Catalysis and Electrocatalysis at Nanoparticle Surfaces

Illustrating developments in electrochemical nanotechnology, heterogeneous catalysis, surface science and theoretical modelling, this reference describes the manipulation, characterization, control and application of nanoparticles for enhanced catalytic activity and selectivity. It also offers exper

<br> Content: Chemically modified surfaces in catalysis / David E. Bergbreiter --<br/> Preparation and characterization of poly(styrene-divinylbenzene)-supported catalysts / J.V. Minkiewicz, D. Milstein, J. Lieto, B.C. Gates, and R.L. Albright --<br/> Polymeric cofactors for homogeneous rhodium(I) c

The only standard reference in this exciting new field combines the physical, chemical and material science perspectives in a synergic way. <br> This monograph traces the development of the preparative methods employed to create nanostructures, in addition to the experimental techniques used to char

Wiley, 2009. — 431 p.<div class="bb-sep"></div>The only standard reference in this exciting new field combines the physical, chemical and material science perspectives in a synergic way. <br/>This monograph traces the development of the preparative methods employed to create nanostructures, in addit

Written by international experts, this monograph combines two of the most important aspects of modern chemistry, presenting the latest knowledge on these environmental friendly applications.This result is a comprehensive overview of the application of nanoparticles in catalysis, focusing on synthesi

Catalysis is at the heart of the chemical industry, which uses solid catalysts for the large-scale production of commodity chemicals. Catalysis at surfaces is also the basis for the ongoing transition to a sustainable energy supply, which requires molecules such as hydrogen, ammonia or methanol to s