Hydrogenation with low-cost transition metals by Jacinto Sa, Anna Srebowata

By Jacinto Sa, Anna Srebowata

Hydrogenation with inexpensive Transition Metals describes fresh advancements within the guidance of catalysts and their catalytic skills in chemoselective hydrogenation for the creation of good chemical compounds and pharmaceutical compounds. Emphasizing using reasonably cheap metals (Cu, Ni, Fe, and Ag) which are frequently found in the shape of nanoparticles, the booklet presents invaluable response mechanism schemes, engineering ideas, and point of view for the field.

Show description

Read Online or Download Hydrogenation with low-cost transition metals PDF

Similar metallurgy books

Wide-Gap Chalcopyrites

Chalcopyrites, particularly people with a large band hole, are attention-grabbing fabrics by way of their technological capability within the subsequent new release of thin-film sun cells and by way of their simple fabric houses. They express uniquely low disorder formation energies, resulting in strange doping and section habit and to super benign grain limitations.

Introduction to physical metallurgy

The most rules and purposes of the metallurgy are supplied during this ebook.

Additional info for Hydrogenation with low-cost transition metals

Example text

Today 79–80 (2003) 391–399. R. Tschan, M. M. Schubert, A. Baiker, W. Bonrath, H. LansinkRotgerink, Continuous semihydrogenation of a propargylic alcohol over amorphous Pd18/Si19 in dense carbon dioxide: Effect of modifiers, Catal. Lett. 75 (2001) 31–36. B. Wüstenberg, R. T. Stemmler, U. Letinois, W. Bonrath, M. Hugentobler, T. Netscher, Large-scale production of bioactive ingredients as supplements for healthy human and animal nutrition, Chimia 65 (2011) 420–428. R. Haerter, U. Lemke, A. Radspieler, Process for the preparation of stilbene derivatives (2005) WO2005023740.

R. Schmid, Homogeneous catalysis with metal complexes in a pharmaceuticals’ and vitamins’ company: Why, what for, and where to go? Chimia 50 (1996) 110–113. M. Schürch, N. Künzle, T. Mallat, A. Baiker, Enantioselective hydrogenation of ketopantolactone: Effect of stereospecific product crystallization during reaction, J. Catal. 176 (1998) 569–571. -U. Baldenius, L. von dem Bussche-Hünnefeld, E. Hilgemann, P. Hoppe, R. Stürmer, Vitamin E (tocopherols, tocotrienols), In Ullmann’s encyclopedia of industrial chemistry, Willey-VCH (1996) 478–488.

Technol. 3 (2013) 1497. M. Makosch, C. Kartusch, J. Sa, R. B. Duarte, J. A. van Bokhoven, K. Kvashnina, P. Glatzel, J. Szlachetko, D. L. A. Fernandes, E. Kleymenov, M. Nachtegaal, K. Hungerbühler, HERFD XAS/ATR-FTIR batch reactor cell, Phys. Chem. Chem. Phys. 14 (2012) 2164. W. Yu, M. D. Porosoff, J. G. Chen, Review of Pt-based bimetallic­catalysis: From model surfaces to supported catalysts,­ Chem. Rev. 112 (2012) 5780–5817. S. T. Marshall, M. O’Brien, B. Oetter, A. Corpuz, R. M. Richards, D.

Download PDF sample

Rated 4.43 of 5 – based on 12 votes