had better corrosion resistance than the sample of the bare aluminum alloy substrate.
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39

Belding, Lee, Samuel E. Root, Yuan Li, Junwoo Park, Mostafa Baghbanzadeh, Edwin Rojas, Priscilla F. Pieters, Hyo Jae Yoon, and George M. Whitesides. "Conformation, and Charge Tunneling through Molecules in SAMs." Journal of the American Chemical Society 143, no. 9 (February 23, 2021): 3481–93. http://dx.doi.org/10.1021/jacs.0c12571.

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40

Blanchard, Pierre-Yves, Olivier Alévêque, Tony Breton, and Eric Levillain. "TEMPO Mixed SAMs: Electrocatalytic Efficiency versus Surface Coverage." Langmuir 28, no. 38 (September 13, 2012): 13741–45. http://dx.doi.org/10.1021/la301403w.

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41

Schmidt, Christian, Jan Götzen, and Gregor Witte. "Temporal Evolution of Benzenethiolate SAMs on Cu(100)." Langmuir 27, no. 3 (February 2011): 1025–32. http://dx.doi.org/10.1021/la103533h.

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42

Price, R. "TU-SAMS-AUD-03: IMRT Site Specific: Prostate." Medical Physics 34, no. 6Part17 (June 2007): 2539–40. http://dx.doi.org/10.1118/1.2761312.

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43

Jiang, SB. "WE-SAMS-AUD-01: 4D Scanning: Imaging/Planning." Medical Physics 34, no. 6Part19 (June 2007): 2581. http://dx.doi.org/10.1118/1.2761475.

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44

Thomadsen, B. "TH-SAMS-AUD-01: Brachytherapy: General Clinical Applications." Medical Physics 34, no. 6Part22 (June 2007): 2617. http://dx.doi.org/10.1118/1.2761621.

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45

Hernandez, D. "TH-SAMS-332-02: ACR CT Accreditation Overview." Medical Physics 35, no. 6Part25 (June 2008): 2963. http://dx.doi.org/10.1118/1.2962814.

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46

Lahiri, Joydeep, Emanuele Ostuni, and George M. Whitesides. "Patterning Ligands on Reactive SAMs by Microcontact Printing." Langmuir 15, no. 6 (March 1999): 2055–60. http://dx.doi.org/10.1021/la9811970.

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47

Stanford, J. L., J. R. Ziemke, and S. Y. Gao. "Stratospheric Circulation Features Deduced from SAMS Constituent Data." Journal of the Atmospheric Sciences 50, no. 2 (January 1993): 226–46. http://dx.doi.org/10.1175/1520-0469(1993)050<0226:scfdfs>2.0.co;2.

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48

Silva, H. Martins, I. Abreu Da Silva, F. Ronchetti, A. Telesca, and C. Maidantchik. "The ALICE Glance Shift Accounting Management System (SAMS)." Journal of Physics: Conference Series 664, no. 5 (December 23, 2015): 052037. http://dx.doi.org/10.1088/1742-6596/664/5/052037.

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49

Zhang, Sheng, Claudia M. Cardona, and Luis Echegoyen. "Ion recognition properties of self-assembled monolayers (SAMs)." Chemical Communications, no. 43 (2006): 4461. http://dx.doi.org/10.1039/b608146k.

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50

Lin, Peter, Tsung-Liang Chuang, Paul Z. Chen, Chii-Wann Lin, and Frank X. Gu. "Low-Fouling Characteristics of Ultrathin Zwitterionic Cysteine SAMs." Langmuir 35, no. 5 (July 30, 2018): 1756–67. http://dx.doi.org/10.1021/acs.langmuir.8b01525.

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