I am interesting in the book. Now, I am studying polymerization organic films by vapor despition under UV excition.I want to know the mechanism of solid-phase reactions and utilize the reactions to make polymer films. Solid-Phase Organic Synthesis Edited by Kevin Burgess, Texas A & M University Efficient, high-throughput chemistry is now the focus of many research laboratories. Solid-phase organic syntheses are central to many of these combinatorial and parallel screening methodologies. Consequently, they have been a major scientific theme of the 1990s and promise to remain prominent for the first part of the new millennium. Indeed, a bewildering number of papers have entered the literature on this topic; some report minor modifications enabling transformation of solution-phase methods to a solid support, while others report major innovations. Solid-Phase Organic Synthesis collects, highlights, and critiques some of the key developments in the field. Leading practitioners explain different perspectives on diverse aspects of the area. Specific topics covered include: • Syntheses of guanidines • Palladium-catalyzed C-C bond forming reactions • S_nAr reactions for the formation of heterocycles • Sequence-specific arylalkyne oligomers • Resin-supported capture agents and other reagents • Synthesis on pins • Monitoring of supported reactions using IR • Solid-phase syntheses of natural product derivatives Of related interest. Combinatorial Chemistry and Molecular Diversity in Drug Discovery Eric M. Gordon and James F. Kerwin 1998 (0-471-15518-7) 544 pp. Combinatorial Chemistry Synthesis and Application Stephen R. Wilson and Anthony W. Czarnik 1997 (0-471-12687-X) 288 pp. Solid-phase syntheses of guanidines / Kevin Burgess and Jiong Chen Palladium-catalyzed carbon-carbon bond formation on solid support / Matthew H. Todd and Chris Abell Benzofused heterocycles via solid-phase S[subscript N]AR reactions / Matthias K. Schwarz and Mark A. Gallop Solid-phase synthesis of sequence-specific phenylacetylene oligomers / Jeffrey S. Moore, David J. Hill, and Matthew J. Mio Polymer-assisted solution-phase methods for chemical library synthesis / Daniel L. Flynn, Rajesh V. Devraj, and John J. Parlow Solid-phase organic synthesis on radiation-grafted polymer surfaces : application of synphase crowns to multiple parallel syntheses / Ian W. James ... [et al.] Vibrational spectroscopy for optimization of solid-phase organic syntheses / Bing Yan Recent advances in solid-phase synthesis of natural products / Lawrence J. Wilson Combinatorial chemistry is a rapidly-growing field in organic and pharmaceutical synthesis. Articles on organic synthesis of solid support have grown exponentially over the last three years. This new work brings together the latest research in the field, highlighting and reviewing some of the hottest topics relevant to combinatorial chemistry, including solid-phase synthesis of natural product derivations, synthesis of guanidine, palladium catalyzed C-C bond forming reactions, resin supported capture agents and other reagents, synthesis on pins, and monitoring of supporting reactions using IR. "Efficient, high-throughput chemistry is now the focus of many research laboratories. Solid-phase organic syntheses are central to many of these combinatorial and parallel screening methodologies. Consequently, they have been a major scientific theme of the 1990s and promise to remain prominent for the first part of the new millennium."--BOOK JACKET. "Solid-Phase Organic Synthesis collects, highlights, and critiques some of the key developments in the field. Leading practitioners explain different perspectives on diverse aspects of the area."--Jacket "Efficient, high-throughput chemistry is now the focus of many research laboratories. Solid-phase organic syntheses are central to many of these combinatorial and parallel screening methodologies. Consequently, they have been a major scientific theme of the 1990s and promise to remain prominent for the first part of the new millennium.". "Solid-Phase Organic Synthesis collects, highlights, and critiques some of the key developments in the field. Leading practitioners explain different perspectives on diverse aspects of the area."--BOOK JACKET. Guanidines are basic molecules (pKa of guanidine = 12.5) with a capacity to form intermolecular contacts mediated by H-bonding interactions.