Synthesis and functionalization of polymer networks via germane–ene chemistry
Literature Information
Publication Date
2017-05-03
DOI
10.1039/C7PY00438A
Impact Factor
5.582
Authors
Ryan Guterman, Tristan D. Harrison, Paul J. Ragogna
View Original
Abstract
Diphenylgermane was polymerized with a multifunctional olefin to create a polymer network possessing pendant Ge–H functional groups within the material. Unlike silanes, which do not efficiently undergo radical mediated hydrosilylation reactions, we observed that hydrogermylation with triphenylgermane and diphenylgermane was possible, which could be extended to a polymerization reaction. Using a small-molecule model system, we demonstrated that Ge–H bonds add to olefins in a 1 : 1 fashion according to a step-growth, radical mediated process, similar to thiol–ene and phosphane–ene systems. This was accomplished using a small amount of initiator under mild conditions, demonstrating the efficiency of this process. The unreacted Ge–H functionality within the polymer network provided a latent handle to perform onwards chemistry, including bond activation, thiolation, and solid-supported germane–ene chemistry. The resulting materials were characterized using EDX, IR, and Raman spectroscopy.
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Source Journal
Polymer Chemistry
CiteScore:
8.6
Self-citation Rate:
7.3%
Articles per Year:
457
Polymer Chemistry welcomes submissions in all areas of polymer science that have a strong focus on macromolecular chemistry. Manuscripts may cover a broad range of fields, yet no direct application focus is required.
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CAS Number:
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Molecular Formula:
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