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Articoli di riviste sul tema "Surface chemistry"

Autore: Grafiati
Pubblicato: 4 giugno 2021
Ultima modifica: 25 luglio 2025

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1

Over, H. "SURFACE CHEMISTRY: Oxidation of Metal Surfaces." Science 297, no. 5589 (2002): 2003–5. http://dx.doi.org/10.1126/science.1077063.

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2

Haruyama, Shiro. "Surface chemistry." Bulletin of the Japan Institute of Metals 26, no. 7 (1987): 666–69. http://dx.doi.org/10.2320/materia1962.26.666.

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3

NAKAMAE, KATSUHIKO. "Surface Chemistry." Sen'i Gakkaishi 44, no. 2 (1988): P44—P50. http://dx.doi.org/10.2115/fiber.44.2_p44.

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4

YATES, JOHN T. "SURFACE CHEMISTRY." Chemical & Engineering News 70, no. 13 (1992): 22–35. http://dx.doi.org/10.1021/cen-v070n013.p022.

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5

Delhommelle, Jerome. "Surface Chemistry." Molecular Simulation 43, no. 5-6 (2017): 326. http://dx.doi.org/10.1080/08927022.2017.1283787.

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6

Geagea, Elie, Frank Palmino, and Frédéric Cherioux. "On-Surface Chemistry on Low-Reactive Surfaces." Chemistry 4, no. 3 (2022): 796–810. http://dx.doi.org/10.3390/chemistry4030057.

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Abstract (sommario):
Zero-dimensional (0D), mono-dimensional (1D), or two-dimensional (2D) nanostructures with well-defined properties fabricated directly on surfaces are of growing interest. The fabrication of covalently bound nanostructures on non-metallic surfaces is very promising in terms of applications, but the lack of surface assistance during their synthesis is still a challenge to achieving the fabrication of large-scale and defect-free nanostructures. We discuss the state-of-the-art approaches recently developed in order to provide covalently bounded nanoarchitectures on passivated metallic surfaces, se
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7

Thi, W. F., S. Hocuk, I. Kamp, et al. "Warm dust surface chemistry in protoplanetary disks." Astronomy & Astrophysics 635 (March 2020): A16. http://dx.doi.org/10.1051/0004-6361/201731747.

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Context. The origin of the reservoirs of water on Earth is debated. The Earth’s crust may contain at least three times more water than the oceans. This crust water is found in the form of phyllosilicates, whose origin probably differs from that of the oceans. Aims. We test the possibility to form phyllosilicates in protoplanetary disks, which can be the building blocks of terrestrial planets. Methods. We developed an exploratory rate-based warm surface chemistry model where water from the gas-phase can chemisorb on dust grain surfaces and subsequently diffuse into the silicate cores. We applie
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8

Strelko, V. V., and Yu I. Gorlov. "Influence of electronic states of nanographs in carbon microcrystallines on surface chemistry of activated charcoal varieties." Surface 13(28) (December 30, 2021): 15–38. http://dx.doi.org/10.15407/surface.2021.13.015.

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In this paper, the nature of the chemical activity of pyrolyzed nanostructured carbon materials (PNCM), in particular active carbon (AC), in reactions of electron transfer considered from a single position, reflecting the priority role of paramagnetic centers and edge defunctionaled carbon atoms of carbon microcristallites (CMC) due to pyrolysis of precursors. Clusters in the form of polycyclic aromatic hydrocarbons with open (OES) and closed (CES) electronic shells containing terminal hydrogen atoms (or their vacancies) and different terminal functional groups depending on specific model reac
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9

WU, Kai. "Surface Physical Chemistry." Acta Physico-Chimica Sinica 34, no. 12 (2018): 1299–301. http://dx.doi.org/10.3866/pku.whxb201804192.

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10

Campbell, C. T. "Bimetallic Surface Chemistry." Annual Review of Physical Chemistry 41, no. 1 (1990): 775–837. http://dx.doi.org/10.1146/annurev.pc.41.100190.004015.

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11

Madey, T. E., K. Pelhos, Q. Wu, et al. "Nanoscale surface chemistry." Proceedings of the National Academy of Sciences 99, Supplement 2 (2002): 6503–8. http://dx.doi.org/10.1073/pnas.062536499.

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12

OLIS, ALEXANDER C. "Aquatic Surface Chemistry." Soil Science 146, no. 3 (1988): 212. http://dx.doi.org/10.1097/00010694-198809000-00018.

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13

McKee, C. S. "Oxygen surface chemistry." Applied Catalysis A: General 148, no. 2 (1997): N8—N9. http://dx.doi.org/10.1016/s0926-860x(97)80018-x.

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14

McKee, C. S. "Oxygen surface chemistry." Applied Catalysis A: General 149, no. 2 (1997): N2—N3. http://dx.doi.org/10.1016/s0926-860x(97)80030-0.

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15

McKee, C. S. "Oxygen surface chemistry." Applied Catalysis A: General 150, no. 1 (1997): N2—N3. http://dx.doi.org/10.1016/s0926-860x(97)80034-8.

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16

Anpo, Masakazu, Hiromi Yamashita, and Shu Guo Zhang. "Photoinduced surface chemistry." Current Opinion in Solid State and Materials Science 1, no. 5 (1996): 630–35. http://dx.doi.org/10.1016/s1359-0286(96)80044-1.

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17

Sohn, Mary. "Aquatic surface chemistry." Organic Geochemistry 12, no. 3 (1988): 295. http://dx.doi.org/10.1016/0146-6380(88)90267-7.

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18

Bergbreiter, David E. "Polyethylene surface chemistry." Progress in Polymer Science 19, no. 3 (1994): 529–60. http://dx.doi.org/10.1016/0079-6700(94)90004-3.

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19

Feldman, Kirill, Michaela Fritz, Georg Hähner, Andreas Marti, and Nicholas D. Spencer. "Surface forces, surface chemistry and tribology." Tribology International 31, no. 1-3 (1998): 99–105. http://dx.doi.org/10.1016/s0301-679x(98)00012-7.

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20

Cuppen, H. M., A. Fredon, T. Lamberts, E. M. Penteado, M. Simons, and C. Walsh. "Surface astrochemistry: a computational chemistry perspective." Proceedings of the International Astronomical Union 13, S332 (2017): 293–304. http://dx.doi.org/10.1017/s1743921317009929.

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AbstractMolecules in space are synthesized via a large variety of gas-phase reactions, and reactions on dust-grain surfaces, where the surface acts as a catalyst. Especially, saturated, hydrogen-rich molecules are formed through surface chemistry. Astrochemical models have developed over the decades to understand the molecular processes in the interstellar medium, taking into account grain surface chemistry. However, essential input information for gas-grain models, such as binding energies of molecules to the surface, have been derived experimentally only for a handful of species, leaving hun
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21

Qiu, Peng, Vincent Bennani, Paul Cooper, George Dias, and Jithendra Ratnayake. "Surface chemistry on PEEK surfaces: From enhanced biofunctionality to improved surface modifiability." Applied Materials Today 41 (December 2024): 102523. http://dx.doi.org/10.1016/j.apmt.2024.102523.

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22

Iqbal, Muzammil, Duy Khoe Dinh, Qasim Abbas, Muhammad Imran, Harse Sattar, and Aqrab Ul Ahmad. "Controlled Surface Wettability by Plasma Polymer Surface Modification." Surfaces 2, no. 2 (2019): 349–71. http://dx.doi.org/10.3390/surfaces2020026.

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Inspired by nature, tunable wettability has attracted a lot of attention in both academia and industry. Various methods of polymer surface tailoring have been studied to control the changes in wetting behavior. Polymers with a precisely controlled wetting behavior in a specific environment are blessed with a wealth of opportunities and potential applications exploitable in biomaterial engineering. Controlled wetting behavior can be obtained by combining surface chemistry and morphology. Plasma assisted polymer surface modification technique has played a significant part to control surface chem
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23

Eagle, Forrest W., Ricardo A. Rivera-Maldonado, and Brandi M. Cossairt. "Surface Chemistry of Metal Phosphide Nanocrystals." Annual Review of Materials Research 51, no. 1 (2021): 541–64. http://dx.doi.org/10.1146/annurev-matsci-080819-011036.

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Semiconducting and metallic metal phosphide nanocrystals have gained increased attention in the materials science and engineering community due to their demonstrated and theoretical promise in both emissive and catalytic applications. Central to realizing the full potential of nanoscale metal phosphides is a thorough understanding of their surfaces and how surface chemistry impacts their function. In this review, we document what is known about the surface chemistry of metal phosphide nanocrystals, including both as synthesized and postsynthetically modified species, and draw a connection betw
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24

Pickens, Robin Monegue, and Charles H. Jagoe. "Relationships between precipitation and surface water chemistry in three Carolina Bays." Archiv für Hydrobiologie 137, no. 2 (1996): 187–209. http://dx.doi.org/10.1127/archiv-hydrobiol/137/1996/187.

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25

Gabániová, Mária. "Surface Chemistry-Based Surface Defects Situated on Steel Strips Edges." Defect and Diffusion Forum 405 (November 2020): 199–204. http://dx.doi.org/10.4028/www.scientific.net/ddf.405.199.

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Two thirds of all examined defect cases present on rolled steel strips appeared to be chemical in nature. They are characterized by a modification in surface chemistry. Chemistry-based defects on the steel strips can vary in composition and generally consist of reaction products with the steel substrate. First big category of widely occurring chemistry-based defects is corrosion or oxidation, second contamination with alien matter and third defect category is related to carbon sediments. A number of different surface chemistry-based defects are related to annealing process. Common problem, tha
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26

Konsolakis, Michalis. "Surface Chemistry and Catalysis." Catalysts 6, no. 7 (2016): 102. http://dx.doi.org/10.3390/catal6070102.

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27

Vesel, Alenka. "Surface Chemistry of Polymers." Polymers 12, no. 11 (2020): 2757. http://dx.doi.org/10.3390/polym12112757.

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28

Copéret, Christophe. "Surface and Interfacial Chemistry." CHIMIA International Journal for Chemistry 66, no. 3 (2012): 125–29. http://dx.doi.org/10.2533/chimia.2012.125.

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29

Chikazawa, Masatoshi. "Surface chemistry of powders." Journal of Society of Cosmetic Chemists of Japan 27, no. 2 (1993): 103–18. http://dx.doi.org/10.5107/sccj.27.103.

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30

Somorjai, G. A., and Y. Li. "Impact of surface chemistry." Proceedings of the National Academy of Sciences 108, no. 3 (2010): 917–24. http://dx.doi.org/10.1073/pnas.1006669107.

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31

Thi, W. F., S. Hocuk, I. Kamp, et al. "Warm dust surface chemistry." Astronomy & Astrophysics 634 (February 2020): A42. http://dx.doi.org/10.1051/0004-6361/201731746.

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Context. Molecular hydrogen (H2) is the main constituent of the gas in the planet-forming disks that surround many pre-main-sequence stars. H2 can be incorporated in the atmosphere of the nascent giant planets in disks. Deuterium hydride (HD) has been detected in a few disks and can be considered the most reliable tracer of H2, provided that its abundance throughout the disks with respect to H2 is well understood. Aims. We wish to form H2 and HD efficiently for the varied conditions encountered in protoplanetary disks: the densities vary from 104 to 1016 cm−3; the dust temperatures range from
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32

Gellman, A. J., and N. D. Spencer. "Surface chemistry in tribology." Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 216, no. 6 (2002): 443–61. http://dx.doi.org/10.1243/135065002762355352.

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Surface chemistry is key to the understanding of tribological phenomena in the absence of a thick lubricant film. Progress in the development of surface analytical techniques has opened a new window into tribochemical phenomena and holds the promise of a better understanding of many critically important tribological processes. In this review the areas in which surface chemistry has played an important role in enhancing tribological understanding are surveyed. These include boundary lubrication, surface-additive interactions, the anomalous tribological behaviour of quasicrystals and the lubrica
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33

Lewis, Emily A., April D. Jewell, Georgios Kyriakou, and E. Charles H. Sykes. "Rediscovering cobalt's surface chemistry." Physical Chemistry Chemical Physics 14, no. 20 (2012): 7215. http://dx.doi.org/10.1039/c2cp23691e.

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34

Vaynberg, Julia, and L. M. Ng. "Surface chemistry of fluoroethanols." Surface Science 577, no. 2-3 (2005): 175–87. http://dx.doi.org/10.1016/j.susc.2004.12.031.

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35

Stojilovic, N., E. T. Bender, and R. D. Ramsier. "Surface chemistry of zirconium." Progress in Surface Science 78, no. 3-4 (2005): 101–84. http://dx.doi.org/10.1016/j.progsurf.2005.07.001.

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36

Neergaard Waltenburg, Hanne, and John T. Yates. "Surface Chemistry of Silicon." Chemical Reviews 95, no. 5 (1995): 1589–673. http://dx.doi.org/10.1021/cr00037a600.

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37

Chen, Carl W., and Luis E. Gomez. "Surface water chemistry. Comments." Environmental Science & Technology 23, no. 7 (1989): 752–54. http://dx.doi.org/10.1021/es00065a002.

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38

Kulakova, I. I. "Surface chemistry of nanodiamonds." Physics of the Solid State 46, no. 4 (2004): 636–43. http://dx.doi.org/10.1134/1.1711440.

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39

Nebel, C. E. "CHEMISTRY: Surface-Conducting Diamond." Science 318, no. 5855 (2007): 1391–92. http://dx.doi.org/10.1126/science.1151314.

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40

Pytskii, Ivan S., Irina V. Minenkova, Elena S. Kuznetsova, Rinad Kh Zalavutdinov, Aleksei V. Uleanov, and Aleksei K. Buryak. "Surface chemistry of structural materials subjected to corrosion." Pure and Applied Chemistry 92, no. 8 (2020): 1227–37. http://dx.doi.org/10.1515/pac-2019-1219.

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AbstractThe article describes a comprehensive mass spectrometric approach to the study of surfaces of structural materials. The combined use of thermal desorption mass spectrometry, gas and liquid chromatography, and laser desorption/ionization mass spectrometry (LDI) to provide information about the surface and surface layers of materials is proposed. The suggested method allows one to determine the thermodynamic characteristics of compounds and surface contaminants adsorbed on surfaces, as well as surface layers, to determine the composition of volatile and non-volatile contaminants on the s
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41

Ogenko, V. M. "Surface Chemistry in Modern Nanotechnologies." Adsorption Science & Technology 14, no. 5 (1996): 295–300. http://dx.doi.org/10.1177/026361749601400504.

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A review of the properties of fine oxide surfaces at the nano level is given based on the author's work. It includes a scheme related to the structure of pyrogenic silica and the changes induced by dehydroxylation as studied by quantum chemical and spectroscopic methods. The application of non-linear optical methods has appeared to be useful for the investigation of disperse solid structures. Quantitative measurements of intermolecular interaction have been obtained by light scattering. Alteration of the surface activity due to gas-phase electron–donor molecule action on chemisorbed complexes
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42

WITHY, B., M. HYLAND, and B. JAMES. "PRETREATMENT EFFECTS ON THE SURFACE CHEMISTRY AND MORPHOLOGY OF ALUMINIUM." International Journal of Modern Physics B 20, no. 25n27 (2006): 3611–16. http://dx.doi.org/10.1142/s0217979206040076.

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Chemical pretreatments are often used to improve the adhesion of coatings to aluminium. XPS and AFM were used to study the effect of these pretreatments on the surface chemistry and morphology of Al 5005. Four pretreatments were investigated, an acetone degrease, boiling water immersion, and two sulphuric acid etches, FPL and P2. Degreasing had no affect on surface morphology and simply added to the adventitious carbon on the surface. Boiling water immersion produced a chemically stable pseudo-boehmitic surface that was quite porous. The acid etches produced porous pitted surfaces similar to e
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43

Kim, Taeseung, and Francisco Zaera. "Surface Chemistry of Pentakis(dimethylamido)tantalum on Ta Surfaces." Journal of Physical Chemistry C 115, no. 16 (2011): 8240–47. http://dx.doi.org/10.1021/jp201564v.

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44

Dutta, Soham, and Andrew J. Gellman. "Enantiomer surface chemistry: conglomerate versus racemate formation on surfaces." Chemical Society Reviews 46, no. 24 (2017): 7787–839. http://dx.doi.org/10.1039/c7cs00555e.

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45

SUZUKI, Toshimitsu, and Yoshihisa WATANABE. "Surface chemistry of carbons. Oxidation reactions of carbon surfaces." Hyomen Kagaku 10, no. 9 (1989): 565–72. http://dx.doi.org/10.1380/jsssj.10.565.

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46

Savio, L., K. B. Bhavitha, G. Bracco, et al. "Correlating hydrophobicity to surface chemistry of microstructured aluminium surfaces." Applied Surface Science 542 (March 2021): 148574. http://dx.doi.org/10.1016/j.apsusc.2020.148574.

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47

Bertani, R. "Surface organometallic chemistry: Molecular approaches to surface catalysis." Inorganica Chimica Acta 157, no. 1 (1989): 133. http://dx.doi.org/10.1016/s0020-1693(00)83435-0.

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48

Pringle, P. O. "Surface organometallic chemistry: Molecular approaches to surface catalysis." Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 289, no. 1-2 (1990): 299. http://dx.doi.org/10.1016/0022-0728(90)87226-a.

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49

Collins, Alan J., J. M. Basset, and B. C. Gates. "Surface Organometallic Chemistry: Molecular Approaches to Surface Catalysis." Statistician 38, no. 2 (1989): 147. http://dx.doi.org/10.2307/2348331.

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50

KOISHI, MASUMI. "Surface and interface. Surface chemistry in dispersion system." NIPPON GOMU KYOKAISHI 60, no. 5 (1987): 240–45. http://dx.doi.org/10.2324/gomu.60.240.

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