Photochemical Methods for the Preparation of Complex Linear and Cross-linked Macromolecular Structures
Mehmet Atilla Tasdelen A B and Yusuf Yagci A CA Istanbul Technical University, Faculty of Science and Letters, Department of Chemistry, Maslak, 34469, Istanbul, Turkey.
B Yalova University, Faculty of Engineering, Department of Polymer Engineering, 77100, Yalova, Turkey.
C Corresponding author. Email: yusuf@itu.edu.tr
Mehmet Atilla Tasdelen received his M.Sc. (2002) and Ph.D. degree (2008) from the Polymer Science and Technology Program of the Istanbul Technical University under the supervision of Professor Yagci. He joined Yalova University, Department of Polymer Engineering in July, 2010 as an Assistant Professor. His research topics focus on the design of functional macromolecular architectures, photoinitiated cationic and radical polymerization, controlled polymerization techniques, ‘click’ chemistry and nanocomposites. He is the co-author of 35 research papers and 11 book chapters. |
Yusuf Yagci is a full professor of Chemistry at Istanbul Technical University, Turkey with expertise in photopolymerization. He received his Masters (1977) and Ph.D. (1979) degree from Liverpool University (UK). He joined Istanbul Technical University in 1980 and between 1996 and 2001 he was the Director of the Institute of Science and Technology of Istanbul Technical University. He has published about 400 original research papers in different peer-reviewed international journals. Yagci's research interest involved initially in the area of photoinitiated cationic and radical polymerization, transformation reactions, controlled polymerization, block and graft copolymers, conducting polymers, nanocomposites, click chemistry, and benzoxazine. |
Australian Journal of Chemistry 64(8) 982-991 https://doi.org/10.1071/CH11113
Submitted: 16 March 2011 Accepted: 29 May 2011 Published: 19 August 2011
Abstract
In this contribution, the current state of the art is summarized and an overview of photoinitiating systems for both radical and cationic polymerizations and their potential application in the preparation of complex linear and cross-linked macromolecular structures are described. Recent relevant studies have been devoted to developing novel free radical and cationic photoinitiators having spectroscopic sensitivity in the near-UV or visible range. Photoinitiated controlled radical polymerization methods leading to tailor-made polymers with predetermined structure and architecture are briefly presented. Several synthetic methodologies for the preparation of epoxy and (meth)acrylate based formulations containing clay or metal nanoparticles are also summarized. The nanoparticles are homogenously distributed in the network without macroscopic agglomeration. Applicability to both free radical and cationic systems is demonstrated.
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