Varying the Core Topology in All‐Glycidol Hyperbranched Polyglycerols: Synthesis and Physical Characterization.

In the present study, low molecular weight cyclic polyglycidol is used as a macroinitiator for hypergrafting glycidol and producing cyclic graft hyperbranched polyglycerol (cPG‐<italic>g</italic>‐hbPG) in the molecular weight range of 103–106 g mol−1. Linear graft hyperbranched polyglycerol (linPG‐<italic>g</italic>‐hbPG) and hyperbranched polyglycerol (hbPG) are prepared as reference samples. This creates a family of hbPG structures with cyclic, linear, and star cores, allowing to evaluate their properties in solution and in bulk. The morphology study of the high molecular weight structures using atomic force microscopy revealed a spherical shape for cPG‐<italic>g</italic>‐hbPG and hbPG, and a cylindrical shape for linPG‐<italic>g</italic>‐hbPG in the nanometric range. Small angle X‐ray scattering confirmed the compact particle‐like structure of this family of hbPG architectures. Interestingly, the glass transition temperature showed a structure dependence, with cPG‐<italic>g</italic>‐hbPG having the highest values and hbPG having the lowest values for the same molecular weight. This study is a step forward in the generation of water‐soluble polymers with tailored structure and functionality for advanced applications. [ABSTRACT FROM AUTHOR]