Carbon-carbon bond forming solid-phase reactions
Article Abstract:
A review of the available published works on solid-phase carbon-carbon bond formation from 1990 to 1997 reveals that the phenomenon is now a routine chemical reaction in the chemical community. This development, which is at the very heart of organic chemistry, points to the possibility of future exciting discoveries within the field. The advances, made possible via solid-phase small-molecule synthesis, have remarkable potential when combined with new resins, analytical methods, cleavage strategies and linkers.
Publication Name: Chemical Reviews
Subject: Chemistry
ISSN: 0009-2665
Year: 1999
User Contributions:
Comment about this article or add new information about this topic:
Supported metal clusters: synthesis, structure, and catalysis
Article Abstract:
Supported metal clusters created through syntheses using organometallic chemistry on surfaces, gas phase cluster chemistry, and innovative preparation in zeolite cages have expanded the possible uses of heterogeneous catalysis. The classes and supports of metal catalysts, as well as their preparation are discussed in detail.
Publication Name: Chemical Reviews
Subject: Chemistry
ISSN: 0009-2665
Year: 1995
User Contributions:
Comment about this article or add new information about this topic:
- Abstracts: Oxocarbons and pseudooxocarbons. Small carbon clusters: spectroscopy, structure, and energetics. Progress in the construction of cyclooctanoid systems: new approaches and applications to natural product syntheses
- Abstracts: Mononuclear organomolybdenum(VI) dioxo complexes: Synthesis, reactivity, and catalytic applications. Synthesis of beta-aminophosphonates and -phosphinates
- Abstracts: State of understanding of Nafion. Three-dimensional battery architectures. Battery separators
- Abstracts: Heme/copper terminal oxidases. Protein structure and the energetics of protein stability. Iron-sulfur proteins with nonredox functions
- Abstracts: EPR as a tool to investigate the transition metal chemistry on oxide surfaces. Mechanism of Rubisco: the carbamate as general base