Dynamic covalent polymers incorporating thermally reversible alkoxyamine units in the main chain were synthesized, and their thermal structural reorganization behavior was systematically investigated. The model reaction using alkoxyamine derivatives clearly revealed that the exchange reaction between the derivatives occurred upon heating over 60 °C, and the degree of exchange strongly depended on the reaction temperature, time, and concentration. Polycondensation from alkoxyamine-based diol and adipoyl chloride at room temperature successfully afforded the corresponding poly(alkoxyamine ester) without any decomposition of the alkoxyamine units. Their molecular weight can be readily estimated by conventional gel permeation chromatography (GPC). In contrast, their thermal reorganization behavior was completely different from common polymers; for instance, the peak in the GPC profiles of the fractionated polymer with a narrow molecular weight distribution broadened to 1.6−2.0 upon heating. Furthermore, the m...