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Artículos de revistas sobre el tema "Électrocatalyseur à base de palladium"

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Publicado: 1 de junio de 2024

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1

Sodeoka, Mikiko y Yoshitaka Hamashima. "Acid-base catalysis using chiral palladium complexes". Pure and Applied Chemistry 78, n.º 2 (1 de enero de 2006): 477–94. http://dx.doi.org/10.1351/pac200678020477.

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Chiral Pd aqua and µ-hydroxo complexes were found to act as mild Brønsted acids and bases, and chiral Pd enolates were generated from these complexes even under acidic conditions. Highly enantioselective Michael addition, Mannich-type reaction, fluorination, and conjugate addition of amines have been developed based on the acid-base character of these Pd complexes.
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2

Nagle, Lorraine C. y L. D. Burke. "Anomalous electrochemical behaviour of palladium in base". Journal of Solid State Electrochemistry 14, n.º 8 (2 de diciembre de 2009): 1465–79. http://dx.doi.org/10.1007/s10008-009-0975-2.

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3

Vila, J. M., M. T. Pereira, A. Suárez, E. Gayoso, M. Gayoso, J. Selbin y A. Sen. "Cyclometallation, Palladium(II) Complexes with Schiff Base Ligands". Synthesis and Reactivity in Inorganic and Metal-Organic Chemistry 16, n.º 4 (enero de 1986): 499–511. http://dx.doi.org/10.1080/00945718608055924.

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4

Wang, Xiaoping, Nancy Kariuki, Suhas Niyogi, Matt C. Smith, Deborah J. Myers, Timo Hofmann, Yufeng Zhang, Marcus Bär y Clemens Heske. "Bimetallic Palladium-Base Metal Nanoparticle Oxygen Reduction Electrocatalysts". ECS Transactions 16, n.º 2 (18 de diciembre de 2019): 109–19. http://dx.doi.org/10.1149/1.2981848.

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5

R., Dileep y Badekai Ramachandra Bhat. "Palladium-Schiff base-triphenylphosphine catalyzed oxidation of alcohols". Applied Organometallic Chemistry 24, n.º 9 (26 de agosto de 2010): 663–66. http://dx.doi.org/10.1002/aoc.1683.

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6

Kumar, Rajnish y Ganesan Mani. "Exhibition of the Brønsted acid–base character of a Schiff base in palladium(ii) complex formation: lithium complexation, fluxional properties and catalysis of Suzuki reactions in water". Dalton Transactions 44, n.º 15 (2015): 6896–908. http://dx.doi.org/10.1039/c5dt00438a.

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The Brønsted acid–base character of bis(iminopyrrolylmethyl)amine was shown through the X-ray structures of palladium complexes. The bischelated palladium complex is fluxional as studied by the VT 1H NMR method and effectively catalyzes Suzuki reactions in water.
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7

Mitin, Anton V., Alexander N. Kashin y Irina P. Beletskaya. "Role of base in palladium-catalyzed arylation of carbanions". Journal of Organometallic Chemistry 689, n.º 6 (marzo de 2004): 1085–90. http://dx.doi.org/10.1016/j.jorganchem.2003.12.039.

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8

Le Bras, Jean y Jacques Muzart. "Base-free palladium-mediated cycloalkenylations of olefinic enolic systems". Tetrahedron 71, n.º 48 (diciembre de 2015): 9035–59. http://dx.doi.org/10.1016/j.tet.2015.09.060.

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9

Burke, L. D. y J. K. Casey. "The electrocatalytic behaviour of palladium in acid and base". Journal of Applied Electrochemistry 23, n.º 6 (junio de 1993): 573–82. http://dx.doi.org/10.1007/bf00721948.

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10

Pankajakshan, Sreekumar y Teck-Peng Loh. "Base-Free Palladium-Catalyzed Sonogashira Coupling Using Organogold Complexes". Chemistry - An Asian Journal 6, n.º 9 (30 de junio de 2011): 2291–95. http://dx.doi.org/10.1002/asia.201100263.

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11

Chen, Bo y Xiao-Feng Wu. "Palladium-Catalyzed Carbonylative Synthesis of Benzogerminones". Synlett 30, n.º 13 (3 de julio de 2019): 1592–96. http://dx.doi.org/10.1055/s-0037-1611880.

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A novel and practical procedure for the synthesis of benzogerminones by carbonylative cyclization has been developed. With Pd(PPh3)4 as the catalyst and DABCO as the base, the desired benzogerminones were isolated in moderate to good yields with good functional group tolerance. To the best of our knowledge, this is the first procedure for benzogerminones synthesis.
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12

Che Soh, Siti Kamilah y Mustaffa Shamsuddin. "Tetradentate N2O2Chelated Palladium(II) Complexes: Synthesis, Characterization, and Catalytic Activity towards Mizoroki-Heck Reaction of Aryl Bromides". Journal of Chemistry 2013 (2013): 1–8. http://dx.doi.org/10.1155/2013/632315.

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Four air and moisture-stable palladium(II)-Schiff base complexes,N,N′-bis(α-methylsalicylidene)propane-1,3-diamine palladium(II) (2a),N,N′-bis(4-methyl-α-methylsalicylidene)propane-1,3-diamine palladium(II) (2b),N,N′-bis(3,5-di-tert-butylsalicylidene)propane-1,3-diamine palladium(II) (2c), andN,N′-bis(4-methoxy-salicylidene)propane-1,3-diamine palladium(II) (2d), have been successfully synthesised and characterised by CHN elemental analyses and conventional spectroscopic methods. These complexes were investigated as catalysts in the phosphine-free Mizoroki-Heck cross-coupling reactions of aryl bromides with methyl acrylate.
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13

Hong, Seok Jun, Jae Woong Choi, Gil Ho Hwang, Won Kyu Han, Joon Shik Park y Sung Goon Kang. "Effect of the Palladium Mid-Layer on the Cyclic Oxidation of Platinum Aluminide Bond Coating". Materials Science Forum 510-511 (marzo de 2006): 1058–61. http://dx.doi.org/10.4028/www.scientific.net/msf.510-511.1058.

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Platinum/Palladium modified aluminide coatings prepared by aluminide pack cementation on the nickel base superalloy Inconnel 738. The platinum/palladium modified aluminide coating of cyclic oxidation behavior at 1200°C was investigated by TGA, XRD and SEM/EDS. Platinum/Palladium modified aluminide coatings showed better cyclic oxidation resistance than Platinum modified aluminide coating and palladium modified aluminide coating compared. Pt and Pd alloy played an enough role in alumina stabilization and in delaying the degradation of β-phase.
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14

Khanna, P. K. y Deepti Kulkarni. "Reduction of PdCl2 by Emeraldine Base; Synthesis of Palladium Nanoparticles". Synthesis and Reactivity in Inorganic, Metal-Organic, and Nano-Metal Chemistry 38, n.º 7 (5 de septiembre de 2008): 629–33. http://dx.doi.org/10.1080/15533170802293402.

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15

Tyulyaeva, E. Yu, O. V. Kosareva, M. E. Klyueva y T. N. Lomova. "Acid-base and coordination properties of some palladium(II)porphyrins". Russian Journal of Inorganic Chemistry 53, n.º 9 (septiembre de 2008): 1405–10. http://dx.doi.org/10.1134/s0036023608090106.

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16

Cuevas, JoséV y Gabriel García-Herbosa. "Base-catalyzed dehydrogenation of palladium(II) amino to imino complexes". Inorganic Chemistry Communications 1, n.º 10 (octubre de 1998): 372–74. http://dx.doi.org/10.1016/s1387-7003(98)00095-1.

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17

Cima, M. y L. Brewer. "The generalized lewis acid-base titration of palladium and niobium". Metallurgical Transactions B 19, n.º 6 (diciembre de 1988): 893–917. http://dx.doi.org/10.1007/bf02651413.

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18

Burke, L. D. y J. K. Casey. "An Examination of the Electrochemical Behavior of Palladium in Base". Journal of The Electrochemical Society 140, n.º 5 (1 de mayo de 1993): 1292–98. http://dx.doi.org/10.1149/1.2220973.

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19

Keith, Jason M. y William A. Goddard. "Chelating Base Effects in Palladium-Mediated Activation of Molecular Oxygen". Organometallics 31, n.º 2 (11 de enero de 2012): 545–52. http://dx.doi.org/10.1021/om200809u.

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20

Coombs, Robin R., Melissa K. Ringer, Johanna M. Blacquiere, Joshua C. Smith, J. Scott Neilsen, Yoon-Seo Uh, J. Bryson Gilbert et al. "Palladium(II) Schiff base complexes derived from sulfanilamides and aminobenzothiazoles". Transition Metal Chemistry 30, n.º 4 (mayo de 2005): 411–18. http://dx.doi.org/10.1007/s11243-004-7625-4.

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21

Noor, Asif, Daniel L. Maloney, James E. M. Lewis, Warrick K. C. Lo y James D. Crowley. "Acid-Base Driven Ligand Exchange with Palladium(II) “Click” Complexes". Asian Journal of Organic Chemistry 4, n.º 3 (24 de octubre de 2014): 208–11. http://dx.doi.org/10.1002/ajoc.201402197.

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22

Dileep R., Dileep R. y Badekai Ramachandra Bhat. "ChemInform Abstract: Palladium -Schiff Base - Triphenylphosphine Catalyzed Oxidation of Alcohols." ChemInform 42, n.º 3 (23 de diciembre de 2010): no. http://dx.doi.org/10.1002/chin.201103036.

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23

Yamamoto, Yutaro, Hiroshi Matsubara, Hideki Yorimitsu y Atsuhiro Osuka. "Base-Free Palladium-Catalyzed Borylation of Aryl Chlorides with Diborons". ChemCatChem 8, n.º 14 (27 de junio de 2016): 2317–20. http://dx.doi.org/10.1002/cctc.201600456.

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24

Sathya, M. y G. Venkatachalam. "Synthesis, Spectral and Catalytic Properties of Palladium(II) Complexes Containing Hydrazone Schiff Base Ligands". Asian Journal of Chemistry 34, n.º 11 (2022): 2922–28. http://dx.doi.org/10.14233/ajchem.2022.23979.

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Palladium(II) complexes of bidentate hydrazone Schiff bases were synthesized and characterized by means of physico-chemical and spectroscopic (FT-IR, UV-vis and NMR) techniques. All the palladium(II) complexes were tested as catalyst for Suzuki-Miyaura and Sonogashira coupling reactions and exhibits moderate to good catalytic activity.
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25

Tardiff, Bennett J., Joshua C. Smith, Stephen J. Duffy, Christopher M. Vogels, Andreas Decken y Stephen A. Westcott. "Synthesis, characterization, and reactivity of Pd(II) salicylaldimine complexes derived from aminophenols". Canadian Journal of Chemistry 85, n.º 5 (1 de mayo de 2007): 392–99. http://dx.doi.org/10.1139/v07-036.

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Schiff bases, derived from the condensation of salicylaldehydes with 3- and 4-aminophenol, reacted with palladium(II) acetate to give the corresponding bis(N-arylsalicylaldiminato)palladium(II) complexes. These complexes have been found to be active catalysts for the Suzuki–Miyaura cross-coupling of aryl bromides and iodides with aryl boronic acids, using water as a solvent.Key words: cross-coupling, green chemistry, palladium, salicylaldimines, Schiff base, Suzuki–Miyaura.
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26

Parunov, Vitaliy Anatol’evich, M. A. Kareva, S. D. Tykochinskiy y I. Yu Lebedenko. "THE DEVELOPMENT OF A NEW METAL ALLOY BASED ON PALLADIUM WITHIN THE FRAMEWORK OF PRACTICAL IMPLEMENTATION OF THE CONCEPT OF DEVELOPMENT OF THE DOMESTIC DENTAL MATERIALS SCIENCE". Russian Journal of Dentistry 21, n.º 3 (15 de junio de 2017): 126–28. http://dx.doi.org/10.18821/1728-2802-2017-21-3-126-128.

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The article shows the creation of a new Russian base alloy of palladium for metal-ceramic dental prostheses “Palladini UNI” puteam comprehensive analysis of the influence of alloying elements on the phase structure of the palladium alloys, physical and mechanical properties and coefficient of thermal linear expansion.
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27

Jaksic, Ljiljana y Radmila Dzudovic. "Coulometric-potentiometric determination of pKA of several organic bases in propylene carbonate". Journal of the Serbian Chemical Society 73, n.º 6 (2008): 655–59. http://dx.doi.org/10.2298/jsc0806655j.

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The pKA values of protonated triethylamine, pyridine and 2,2'-dipyridyl in propylene carbonate (PC) were determined by applying the coulometric-potentiometric method and a hydrogen/palladium generator anode (H2/Pd). The investigated and reference base were titrated to 50 % with protons electro-generated from hydrogen-saturated palladium, in the presence of sodium perchlorate as the supporting electrolyte. The half-neutralization potentials E1/2(x) and E1/2(st.) of the investigated and standard base, respectively, were measured using a glass-SCE pair. The obtained pKA values were compared with those reported in the literature.
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28

Veltri, Lucia, Bartolo Gabriele, Raffaella Mancuso, Patrizio Russo, Giuseppe Grasso, Corrado Cuocci y Roberto Romeo. "Palladium-Catalyzed Carbonylative Synthesis of Functionalized Benzimidazopyrimidinones". Synthesis 50, n.º 02 (23 de noviembre de 2017): 267–77. http://dx.doi.org/10.1055/s-0036-1591835.

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A new and convenient approach to functionalized benzimidazopyrimidinones is reported. It is based on a two-step procedure starting from readily available 1-(prop-2-yn-1-yl)-1H-benzo[d]imidazol-2-amines, consisting of a multicomponent palladium-catalyzed oxidative cyclocarbonylation–alkoxycarbonylation process, followed by base-promoted isomerization of the initially formed mixture of isomeric carbonylated products. Fair to good overall yields of the final alkyl 2-(2-oxo-1,2-dihydrobenzo[4,5]imidazo[1,2-a]pyrimidin-3-yl)acetates are obtained, using different alcohols as solvent and nucleophile in the carbonylation step (carried out in the presence of 0.33–1 mol% PdI2 in conjunction with 17–50 mol% KI, at 100 °C and under 20 atm of a 4:1 mixture of CO–air) and the corresponding sodium alkoxide as base in the subsequent isomerization step (carried out in the alcoholic solvent at room temperature). The structures of a representative substrate [N-benzyl-1-(prop-2-yn-1-yl)-1H-benzo[d]imidazol-2-amine] and a representative product [methyl 2-(1-isopentyl-2-oxo-1,2-dihydrobenzo-[4,5]imidazo[1,2-a]pyrimidin-3-yl)acetate] were confirmed by X-ray diffraction analysis.
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29

Ren, Li, Austin C. Chen, Andreas Decken y Cathleen M. Crudden. "Chiral bidentate N-heterocyclic carbene complexes of Rh and Pd". Canadian Journal of Chemistry 82, n.º 12 (1 de diciembre de 2004): 1781–87. http://dx.doi.org/10.1139/v04-165.

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The synthesis of a new chiral, bidentate oxazoline/imidazolidene carbene precursor is described. This species is reacted with various metal salts in the presence of a base to generate rhodium and palladium complexes, which are characterized spectroscopically and crystallographically.Key words: chiral N-heterocyclic carbene, rhodium, palladium, oxazolidine, asymmetric catalysis.
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30

Celedón, Salvador, Thierry Roisnel, Vania Artigas, Mauricio Fuentealba, David Carrillo, Isabelle Ledoux-Rak, Jean-René Hamon y Carolina Manzur. "Palladium(ii) complexes of tetradentate donor–acceptor Schiff base ligands: synthesis and spectral, structural, thermal and NLO properties". New Journal of Chemistry 44, n.º 22 (2020): 9190–201. http://dx.doi.org/10.1039/d0nj01982h.

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31

M. Sathya y G. Venkatachalam. "Synthesis, Structural Characterization and Catalytic Activities of Palladium(II) Schiff base Complexes Containing Tetradentate N2O2 & N2S2 Donor Ligands". International Journal For Multidisciplinary Research 04, n.º 04 (2022): 417–28. http://dx.doi.org/10.36948/ijfmr.2022.v04i04.045.

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New family of palladium(II) tetradentate complexes of the general formula [Pd(L1-4)] (L1-L3; tetradentate N2O2 donors & L4; tetradentate N2S2 donors) have been synthesized by the reaction of Pd(OAc)2 with tetradentate Schiff base ligands. The palladium(II) complexes were fully characterized by analytical, spectral (FT-IR, UV-Vis, 1H-NMR & 13C-NMR) methods. Further, the new palladium(II) complexes were tested as catalyst for Suzuki-Miyaura and Sonogashira coupling reactions and exhibits very good catalytic activity.
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32

Alia, Shaun M. y Yushan Yan. "Palladium Coated Copper Nanowires as a Hydrogen Oxidation Electrocatalyst in Base". Journal of The Electrochemical Society 162, n.º 8 (2015): F849—F853. http://dx.doi.org/10.1149/2.0211508jes.

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33

Khanna, P. K. y Deepti Kulkarni. "Reduction of PdCl2 by Emeraldine Base; Synthesis of Palladium Nano-Particles". Synthesis and Reactivity in Inorganic, Metal-Organic, and Nano-Metal Chemistry 38, n.º 5 (5 de agosto de 2008): 459–63. http://dx.doi.org/10.1080/15533170802255443.

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34

Hu, Yanhe, Jing Liu, Zhixin Lü, Xiancai Luo, Heng Zhang, Yu Lan y Aiwen Lei. "Base-Induced Mechanistic Variation in Palladium-Catalyzed Carbonylation of Aryl Iodides". Journal of the American Chemical Society 132, n.º 9 (10 de marzo de 2010): 3153–58. http://dx.doi.org/10.1021/ja909962f.

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35

Strelow, Franz W. E. y André Victor. "Improved separation of palladium from base metals by cation-exchange chromatography". Analytica Chimica Acta 248, n.º 2 (agosto de 1991): 535–40. http://dx.doi.org/10.1016/s0003-2670(00)84672-3.

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36

Hisatsune, Kunihiro, Masayuki Hasaka, Bambang Irawan Sosrosoedirdjo y Koichi Udoh. "Age-hardening behavior in a palladium-base dental porcelain-fused alloy". Materials Characterization 25, n.º 2 (septiembre de 1990): 177–84. http://dx.doi.org/10.1016/1044-5803(90)90008-8.

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37

Kumagai, N., A. Kawashima, K. Asami y K. Hashimoto. "Anodic characteristics of amorphorous palladium-base alloys in sodium chloride solutions". Journal of Applied Electrochemistry 16, n.º 4 (julio de 1986): 565–74. http://dx.doi.org/10.1007/bf01006851.

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38

Alexander, S., V. Udayakumar y V. Gayathri. "Hydrogenation of olefins by polymer-bound palladium(II) Schiff base catalyst". Journal of Molecular Catalysis A: Chemical 314, n.º 1-2 (diciembre de 2009): 21–27. http://dx.doi.org/10.1016/j.molcata.2009.08.012.

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39

Alperine, S., P. Steinmetz, P. Josso y A. Costantini. "High temperature-resistant palladium-modified aluminide coatings for nickel-base superalloys". Materials Science and Engineering: A 120-121 (diciembre de 1989): 367–72. http://dx.doi.org/10.1016/0921-5093(89)90789-2.

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40

Pankajakshan, Sreekumar y Teck-Peng Loh. "ChemInform Abstract: Base-Free Palladium-Catalyzed Sonogashira Coupling Using Organogold Complexes." ChemInform 42, n.º 51 (24 de noviembre de 2011): no. http://dx.doi.org/10.1002/chin.201151081.

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41

Yamamoto, Yutaro, Keisuke Nogi, Hideki Yorimitsu y Atsuhiro Osuka. "Base-Free Palladium-Catalyzed Hydrodechlorination of Aryl Chlorides with Pinacol Borane". ChemistrySelect 2, n.º 4 (1 de febrero de 2017): 1723–27. http://dx.doi.org/10.1002/slct.201700189.

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42

Gogoi, Ankur, Anindita Dewan, Geetika Borah y Utpal Bora. "A palladium salen complex: an efficient catalyst for the Sonogashira reaction at room temperature". New Journal of Chemistry 39, n.º 5 (2015): 3341–44. http://dx.doi.org/10.1039/c4nj01822b.

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43

Gaube, Gregory, Nahiane Pipaon Fernandez y David C. Leitch. "An evaluation of palladium-based catalysts for the base-free borylation of alkenyl carboxylates". New Journal of Chemistry 45, n.º 43 (2021): 20095–98. http://dx.doi.org/10.1039/d1nj04008a.

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44

Ding, Dong, Gang Liu, Guangyang Xu, Jian Li, Guoping Wang y Jiangtao Sun. "Palladium catalyzed N–H bond insertion and intramolecular cyclization cascade: the divergent synthesis of heterocyclics". Org. Biomol. Chem. 12, n.º 16 (2014): 2533–37. http://dx.doi.org/10.1039/c4ob00001c.

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45

Stogniy, Marina Yu, Svetlana A. Erokhina, Kirill Yu Suponitsky, Vitaliy Yu Markov y Igor B. Sivaev. "Synthesis and crystal structures of nickel(ii) and palladium(ii) complexes with o-carboranyl amidine ligands". Dalton Transactions 50, n.º 14 (2021): 4967–75. http://dx.doi.org/10.1039/d1dt00373a.

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46

Ning, Yuantao, Zhengfen Yang y Huaizhi Zhao. "Platinum Recovery by Palladium Alloy Catchment Gauzes in Nitric Acid Plants". Platinum Metals Review 40, n.º 2 (1 de abril de 1996): 80–87. http://dx.doi.org/10.1595/003214096x4028087.

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Since the introduction of palladium-gold catchment gauzes for the recovery of the platinum lost from the catalyst gauzes used in the manufacture of nitric acid, the mechanism by which these high palladium content alloys catch and recover the platinum has been of interest to both researchers and manufacturers, alike. Using analyses of the surface chemical species which form on palladium, both in flowing oxygen and during the ammonia oxidation reaction, this paper describes how the surface of the palladium, at temperatures above 800°C, is a multilayer structure with the bright palladium metal surface being covered by a thin layer of palladium metal vapour and then by a layer of palladium oxide vapour. The mechanism of the platinum recovery is related to the surface state of the palladium, and the high recovery rate by the palladium alloy catchment gauze is attributed to this unique multilayer structure and to the ability of palladium to reduce platinum oxide. Damage to either the surface multilayer structure or the oxidation characteristics of palladium decreases the platinum recovery rate. Thus, catchment gauzes made from palladium alloys containing high concentrations of base metal solutes, such as nickel, cannot be expected to have such a high platinum recovery rate.
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47

Kratochvíl, Bohumil, Jan Ondráček, Jaroslav Maixner, Josef Macíček y Václav Haber. "Structure of a palladium(II) complex with a non-symmetrical tetradentate Schiff base, [Pd(C14H20N3O)]NCS". Collection of Czechoslovak Chemical Communications 56, n.º 9 (1991): 1900–1907. http://dx.doi.org/10.1135/cccc19911900.

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The structure of (1-phenyl-3-{2-[(2-aminoethyl)amino]ethylimino}-1-buten-1-olato-O,N,N’,N”) palladium(II) thiocyanate, [Pd(baden)]NCS, was solved by heavy-atom method and refined anisotropically ro R = 0.026 for 2 851 unique observed reflections. The title complex crystallizes in the Pc21b space group with a = 11.919(2), b = 14.061(2), c = 19.769(3)Å, Z = 8. The structure contains two symmetrical-independent molecules, each includes the palladium complex cation and thiocyanate anion. The cation formed by the baden ligand consists of one six-membered and two five-membered chelate rings and the phenyl ring. The coordination polyhedron around palladium is slightly distorted and puckered N3O square. The structure is held predominantly by electrostatic forces, but besides there are weak intermolecular hydrogen bonds among baden and thiocyanate nitrogens.
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48

Xu, Zhaotao, Jinting Ai y Mingzhong Cai. "An Efficient Heterogeneous Palladium(0)-Catalysed Cross-Coupling between 1-Bromoalkynes and Terminal Alkynes Leading to Unsymmetrical 1,3-Diynes". Journal of Chemical Research 42, n.º 3 (marzo de 2018): 133–37. http://dx.doi.org/10.3184/174751918x15208574638459.

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Resumen
An efficient heterogeneous palladium(0)-catalysed cross-coupling of 1-bromoalkynes with terminal alkynes was achieved in DMF at room temperature in the presence of 5 mol% of MCM-41-immobilised bidentate phosphine palladium(0) complex [MCM-41-2P-Pd(0)] and 2 mol% of CuI with Et3N as base, yielding a variety of unsymmetrical 1,3-diynes in moderate to good yields. This heterogeneous palladium(0) complex could be easily recovered by a simple filtration of the reaction solution and recycled at least seven times without significant decrease in activity.
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49

Amadio, Emanuele, Zoraida Freixa, Piet W. N. M. van Leeuwen y Luigi Toniolo. "Palladium catalyzed oxidative carbonylation of alcohols: effects of diphosphine ligands". Catalysis Science & Technology 5, n.º 5 (2015): 2856–64. http://dx.doi.org/10.1039/c4cy01588f.

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50

Chuc, Le Thi Ngoc, Thi Anh Hong Nguyen y Duen-Ren Hou. "Acid–base-sensitive allylic oxidation of 2-allylbenzoic acids to form phthalides". Organic & Biomolecular Chemistry 18, n.º 14 (2020): 2758–68. http://dx.doi.org/10.1039/d0ob00303d.

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Resumen
Allylic oxidation of 2-allylbenzoic acids to phthalides, instead of Wacker-type isocoumarins, was achieved with 1,2-bis(phenylsulfinyl)ethane palladium(ii) acetate (White catalyst) and oxygen in DMSO.
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