A study in the reduction of efficiency of nitrogen oxide removal catalysts for automobiles

Automotive catalysts are the most effective short-term answer to air pollution from automobiles. Since strict control of exhaust emissions is, or will be,covered by legislation in most developed countries in the world, catalytic devices will be increasingly fitted to cars. There is consequently an urgent need for the development of catalysts that will not compete for scarce precious metal resources. A number of problems have already been identified in connection with base metal catalysts but quantitative investigations are lacking. The base metal reduction catalysts developed by Imperial Chemical Industries Limited, catalysts and Chemical Group, in collaboration with the Air Pollution Control Laboratory, B L Cars Limited for automotive emission control, are susceptible to de-activation by three major mechanisms. These are: physical loss of the wash-coat (a high surface area coating which supports the active species), aggregation of the active species and poisoning by fuel and engine oil additives. This thesis is especially concerned with the first two of these and attempts to indicate the relative magnitude .of their effect on the activity of. the catalysts. Aggregation of the active species or sintering, as it is loosely called, was studied by using impregnated granules to overcome effects due to the loss of the wash-coat. Samples were aged in a synthetic exhaust gas, free from poisons, and metal crystallite sizes were measured by scanning-electron microscopy. The increase in particle size was correlated with the loss in catalytic activity. In order to maintain a link with the real conditions of service a number of monolithic catalysts were tested in an engine-dynamometer and several previously tested endurance catalysts were examined. A mechanism is proposed for the break-up and subsequent 10s.5 of the wash-coat and suggestions for improved resistance to loss of the' coating and active species are proposed.

Applied pharmaceutical practice

Applied Pharmaceutical Practice is an invaluable resource and will guide the student pharmacist and pharmacy technician through the main stages involved in pharmaceutical dispensing. As a core reference text, it is ideal as a companion to the compulsory dispensing courses found in all undergraduate MPharm programmes and the equivalent technical training courses. Contents include: •medicines classification and standard operating procedures •NHS supply in the community and within hospitals •non-NHS supply •controlled drugs •emergency supply •patient counselling and communication •poisons and spirits This practical textbook contains useful exercises with an answers section and numerous examples and is written by authors with extensive experience within the field. This is a comprehensive guide through the main stages of pharmaceutical dispensing.The textbook is designed to guide student pharmacists or pharmacy technicians through the main stages involved in pharmaceutical dispensing. It provides students with a core reference text to accompany the compulsory dispensing course found in all pharmacy undergraduate programmes, highlighting and explaining all key concepts behind the processes involved in pharmaceutical dispensing.

Evidence for the surface-catalyzed suzuki-miyaura reaction over palladium nanoparticles:an operando XAS study

No need to get away: X-ray absorption spectroscopy of catalytically active palladium nanopartlcles during a SuzukiMlyaura cross-coupling reaction revealed that the nanopartlcles were stable under the reaction conditions, and that cross-coupling Involved the direct participation of surface palladium defect sites In the catalytic cycle (see picture). Selective chemical and structural poisons provided further evidence for a heterogeneous active site. © 2010 Wiley-VCH Verlag GmbH & Co. KCaA.

Applied pharmaceutical practice

Applied Pharmaceutical Practice is an invaluable resource and will guide the student pharmacist and pharmacy technician through the main stages involved in pharmaceutical dispensing. As a core reference text, it is ideal as a companion to the compulsory dispensing courses found in all undergraduate MPharm programmes and the equivalent technical training courses. Contents include: •medicines classification and standard operating procedures •NHS supply in the community and within hospitals •non-NHS supply •controlled drugs •emergency supply •patient counselling and communication •poisons and spirits This practical textbook contains useful exercises with an answers section and numerous examples and is written by authors with extensive experience within the field. This is a comprehensive guide through the main stages of pharmaceutical dispensing.The textbook is designed to guide student pharmacists or pharmacy technicians through the main stages involved in pharmaceutical dispensing. It provides students with a core reference text to accompany the compulsory dispensing course found in all pharmacy undergraduate programmes, highlighting and explaining all key concepts behind the processes involved in pharmaceutical dispensing.

Surface catalysed Suzuki-Miyaura cross-coupling by Pd nanoparticles:an operando XAS study

Size-controlled, catalytically active PVP-stabilised Pd nanoparticles have been studied by operando liquid phase XAS during the Suzuki cross-coupling of iodonanisole and phenylboronic acid in MeOH-toluene using KOMe base. XAS reveals nanoparticles are stable to metal leaching throughout the reaction, with surface density Pd defect sites directly implicated in the catalytic cycle. The efficacy of popular selective chemical and structural poisons for distinguishing heterogeneous and homogeneous contributions in Pd catalysed cross-couplings is also explored. © 2010 The Royal Society of Chemistry.

Platinum-catalysed cinnamaldehyde hydrogenation in continuous flow

Platinum is one of the most widely used hydrogenation catalysts. Here we describe the translation of batch reactions to continuous flow, affording tunable C=O versus C=C hydrogenation over a Pt/SiO2 catalyst, resulting in high steady state activity and single-pass yields in the selective hydrogenation of cinnamaldehyde to cinnamyl alcohol under mild conditions. Negligible catalyst deactivation occurs under extended flow operation due to removal of reactively-formed poisons from the reaction zone. Process intensification imparts a four-fold enhancement in cinnamyl alcohol productivity.