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Catalysis journals

Many high-ranked catalysis experts have opened their research to micro-reactor studies and have become active. Engineering and catalysis journals have their eye on the field. Thus, cross-border expertise is approaching chemical micro processing. Virtually all chemical-engineering conferences have a micro-reactor session. One can say that micro reactors are now accepted and in a positive sense being absorbed by the catalysis community. [Pg.99]

Cao, C., Cui, Z., Chen, C., Song, W. and Cai, W. (2010) Ceria hollow nanospheres produced by a template-free microwave-assisted hydrothermal method for heavymetal ion removal and catalysis. Journal of Physical Chemistry C, 114, 9865-9870. [Pg.236]

Kim, H.-S., Pasten, P.A., Gaillard, J.-F. and Slair, P.C. (2003) Nanocrystalline todorokite-like manganese oxide produced by bacterial catalysis. Journal of the American Chemical Society, 125, 14284-14285. [Pg.191]

Lee, K., Zhang, J., Wang, H., and Wilkinson, D. P. Progress in the synthesis of carbon nanotube- and nanofiber-supported Pt electrocatalysts for PEM fuel cell catalysis. Journal of Applied Electrochemistry 2006 36 507-522. [Pg.99]

Escherichia coli thioredoxin reductase refined at 2 A resolution. Implication of a large conformational change during catalysis. Journal of Molecular Biology, 236, 800-16. [Pg.390]

I Am Oil Chem Soc J Am Pharm Assoc J Antibiotics J Bacteriol J Biochem (Tokyo) J Biol Chem J Catalysis J Chem Ed J Chem Eng Data J Chem Res (S) J Fluorine Chem J Gen Chem USSR J Gen Microbiol I Heterocyclic Chem J Ind Chem Soc J Korean Chem Soc J Label Compds J Label Cpds Radiopharm Journal of the American Oil Chemists Society Journal of the American Pharmaceutical Association Journal of Antibiotics Journal of Bacteriology Journal of Biochemistry (Tokyo) Journal of Biological Chemistry Journal of Catalysis Journal of Chemical Education Journal of Chemical and Engineering Data Journal of Chemical Research. Synopses Journal of Fluorine Chemistry Journal of General Chemistry of the USSR Journal of General Microbiology Journal of Heterocyclic Chemistry Journal of die Indian Chemical Society Journal of die Korean Chemical Society Journal of Labelled Compounds Journal of Labelled Compounds and Radiopharmaceuticals... [Pg.2620]

J Lipid Res J Med Chem J Mol Catal I Nat Prod J Nucl Med I Pharm Sci I Photochem J Phys Chem J Phys Org Chem J Polym Sci, Polym Chem Ed J Prakt Chem J Russ Phys Chem Soc J Sci Ind Res B Journal of Lipid Research Journal of Medicinal Chemistry Journal of Molecular Catalysis Journal of Natural Products Journal of Nuclear Medicine Journal of Pharmaceutical Sciences Journal of Photochemistry Journal of Physical Chemistry Journal of Physical Organic Chemistry Journal of Polymer Science Polymer Chemistry Edition Journal fur Praktische Chemie Journal of the Russian Physical Chemical Society Journal of Scientific and Industrial Research. Part B Physical Sciences... [Pg.2620]

In this book, we describe some the most often-used techniques in catalyst characterization, and also provide some statistics showing how often certain methods have been described in the most important catalysis journals since 2002 (see Fig. 1.7) [16]. In the following chapters we will highlight those methods that have been particularly useful in studies of metal, oxide and sulfide catalysts, and re-... [Pg.6]

Hedayatullah M (1981) Alkylation of pyrimidines in phase-transfer catalysis. Journal of Heterocyclic Chemistry 18 339-342. [Pg.319]

Zhao, J., Guo, Z., Ma, X., Liang, G., and Wang, J. 2004. Novel snrface modification of high-density polyethylene films by using enzymatic catalysis. Journal of Applied Polymer Science, 91 3673-78. [Pg.104]

Collins, F.M., Lucy, A.R., and Sharp, C. Oxidative desulphurisation of oils via hydrogen peroxide and heteropolyanion catalysis. Journal of Molecular Catalysis. A, Chemical, 1997, 117, 397. [Pg.309]

Seyedsayamdost, M. R., Reece, S. Y., Nocera, D. G. and Stubbe, J. (2006) Mono-, di-, tri-, and tetra-substituted fluorotyrosines New probes for enzymes that use tyrosyl radicals in catalysis. Journal of the American Chemical Society, 128(5), 1569-1579. [Pg.443]

Villani, A.J. and Heys, J.R. (1997) Direct tritium labelling of multifunctional compounds using organoiridium catalysis. Journal of Labelled Compounds Radiopharmaceuticals, 39, 291—298. [Pg.180]

Epstein, J. and Mosher, W.A. 1968. Magnesium ion catalysis of hydrolysis of isopropyl methylphosphono-fluoridate. The charge effect ion metal ion catalysis. Journal of Physical Chemistry, 12 622-625. [Pg.45]

Despite the observations made above, many authors of papers in catalysis journals seem to ignore the importance of the preparation procedure used for the eventual catalytic results they obtain. The procedure used is usually described in very general terms, and often conditions that appear to have no fundamental reasoning are used, e.g. the used catalyst precursor, calcination conditions, pH of precursor solution (often not mentioned), temperature of solutions, etc. Fortunately, other researchers take the preparation of catalysts seriously and many publications and text-books exist that discuss the preparation of catalysts on a scientific basis.1 Especially in the group of Geus (now De Jong) at the Utrecht University in The Netherlands,1,2 years of research on the preparation of catalysts has lead to a more scientific basis for catalyst preparation. [Pg.2]

Figure 7.6. Volcano curve for CO methanation (T. Bligaard, J.K. Norskov, S. Dahl, J. Matthiesen, C.H. Christensen, J. Sehested, The Bronsted-Evans Polanyi relation and the volcano curve in heterogeneous catalysis, Journal of Catalysis 224 (2004) 206). Figure 7.6. Volcano curve for CO methanation (T. Bligaard, J.K. Norskov, S. Dahl, J. Matthiesen, C.H. Christensen, J. Sehested, The Bronsted-Evans Polanyi relation and the volcano curve in heterogeneous catalysis, Journal of Catalysis 224 (2004) 206).
Guo, H. and Salahub, D.R. (2001) Origin of the high basicity of 2,7-dimethoxy-l,8-bis (dimethylamino)naphthalene implications for enzyme catalysis. Journal of Molecular Structure (Theochem), 547, 113—118. [Pg.42]

K. Sayama, H. Arakawa, Effect of Na2C03 addition on photocatalytic decomposition of liquid water over various semiconductors catalysis . Journal of Photochemistry and Photobiology A Chemistry, 77, 243-247, (1994). [Pg.148]

Gupta, L. Hoepker, A. C Singh, K J. Collum, D. B. (2008). Lithium Diisopropylamide-Mediated Ortholithiations Lithium Chloride Catalysis. Journal of Organic Chemistry Vol.74, pp. 2231-2233, ISSN 0022-3263... [Pg.508]

Saber, J. M., Falconer, J. L., Brown, L. F. (1984). Carbon dioxide gasification of carbon black isotope study of carbonate catalysis. Journal of Catalysis, 90, 65—74. [Pg.184]

McCoy, B. J. 1984. Compensation effect in the dissociation of anharmonic oscillators amodel for catalysis. Journal of Chemical Physics 80 3629. [Pg.63]

Liu, Y., E. Lotero J. Goodwinjr (2006) Effed of carbon chain length on esterification of carboxylic acids with methanol using acid catalysis. Journal of Catalysis, 243, 221-228,ISSN 00219517. [Pg.279]

Wilkes, J. S. 2004. Properties of Ionic Liquid Solvents for Catalysis. Journal of Molecular Catalysis A Chemical 214 (1) 11-17. [Pg.112]

Peterson, G., and W. Scarrah. 1984. Rapeseed Oil Transesterification by Heterogeneous Catalysis. Journal of the American Chemical Society 61 (10) 1593-1597. [Pg.148]

Taylor, N.R. and von Itzstein, M. (1994) Molecular modeling studies on ligand binding to sialidase from influenza virus and the mechanism of catalysis. Journal of Medicinal Chemistry, 37, 616-624. [Pg.680]

Sherwood, P. et al. (2003). QUASI A General Purpose Implementation of the QM/MM Approach and its Application to Problems in Catalysis. Journal of Molecular Structure THEOCHEM, 632(1), 1-28. [Pg.275]

Albrecht, L., Dickmeiss, G., Acosta, F. C., Rodriguez-Escrich, C., Davis, R. L., Jorgensen, K. A. (2012). Asymmetric organocatalytic formal [2 -I- 2]-cycloadditions via brfunctional H-bond directing dienamine catalysis. Journal of the American Chemical Society, 134, 2543-2546. [Pg.153]

Rendler, S., MacMillan, D. W. C. (2010). Enantioselective polyene cychzation via organo-SOMO catalysis. Journal of American Chemical Society, 132, 5027-5029. [Pg.210]

Appayee, C., Fraboni, A. J., Brenner-Moyer, S. E. (2012). y-Amino alcohols via organocascade reactions involving dienamine catalysis. Journal of Organic Chemistry, 77, 8828-8834. [Pg.361]

Ooi, T., Takeuchi, M., Kameda, M., Maruoka, K. (2000). Practical catalytic enantioselective synthesis of a,a-dialkyl-a-amino acids by chiral phase-transfer catalysis. Journal of the American Chemical Society, 122, 5228-5229. [Pg.362]

Kwon, Y., Lai, S.C.S., Rodriguez, P., and Koper, M.T.M. (2011) Electrocatalytic oxidation of alcohols on gold in alkaline media base or gold catalysis Journal of the American Chemical Society, 133 (18), 6914-6917. [Pg.126]

Johnson, K. H., 8c Messmer, R. P. (1974). Clusters, chemisorption and catalysis. Journal of Vacuum Science Technology, 11, 236. [Pg.606]

See other pages where Catalysis journals is mentioned: [Pg.91]    [Pg.118]    [Pg.2615]    [Pg.46]    [Pg.33]    [Pg.1906]    [Pg.32]    [Pg.685]    [Pg.138]    [Pg.756]    [Pg.319]    [Pg.199]    [Pg.360]    [Pg.230]   
See also in sourсe #XX -- [ Pg.18 , Pg.19 ]



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