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Chemical synthesis conductivity

The synthesis of conducting polymers can be divided into two broad areas, these being electrochemical and chemical (i.e., non-electrochemical). Whilst the latter may be considered to be outside the scope of this review, it is worth noting that many materials which are now routinely synthesised electrochemically were originally produced via non-electrochemical routes, and that whilst some may be synthesised by a variety of methods many, most notably polyacetylene, are still only accessible via chemical synthesis. In view of this it is useful to have an appreciation of the synthesis of these materials via routes which do not involve electrochemistry. [Pg.10]

There are numerous types of multiphasic chemical processes. The most common are biphasic although triphasic, tetraphasic and even higher number of phases can also be used to conduct chemical synthesis. All the multiphasic methods aim to overcome the major problem of homogeneous catalysis, which is catalyst recovery and product separation. The simplest systems are biphasic ones that involve immobilizing a catalyst in one solvent, which is immiscible with a second solvent in which the substrates/products are dissolved. If a gas is required as a substrate then the system could be regarded as triphasic (i.e. liquid-liquid-gas), although for the purposes of this book (and as is most commonly defined elsewhere) such as system will be referred to as biphasic. In other words, only the number of different liquid solvent phases will be used to define the phasicity of a system. [Pg.33]

An American biochemist, Robert Bruce Merrifield conducted research that revolutionized the way chemical synthesis is done in a variety of fields, including drug development. [Pg.138]

Title Chemical Synthesis of Chiral Conducting Polymers... [Pg.139]

The three themes of the symposium selective hydrogenation, selective oxidation and acid-base catalysis were introduced by four plenary lectures and two invited communications. A panel concerned with the future of zeolites and other shape-selective materials for fine chemical synthesis was conducted by specialists in the field D. Barthomeuf (University of Paris 6), E. Derouane (University of Namur), L. Forni (University of Milan), M. Gubelmann (Rhone-Poulenc, St Fons), W. Hoelderich (BASF, Ludwigshafen) and G. Perot (University of Poitiers). An exhibition of equipment was held during the symposium on October 3 and 4. Over 20 firms exhibited equipment, chemicals and catalysts which were of interest to researchers involved with the synthesis of functional compounds by heterogeneous catalysis. [Pg.622]

A new concept for combinatorial experimentation has been completed. Whilst it aims at the synthesis of focused compound libraries and at selecting the right reagent choices to conduct synthesis, it organizes around the same scaleable process used throughout the chemical synthesis process. Within this concept, variations of... [Pg.534]

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